Covariate-constrained randomization with cluster selection and substitution

Amy M Crisp; Elizabeth M Halloran; Ira M Longini; Gonzalo Vazquez-Prokopec; Natalie Dean

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Amy Crisp, University of Florida College of Medicine, Jacksonville, FL, USA. Email: amy.crisp@jax.ufl.edu

This work is funded by the National Institutes of Health and the National Institute of Allergy and Infectious Diseases (U01-AI148069). The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. The authors would also like to thank the entire TIRS Trial team.

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Keywords:

Science & Technology
Life Sciences & Biomedicine
Medicine, Research & Experimental
Research & Experimental Medicine
Clinical trial design
cluster-randomized
constrained randomization
BALANCE

Covariate-constrained randomization with cluster selection and substitution

Amy M Crisp, University of Florida, Gainesville

Elizabeth M Halloran, University of Washington, Seattle

Ira M Longini, University of Florida, Gainesville

Gonzalo Vazquez-Prokopec, Emory University

Natalie Dean, Emory University

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Journal Title:

CLINICAL TRIALS

Volume:

Volume 20, Number 3

Publisher:

SAGE PUBLICATIONS LTD | 2023-03-17, Pages 284-292

Type of Work:

Article | Post-print: After Peer Review

Permanent URL:

https://pid.emory.edu/ark:/25593/w7cx7

Publisher DOI:

http://doi.org/10.1177/17407745231160556

Abstract:

Background: An ongoing cluster-randomized trial for the prevention of arboviral diseases utilizes covariate-constrained randomization to balance two treatment arms across four specified covariates and geographic sector. Each cluster is within a census tract of the city of Mérida, Mexico, and there were 133 eligible tracts from which to select 50. As some selected clusters may have been subsequently found unsuitable in the field, we desired a strategy to substitute new clusters while maintaining covariate balance. Methods: We developed an algorithm that successfully identified a subset of clusters that maximized the average minimum pairwise distance between clusters in order to reduce contamination and balanced the specified covariates both before and after substitutions were made. Simulations: Simulations were performed to explore some limitations of this algorithm. The number of selected clusters and eligible clusters were varied along with the method of selecting the final allocation pattern. Conclusion: The algorithm is presented here as a series of optional steps that can be added to the standard covariate-constrained randomization process in order to achieve spatial dispersion, cluster subsampling, and cluster substitution. Simulation results indicate that these extensions can be used without loss of statistical validity, given a sufficient number of clusters included in the trial.

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Covariate-constrained randomization with cluster selection and substitution

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