Title: Best Practices for Gauging Evidence of Causality in Air Pollution Epidemiology.

Authors: Dominici, Francesca; Zigler, Corwin

Published In Am J Epidemiol, (2017 Dec 15)

Abstract: The contentious political climate surrounding air pollution regulations has brought some researchers and policy-makers to argue that evidence of causality is necessary before implementing more stringent regulations. Recently, investigators in an increasing number of air pollution studies have purported to have used "causal analysis," generating the impression that studies not explicitly labeled as such are merely "associational" and therefore less rigorous. Using 3 prominent air pollution studies as examples, we review good practices for how to critically evaluate the extent to which an air pollution study provides evidence of causality. We argue that evidence of causality should be gauged by a critical evaluation of design decisions such as 1) what actions or exposure levels are being compared, 2) whether an adequate comparison group was constructed, and 3) how closely these design decisions approximate an idealized randomized study. We argue that air pollution studies that are more scientifically rigorous in terms of the decisions made to approximate a randomized experiment are more likely to provide evidence of causality and should be prioritized among the body of evidence for regulatory review accordingly. Our considerations, although presented in the context of air pollution epidemiology, can be broadly applied to other fields of epidemiology.

PubMed ID: 29020141

MeSH Terms: Air Pollutants/adverse effects*; Air Pollutants/analysis; Air Pollution/adverse effects*; Air Pollution/analysis; Causality*; Confounding Factors, Epidemiologic; Environmental Exposure/adverse effects*; Environmental Exposure/analysis; Environmental Monitoring/methods; Evidence-Based Practice/organization & administration*; Humans; Models, Theoretical; Politics; Research Design*