Abstract
BackgroundComposite endpoints are recommended in rare diseases to increase power and/or to sufficiently capture complexity. Often, they are in the form of responder indices which contain a mixture of continuous and binary components. Analyses of these outcomes typically treat them as binary, thus only using the dichotomisations of continuous components. The augmented binary method offers a more efficient alternative and is therefore especially useful for rare diseases. Previous work has indicated the method may have poorer statistical properties when the sample size is small. Here we investigate small sample properties and implement small sample corrections.MethodsWe re-sample from a previous trial with sample sizes varying from 30 to 80. We apply the standard binary and augmented binary methods and determine the power, type I error rate, coverage and average confidence interval width for each of the estimators. We implement Firth’s adjustment for the binary component models and a small sample variance correction for the generalized estimating equations, applying the small sample adjusted methods to each sub-sample as before for comparison.ResultsFor the log-odds treatment effect the power of the augmented binary method is 20-55% compared to 12-20% for the standard binary method. Both methods have approximately nominal type I error rates. The difference in response probabilities exhibit similar power but both unadjusted methods demonstrate type I error rates of 6–8%. The small sample corrected methods have approximately nominal type I error rates. On both scales, the reduction in average confidence interval width when using the adjusted augmented binary method is 17–18%. This is equivalent to requiring a 32% smaller sample size to achieve the same statistical power.ConclusionsThe augmented binary method with small sample corrections provides a substantial improvement for rare disease trials using composite endpoints. We recommend the use of the method for the primary analysis in relevant rare disease trials. We emphasise that the method should be used alongside other efforts in improving the quality of evidence generated from rare disease trials rather than replace them.
Highlights
Composite endpoints are recommended in rare diseases to increase power and/or to sufficiently capture complexity
A common responder endpoint used in rheumatoid arthritis is the ACR20, in which patients demonstrate clinical response if they achieve a 20% improvement from baseline, as measured by a continuous American college of rheumatology (ACR)-N (American College of Rheumatology) score
In the adjusted augmented binary method with generalised estimating equations (GEE), the type I error rate drops to 3–4%
Summary
Composite endpoints are recommended in rare diseases to increase power and/or to sufficiently capture complexity. One way to maximise information from rare disease trials is to use composite endpoints [4] These are endpoints which combine a number of individual outcomes in order to assess the effectiveness or efficacy of a treatment. If the components are appropriately chosen, composite endpoints that require an event in only one of the components (a or b or c etc.) may have the ability to improve the power to show a given treatment effect due to the increased number of events [5,6,7] These characteristics appeal to rare diseases where many realisations of the diseases are highly variable and availability of the population may be a binding constraint
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