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Title: Bayesian G-Computation for Estimating Impacts of Interventions on Exposure Mixtures: Demonstration With Metals From Coal-Fired Power Plants and Birth Weight.

Authors: Keil, Alexander P; Buckley, Jessie P; Kalkbrenner, Amy E

Published In Am J Epidemiol, (2021 12 01)

Abstract: The importance of studying the health impacts of exposure mixtures is increasingly being recognized, but such research presents many methodological and interpretation difficulties. We used Bayesian g-computation to estimate effects of a simulated public health action on exposure mixtures and birth weights in Milwaukee, Wisconsin, in 2011-2013. We linked data from birth records with census-tract-level air toxics data from the Environmental Protection Agency's National Air Toxics Assessment model. We estimated the difference between observed and expected birth weights that theoretically would have followed a hypothetical intervention to reduce exposure to 6 airborne metals by decommissioning 3 coal-fired power plants in Milwaukee County prior to 2010. Using Bayesian g-computation, we estimated a 68-g (95% credible interval: 25, 135) increase in birth weight following this hypothetical intervention. This example demonstrates the utility of our approach for using observational data to evaluate and contrast possible public health actions. Additionally, Bayesian g-computation offers a flexible strategy for estimating the effects of highly correlated exposures, addressing statistical issues such as variance inflation, and addressing conceptual issues such as the lack of interpretability of independent effects.

PubMed ID: 33751055 Exiting the NIEHS site

MeSH Terms: Air Pollutants/analysis*; Air Pollution/analysis*; Bayes Theorem; Birth Weight*; Coal; Environmental Exposure; Humans; Metals/analysis*; Power Plants*; Premature Birth/epidemiology; Socioeconomic Factors; Wisconsin/epidemiology

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Last Reviewed: October 02, 2024