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Discovering Heterogeneous Exposure Effects Using Randomization Inference in Air Pollution Studies

Kwonsang Lee, Dylan S. Small, Francesca Dominici

2021Journal of the American Statistical Association15 citationsDOIOpen Access PDF

Abstract

Several studies have provided strong evidence that long-term exposure to air pollution, even at low levels, increases risk of mortality. As regulatory actions are becoming prohibitively expensive, robust evidence to guide the development of targeted interventions to protect the most vulnerable is needed. In this article, we introduce a novel statistical method that (i) discovers subgroups whose effects substantially differ from the population mean, and (ii) uses randomization-based tests to assess discovered heterogeneous effects. Also, we develop a sensitivity analysis method to assess the robustness of the conclusions to unmeasured confounding bias. Via simulation studies and theoretical arguments, we demonstrate that hypothesis testing focusing on the discovered subgroups can substantially increase statistical power to detect heterogeneity of the exposure effects. We apply the proposed de novo method to the data of 1,612,414 Medicare beneficiaries in the New England region in the United States for the period 2000–2006. We find that seniors aged between 81 and 85 with low income and seniors aged 85 and above have statistically significant greater causal effects of long-term exposure to PM2.5 on 5-year mortality rate compared to the population mean.

Topics & Concepts

ConfoundingCausal inferenceRobustness (evolution)EconometricsRandomizationInferenceStatistical powerStatistical inferencePsychological interventionStatisticsMedicineSample size determinationPopulationDemographyStatistical hypothesis testingEnvironmental healthRandomized controlled trialComputer scienceMathematicsInternal medicineGeneArtificial intelligenceSociologyPsychiatryChemistryBiochemistryAir Quality and Health ImpactsEnergy and Environment ImpactsGlobal Health Care Issues
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