Abstract

Population-based epidemiologic studies of communities in the United States have revealed a consistent association between ambient particulate air pollution and increases in morbidity and mortality. The observed increases result from both respiratory and cardiovascular diseases. Similar associations have been observed for rates of hospital admissions for respiratory and cardiovascular diseases for subjects over age 65. Results from the first phase of this study (ES R01 09860) showed significant cardiac and airway changes after both environmental and occupational particulate exposures. The objective of this application is to investigate the role of both occupational and non-occupational exposure to particulates in the development of respiratory and cardiac responses in boilermakers. We will employ a detailed, continuous exposure assessment to PM2.5 with and PM1.0 with repeated measures of biologic and physiologic markers of response. In addition, we will employ novel techniques for the assessment of particulate-induced physiologic responses, including gene expression using mRNA microarrays. Hypotheses to be addressed in this established cohort of boilermakers include: (1) Short-term exposure to particulates from occupational, ambient, and indoor exposures results in airway inflammation and obstruction measured by serial expired NO and FEV1; (2) Chronic exposures to particulates result in long-term decreases in expired NO and FEV1; (3) Exposure to particulates results in acute changes in cardiovascular function measured as heart-rate variability, heart-rate, and blood pressure; (4) Exposure to particulates results in increased acute phase reactant (c-reactive protein, fibrinogen) concentration in the serum; (5) Exposure to particulates induces systemic responses resulting in alterations in white blood cell gene expression assessed by mRNA microarray analysis pre- and post-exposure; (6) Common chronic medical conditions such as hypertension, COPD, and asthma predispose particulate-exposed individuals to changes in cardiac function (heart rate, heart rate variability, and blood pressure). The results of this work will have important implications for preventive efforts aimed at reducing particle-associated morbidity and mortality. ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Environmental Health Sciences (NIEHS)
Type
Research Project (R01)
Project #
5R01ES009860-06
Application #
6877753
Study Section
Special Emphasis Panel (ZRG1-EDC-3 (01))
Program Officer
Gray, Kimberly A
Project Start
2003-07-01
Project End
2007-03-31
Budget Start
2005-04-01
Budget End
2006-03-31
Support Year
6
Fiscal Year
2005
Total Cost
$382,594
Indirect Cost

  Institution

Name
Harvard University
Department
Public Health & Prev Medicine
Type
Schools of Public Health
DUNS #
149617367
City
Boston
State
MA
Country
United States
Zip Code
02115

  Publications

Shen, Sipeng; Zhang, Ruyang; Zhang, Jinming et al. (2018) Welding fume exposure is associated with inflammation: a global metabolomics profiling study. Environ Health 17:68
Umukoro, Peter E; Fan, Tianteng; Zhang, Jinming et al. (2016) Long-Term Metal PM2.5 Exposures Decrease Cardiac Acceleration and Deceleration Capacities in Welders. J Occup Environ Med 58:227-31
Umukoro, Peter E; Cavallari, Jennifer M; Fang, Shona C et al. (2016) Short-term metal particulate exposures decrease cardiac acceleration and deceleration capacities in welders: a repeated-measures panel study. Occup Environ Med 73:91-6
Cavallari, Jennifer M; Fang, Shona C; Eisen, Ellen A et al. (2016) Environmental and occupational particulate matter exposures and ectopic heart beats in welders. Occup Environ Med 73:435-41
Umukoro, Peter E; Wong, Jason Y Y; Cavallari, Jennifer M et al. (2016) Are the Associations of Cardiac Acceleration and Deceleration Capacities With Fine Metal Particulate in Welders Mediated by Inflammation? J Occup Environ Med 58:232-7
Wong, Jason Y Y (2015) To the Editor. J Occup Environ Med 57:e83-4
Wong, Jason Y Y; Fang, Shona C; Grashow, Rachel et al. (2015) The relationship between occupational metal exposure and arterial compliance. J Occup Environ Med 57:355-60
Ahasic, Amy M; Tejera, Paula; Wei, Yongyue et al. (2015) Predictors of Circulating Insulin-Like Growth Factor-1 and Insulin-Like Growth Factor-Binding Protein-3 in Critical Illness. Crit Care Med 43:2651-9
Grashow, Rachel; Zhang, Jinming; Fang, Shona C et al. (2014) Inverse association between toenail arsenic and body mass index in a population of welders. Environ Res 131:131-3
Wong, Jason Y Y; De Vivo, Immaculata; Lin, Xihong et al. (2014) Cumulative PM(2.5) exposure and telomere length in workers exposed to welding fumes. J Toxicol Environ Health A 77:441-55

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