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Alternatives to the hazard ratio in summarizing efficacy in time-to-event studies: an example from influenza trials

Estimates of the efficacy of new medicines are key to the investigation of their clinical effectiveness. The most widely recommended approach to summarizing time‐to‐event data from clinical trials is to use a hazard ratio. When the proportional hazards assumption is questionable, a hazard ratio depe...

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Published in:	Statistics in medicine 2002-12, Vol.21 (23), p.3687-3700
Main Author:	Keene, Oliver N.
Format:	Article
Language:	English
Subjects:	Antiviral Agents - therapeutic use Biological and medical sciences bootstrap Confidence Intervals Drug Therapy - standards hazard Humans influenza Influenza, Human - drug therapy median Medical sciences meta-analysis Models, Statistical Randomized Controlled Trials as Topic - methods time-to-event
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creator	Keene, Oliver N.
description	Estimates of the efficacy of new medicines are key to the investigation of their clinical effectiveness. The most widely recommended approach to summarizing time‐to‐event data from clinical trials is to use a hazard ratio. When the proportional hazards assumption is questionable, a hazard ratio depends on the length of patient follow‐up. Hazard ratios do not directly translate into differences in times to events and therefore can present difficulties in interpretation. This paper describes an area where summary by hazard ratio would seem unsuitable and explores alternative estimates of efficacy. In particular, the difference in median time to event between treatments can provide a useful and consistent measure of efficacy. Methods of calculating confidence intervals for differences in medians for censored time‐to‐event will be described. Accelerated failure time models provide a useful alternative approach to proportional hazards modelling. Estimates of the ratio of the median time to event between treatments are directly available from these models. One of the reasons given for summarizing time‐to‐event studies by a hazard ratio is to facilitate meta‐analyses. The bootstrap estimate of standard error for difference in median in each trial can provide a method for combining results based on summary statistics. Copyright © 2002 John Wiley & Sons, Ltd.
doi_str_mv	10.1002/sim.1312
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subjects	Antiviral Agents - therapeutic use Biological and medical sciences bootstrap Confidence Intervals Drug Therapy - standards hazard Humans influenza Influenza, Human - drug therapy median Medical sciences meta-analysis Models, Statistical Randomized Controlled Trials as Topic - methods time-to-event
title	Alternatives to the hazard ratio in summarizing efficacy in time-to-event studies: an example from influenza trials
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