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Abstract
Context: Exposure to single pollutants e.g. particulate matter (PM) is associated with adverse health effects, but it does not represent a real world scenario that usually involves multiple pollutants.
Objectives: Determine if simultaneous exposure to PM and NO2 results in synergistic interactions.
Materials and methods: Healthy young volunteers were exposed to clean air, nitrogen dioxide (NO2, 0.5 ppm), concentrated fine particles from Chapel Hill air (PM2.5CAPs, 89.5 ± 10.7 µg/m3), or NO2+PM2.5CAPs for 2 h. Each subject performed intermittent exercise during the exposure. Parameters of heart rate variability (HRV), changes in repolarization, peripheral blood endpoints and lung function were measured before and 1 and 18 h after exposure. Bronchoalveolar lavage (BAL) was performed 18 h after exposure.
Results: NO2 exposure alone increased cholesterol and HDL 18 h after exposure, decreased high frequency component of HRV one and 18 h after exposure, decreased QT variability index 1 h after exposure, and increased LDH in BAL fluid. The only significant change with PM2.5CAPs was an increase in HDL 1 h after exposure, likely due to the low concentrations of PM2.5CAPs in the exposure chamber. Exposure to both NO2 and PM2.5CAPs increased BAL α1-antitrypsin, mean t wave amplitude, the low frequency components of HRV and the LF/HF ratio. These changes were not observed following exposure to NO2 or PM2.5CAPs alone, suggesting possible interactions between the two pollutants.
Discussion and conclusions: NO2 exposure may produce and enhance acute cardiovascular effects of PM2.5CAPs. Assessment of health effects by ambient PM should consider its interactions with gaseous copollutants.
Acknowledgements
The authors are indebted to Ms. Maryann Bassett, Ms. Jacqueline Carter, Ms. Lisa Dailey, Ms. Shirley Harder, Ms. Heidi Hiers, Ms. Tracey Montilla, Mr. Michael Schmitt, Mr. Robert Silbajoris, and Ms. Joleen Soukup for their expert medical and technical assistance in the execution of this study.
Declaration of interest
The research described in this article was funded by the intramural grants of U.S. EPA and has been reviewed and approved for publication by the U.S. EPA National Health Effects and Environmental Research Laboratory. Approval does not signify that the contents necessarily reflect the views and policies of the U.S. EPA, nor does mention of the trade names or commercial products constitute endorsement or recommendation for use. The authors declare they have no competing financial interests relevant to the study.
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