Study Designs for Extending Causal Inferences From a Randomized Trial to a Target Population

Authors

Issa J. Dahabreh
J.P.A. Haneuse
James M. Robins
Sarah E. Robertson
Ashley L. Buchanan
Elizabeth A. Stuart
Miguel A. Hernán

Document Type

Article

Date of Original Version

8-1-2021

Abstract

In this article, we examine study designs for extending (generalizing or transporting) causal inferences from a randomized trial to a target population. Specifically, we consider nested trial designs, where randomized individuals are nested within a sample from the target population, and nonnested trial designs, including composite data-set designs, where observations from a randomized trial are combined with those from a separately obtained sample of nonrandomized individuals from the target population. We show that the counterfactual quantities that can be identified in each study design depend on what is known about the probability of sampling nonrandomized individuals. For each study design, we examine identification of counterfactual outcome means via the g-formula and inverse probability weighting. Last, we explore the implications of the sampling properties underlying the designs for the identification and estimation of the probability of trial participation.

Publication Title, e.g., Journal

American journal of epidemiology

Volume

190

Issue

8

Citation/Publisher Attribution

Dahabreh, Issa J., J. Haneuse, James M. Robins, Sarah E. Robertson, Ashley L. Buchanan, Elizabeth A. Stuart, and Miguel A. Hernán. "Study Designs for Extending Causal Inferences From a Randomized Trial to a Target Population." American journal of epidemiology 190, 8 (2021): 1632-1642. doi: 10.1093/aje/kwaa270.