Litcius/Paper detail

Causal inference in the absence of positivity: The role of overlap weights

Roland Matsouaka, Yunji Zhou

2024Biometrical Journal14 citationsDOI

Abstract

How to analyze data when there is violation of the positivity assumption? Several possible solutions exist in the literature. In this paper, we consider propensity score (PS) methods that are commonly used in observational studies to assess causal treatment effects in the context where the positivity assumption is violated. We focus on and examine four specific alternative solutions to the inverse probability weighting (IPW) trimming and truncation: matching weight (MW), Shannon's entropy weight (EW), overlap weight (OW), and beta weight (BW) estimators. We first specify their target population, the population of patients for whom clinical equipoise, that is, where we have sufficient PS overlap. Then, we establish the nexus among the different corresponding weights (and estimators); this allows us to highlight the shared properties and theoretical implications of these estimators. Finally, we introduce their augmented estimators that take advantage of estimating both the propensity score and outcome regression models to enhance the treatment effect estimators in terms of bias and efficiency. We also elucidate the role of the OW estimator as the flagship of all these methods that target the overlap population. Our analytic results demonstrate that OW, MW, and EW are preferable to IPW and some cases of BW when there is a moderate or extreme (stochastic or structural) violation of the positivity assumption. We then evaluate, compare, and confirm the finite-sample performance of the aforementioned estimators via Monte Carlo simulations. Finally, we illustrate these methods using two real-world data examples marked by violations of the positivity assumption.

Topics & Concepts

EstimatorCausal inferencePropensity score matchingMathematicsInverse probability weightingInverse probabilityWeightingPopulationStatisticsEconometricsAverage treatment effectContext (archaeology)Bayesian probabilityMedicinePaleontologyRadiologyEnvironmental healthBiologyPosterior probabilityAdvanced Causal Inference TechniquesStatistical Methods and InferenceHealth Systems, Economic Evaluations, Quality of Life