The dataset contains data of air pollution, blood lipids, vascular injury markers, coagulation markers, and heart rate variability and repolarization markers. This dataset is associated with the following publication: Chen, H., S. Zhang, W. Shen, C. Salazar, A. Schneider, A. Rappold, D. Diazsanchez, R. Devlin, J. Samet, and H. Tong. Omega-3 Fatty Acids Attenuate Cardiovascular Effects of Short-term Exposure to Ambient Air Pollution. Particle and Fibre Toxicology. BioMed Central Ltd, London, UK, 19(12): 1, (2022).

Background: Adverse cardiovascular events have been linked with PM2.5 exposure obtained primarily from air quality monitors, which rarely co-locate with participant residences. Modeled PM2.5 predictions at finer resolution may more accurately predict residential exposure; however few studies have compared results across different exposure assessment methods. Methods: We utilized a cohort of 5679 patients who had undergone a cardiac catheterization between 2002–2009 and resided in NC. Exposure to PM2.5 for the year prior to catheterization was estimated using data from air quality monitors (AQS), Community Multiscale Air Quality (CMAQ) fused models at the census tract and 12 km spatial resolutions, and satellite-based models at 10 km and 1 km resolutions. Case status was either a coronary artery disease (CAD) index>23 or a recent myocardial infarction (MI). Logistic regression was used to model odds of having CAD or an MI with each 1-unit (μg/m3) increase in PM2.5, adjusting for sex, race, smoking status, socioeconomic status, and urban/rural status. Results: We found that the elevated odds for CAD>23 and MI were nearly equivalent for all exposure assessment methods. One difference was that data from AQS and the census tract CMAQ showed a rural/urban difference in relative risk, which was not apparent with the satellite or 12 km-CMAQ models. Conclusions: Long-term air pollution exposure was associated with coronary artery disease for both modeled and monitored data. This dataset is not publicly accessible because: EPA cannot release personally identifiable information regarding living individuals, according to the Privacy Act and the Freedom of Information Act (FOIA). This dataset contains information about human research subjects. Because there is potential to identify individual participants and disclose personal information, either alone or in combination with other datasets, individual level data are not appropriate to post for public access. Restricted access may be granted to authorized persons by contacting the party listed. It can be accessed through the following means: Clinical data are located in: C:\Users\rdevlin\OneDrive - Environmental Protection Agency (EPA)\Excel Files\Cathgen Satellite data are located in : C:\Users\rdevlin\OneDrive - Environmental Protection Agency (EPA)\Excel Files\New Ikm Satellite Data C:\Users\rdevlin\OneDrive - Environmental Protection Agency (EPA)\Excel Files\Satellite Data CMAQ data are located in C:\Users\rdevlin\OneDrive - Environmental Protection Agency (EPA)\Excel Files\CMAQ Data. Format: There are two types of datasets used in this study: clinical data taken from patient records at the Duke Medical Center; and air pollution data (PM2.5) taken from a federal reference monitor located in Raleigh, CMAQ data obtained from collaborators at Georgia Tech and NERL/ORD, and satellite data obtained from collaborators at Harvard. Metadata are in the form of Excel spreadsheets that contain columns of data that specify clinical and exposure information for each individual participating in the study. This dataset is associated with the following publication: McGuinn, L., C. Ward-Caviness, A. Schneider, Q. Di, A. Chudnovsky, J. Schwartz, P. Koutrakis, A. Russell, V. Garcia, W. Krause, E. Hauser, L. Neas, W. Cascio, D. Diaz-Sanchez, and R. Devlin. Fine Particulate Matter and Cardiovascular Disease: Comparison of Assessment Methods for Long-term Exposure. ENVIRONMENTAL RESEARCH. Academic Press Incorporated, Orlando, FL, USA, 159: 16-23, (2017).

This dataset contains data in lung function, blood lipid markers, blood vascular markers, coagulation markers, and heart rate variability markers in participants of a panel study named PISCES. The dataset also contains ambient air pollutant data during the study period. This dataset is associated with the following publication: Chen, H., S. Zhang, W. Shen, C. Salazar, A. Schneider, L. Wyatt, A. Rappold, D. Diazsanchez, R. Devlin, J. Samet, and H. Tong. The influence of dietary intake of omega‑3 polyunsaturated fatty acids on the association between short‑term exposure to ambient nitrogen dioxide and respiratory and cardiovascular outcomes among healthy adults. ENVIRONMENTAL HEALTH. Academic Press Incorporated, Orlando, FL, USA, 20(123): 1, (2021).

The data consists of a series of tables containing individual identifiers; countrywide high-resolution (1 km × 1 km) modeled PM2.5 from a model built by Harvard collaborators; daily concentrations of relative humidity (RH) and temperature; and troponin I measurements. This dataset is not publicly accessible because: EPA cannot release personally identifiable information regarding living individuals, according to the Privacy Act and the Freedom of Information Act (FOIA). This dataset contains information about human research subjects. Because there is potential to identify individual participants and disclose personal information, either alone or in combination with other datasets, individual level data are not appropriate to post for public access. Restricted access may be granted to authorized persons by contacting the party listed. It can be accessed through the following means: Data can be accessed with an approved IRB. Format: The data consists of a series of tables containing individual identifiers; countrywide high-resolution (1 km × 1 km) modeled PM2.5 from a model built by Harvard collaborators; daily concentrations of relative humidity (RH) and temperature; and troponin I measurements. This dataset is associated with the following publication: Wyatt, L., G. Kamat, J. Moyer, A. Weaver, D. Diazsanchez, R. Devlin, Q. Di, J. Schwartz, W. Cascio, and C. Ward-Caviness. Associations between short-term exposure to PM2.5 and cardiomyocyte injury in myocardial infarction survivors in North Carolina. Open Heart. BMJ Publishing Group Ltd, London, UK, 9: e001891, (2022).

Cardiovascular Physiologic and Systemic Responses to Sequential Exposure to Nitrogen Dioxide and Ozone in Rats. This dataset is associated with the following publication: Farraj , A., F. Malik, N. Coates , L. Walsh , D. Winsett , D. Terrell , L. Thompson, W. Cascio , and M. Hazari. Morning NO2 Exposure Sensitizes Hypertensive Rats to the Cardiovascular Effects of Same Day O3 Exposure in the Afternoon. INHALATION TOXICOLOGY. Informa Healthcare USA, New York, NY, USA, 28(4): 170-179, (2016).

County-level annual cardiovascular mortality rates and annual average PM2.5 concentrations, 2132 U.S. counties, 1990-2010. Included national emissions by sectors and county-level confounders (annual COPD mortality rates, percent non-white population, and median income). This dataset is associated with the following publication: Peterson, G., C. Hogrefe, L. Neas, A. Corrigan, R. Mathur, and A. Rappold. Impacts of Reductions in Emissions from Major Source Sectors on Fine Particulate Matter-Related Cardiovascular Mortality. ENVIRONMENTAL HEALTH PERSPECTIVES. National Institute of Environmental Health Sciences (NIEHS), Research Triangle Park, NC, USA, 128(1): 17005, (2020).

Dataset includes CMAQv5.3.1 code used for emission reduction simulations and output from CMAQ for each pollutant at the county level.