Moving Beyond the Hazard Ratio in Quantifying the Between-Group Difference in Survival Analysis

Uno, Hajime; Claggett, Brian; Tian, Lu; Inoue, Eisuke; Gallo, Paul; Miyata, Toshio; Schrag, Deborah; Takeuchi, Masahiro; Uyama, Yoshiaki; Zhao, Lihui; Skali, Hicham; Solomon, Scott D.; Jacobus, Susanna; Hughes, Michael; Packer, Milton; Wei, L. J.

doi:10.1200/jco.2014.55.2208

Cited by 531 publications

(572 citation statements)

References 25 publications

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“…Other novel statistical approaches have been proposed as alternatives to hazard ratios in clinical trials, including the use of restricted mean survival time, which may be a more meaningful metric of benefit. [94][95][96] Although these approaches may have some benefit in superiority trials, because they allow for the estimation of benefit in terms of time rather than reduction in risk, they may be more useful as way to design safety and noninferiority trials, and have recently been proposed as a alternative to standard approaches that can reduce sample size for a cardiovascular safety noninferiority trial, 97 which have been criticized for being too large, long, and costly. June 21, 2016…”

Section: Alternatives To Hazard Ratios For Noninferiority Trialsmentioning

confidence: 99%

The Future of Clinical Trials in Cardiovascular Medicine

Solomon

Pfeffer

2016

Circulation

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Section: Alternatives To Hazard Ratios For Noninferiority Trialsmentioning

confidence: 99%

The Future of Clinical Trials in Cardiovascular Medicine

Solomon

Pfeffer

2016

Circulation

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“…With the mixture population model approach, we cannot obtain a weighted average of the study-specific hazard functions for each group due to the fact that the hazard function is not a probability. On the other hand, an alternative summary measure such as the event rate or the restricted mean survival time at a specific follow-up time point can be considered for each group [20,21]. We may then similarly obtain an estimate based on an interpretable mixture of these study-specific event rates (or restricted mean event times) across all studies to construct a group contrast measure for a target mixture population.…”

Section: Rusmentioning

confidence: 99%

The Myth of Making Inferences for an Overall Treatment Efficacy with Data from Multiple Comparative Studies Via Meta-Analysis

et al. 2017

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Meta analysis techniques, if applied appropriately, can provide a summary of the totality of evidence regarding an overall difference between a new treatment and a control group using data from multiple comparative clinical studies. The standard meta analysis procedures, however, may not give a meaningful between-group difference summary measure or identify a meaningful patient population of interest, especially when the fixed effect model assumption is not met. Moreover, a single between-group comparison measure without a reference value obtained from patients in the control arm would likely not be informative enough for clinical decision making. In this paper, we propose a simple, robust procedure based on a mixture population concept and provide a clinically meaningful group contrast summary for a well-defined target population. We use the data from a recent meta analysis for evaluating statin therapies with respect to the incidence of fatal stroke events to illustrate the issues associated with the standard meta analysis procedures as well as the advantages of our simple proposal. 1The myth of making inferences for an overall treatment efficacy with data from multiple comparative studies via meta-analysis Abstract Meta analysis techniques, if applied appropriately, can provide a summary of the totality of evidence regarding an overall difference between a new treatment and a control group using data from multiple comparative clinical studies. The standard meta analysis procedures, however, may not give a meaningful between-group difference summary measure or identify a meaningful patient population of interest, especially when the fixed effect model assumption is not met. Moreover, a single between-group comparison measure without a reference value obtained from patients in the control arm would likely not be informative enough for clinical decision making. In this paper, we propose a simple, robust procedure based on a mixture population concept and provide a clinically meaningful group contrast summary for a well-defined target population. We use the data from a recent meta analysis for evaluating statin therapies with respect to the incidence of fatal stroke events to illustrate the issues associated with the standard meta analysis procedures as well as the advantages of our simple proposal. † Lee-Jen Wei

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“…17 Group differences in time to event distributions were also measured using restricted mean survival time representing the area under the survival curves when cutting follow-up at a certain time. 18 Response evaluation was based on the International Myeloma Working Group response criteria. 19 Per-protocol response rate was adjudicated centrally, and because of a high number of unevaluable cases using perprotocol criteria, a second adjudicated response by principal investigator and coordinating center was also evaluated using International Myeloma Working Group criteria.…”

Section: Randomized Trial Mpt-t Vs Mpr-r 1295mentioning

confidence: 99%