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Abstract:
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We will present methods for causal inference incorporating model uncertainty to estimate the health benefits of compliance with the NAAQS standard for PM2.5 (12 ug/m3). By linking data from Medicare claims, the Medicare Current Beneficiaries Survey (MCBS), remote sensing data, monitor level pollution data, and others, we created a retrospective study of 68,789 interviews, spanning 5138 zip codes. This study has an unprecedented number of confounders and high accuracy in the spatial resolution of PM2.5 exposure over a large time and geographical span. We assigned to every individual a binary zip code level exposure denoting levels higher and lower than 12 ug/m3. We considered the following outcomes: death, all-cause hospitalization, hospitalization for circulatory diseases, and hospitalization for respiratory diseases within a year of the patients' MCBS interview. To adjust for measured confounding we gathered information on more than 100 individual level confounders capturing smoking, body mass index, behavioral and socio-economic factors. We will develop methods for causal inference to adjust for this high dimensional set of potential confounders in a marginal structural model.
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