 Optimising precision and power by machine learning in randomised trials with ordinal and time‐to‐event outcomes with an application to COVID‐19Nicholas Williams, Michael Rosenblum and Iván Díaz Journal of the Royal Statistical Society Series A, 2022, vol. 185, issue 4, 2156-2178 Abstract: The rapid finding of effective therapeutics requires efficient use of available resources in clinical trials. Covariate adjustment can yield statistical estimates with improved precision, resulting in a reduction in the number of participants required to draw futility or efficacy conclusions. We focus on time‐to‐event and ordinal outcomes. When more than a few baseline covariates are available, a key question for covariate adjustment in randomised studies is how to fit a model relating the outcome and the baseline covariates to maximise precision. We present a novel theoretical result establishing conditions for asymptotic normality of a variety of covariate‐adjusted estimators that rely on machine learning (e.g., ℓ1$$ {\ell}_1 $$‐regularisation, Random Forests, XGBoost, and Multivariate Adaptive Regression Splines [MARS]), under the assumption that outcome data are missing completely at random. We further present a consistent estimator of the asymptotic variance. Importantly, the conditions do not require the machine learning methods to converge to the true outcome distribution conditional on baseline variables, as long as they converge to some (possibly incorrect) limit. We conducted a simulation study to evaluate the performance of the aforementioned prediction methods in COVID‐19 trials. Our simulation is based on resampling longitudinal data from over 1500 patients hospitalised with COVID‐19 at Weill Cornell Medicine New York Presbyterian Hospital. We found that using ℓ1$$ {\ell}_1 $$‐regularisation led to estimators and corresponding hypothesis tests that control type 1 error and are more precise than an unadjusted estimator across all sample sizes tested. We also show that when covariates are not prognostic of the outcome, ℓ1$$ {\ell}_1 $$‐regularisation remains as precise as the unadjusted estimator, even at small sample sizes (n=100$$ n=100 $$). We give an R package adjrct that performs model‐robust covariate adjustment for ordinal and time‐to‐event outcomes. Date: 2022 Downloads: (external link) Related works: Export reference: BibTeX RIS (EndNote, ProCite, RefMan) HTML/Text Persistent link: https://EconPapers.repec.org/RePEc:bla:jorssa:v:185:y:2022:i:4:p:2156-2178 Ordering information: This journal article can be ordered from Access Statistics for this article Journal of the Royal Statistical Society Series A is currently edited by A. Chevalier and L. Sharples More articles in Journal of the Royal Statistical Society Series A from Royal Statistical Society Contact information at EDIRC. |
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