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Personal Exposure to PM2.5 Oxidative Potential in Association with Pulmonary Pathophysiologic Outcomes in Children with Asthma.

Publication ,  Journal Article
He, L; Norris, C; Cui, X; Li, Z; Barkjohn, KK; Brehmer, C; Teng, Y; Fang, L; Lin, L; Wang, Q; Zhou, X; Hong, J; Li, F; Zhang, Y; Black, M ...
Published in: Environmental science & technology
March 2021

Fine particulate matter (PM2.5) with a higher oxidative potential has been thought to be more detrimental to pulmonary health. We aim to investigate the associations between personal exposure to PM2.5 oxidative potential and pulmonary outcomes in asthmatic children. We measured each of the 43 asthmatic children 4 times for airway mechanics, lung function, airway inflammation, and asthma symptom scores. Coupling measured indoor and outdoor concentrations of PM2.5 mass, constituents, and oxidative potential with individual time-activity data, we calculated 24 h average personal exposures 0-3 days prior to a health outcome measurement. We found that increases in daily personal exposure to PM2.5 oxidative potential were significantly associated with increased small, large, and total airway resistance, increased airway impedance, decreased lung function, and worsened scores of individual asthma symptoms and the total symptom score. Among the PM2.5 constituents, organic matters largely of indoor origin contributed the greatest to PM2.5 oxidative potential. Given that the variability in PM2.5 oxidative potential was a stronger driver than PM2.5 mass for the variability in the respiratory health outcomes, it is suggested to reduce PM2.5 oxidative potential, particularly by reducing the organic matter constituent of indoor PM2.5, as a targeted source control strategy in asthma management.

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Published In

Environmental science & technology

DOI

EISSN

1520-5851

ISSN

0013-936X

Publication Date

March 2021

Volume

55

Issue

5

Start / End Page

3101 / 3111

Related Subject Headings

  • Particulate Matter
  • Oxidative Stress
  • Humans
  • Environmental Sciences
  • Environmental Monitoring
  • Environmental Exposure
  • Child
  • Asthma
  • Air Pollution, Indoor
  • Air Pollutants
 

Citation

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He, L., Norris, C., Cui, X., Li, Z., Barkjohn, K. K., Brehmer, C., … Zhang, J. J. (2021). Personal Exposure to PM2.5 Oxidative Potential in Association with Pulmonary Pathophysiologic Outcomes in Children with Asthma. Environmental Science & Technology, 55(5), 3101–3111. https://doi.org/10.1021/acs.est.0c06114
He, Linchen, Christina Norris, Xiaoxing Cui, Zhen Li, Karoline K. Barkjohn, Collin Brehmer, Yanbo Teng, et al. “Personal Exposure to PM2.5 Oxidative Potential in Association with Pulmonary Pathophysiologic Outcomes in Children with Asthma.Environmental Science & Technology 55, no. 5 (March 2021): 3101–11. https://doi.org/10.1021/acs.est.0c06114.
He L, Norris C, Cui X, Li Z, Barkjohn KK, Brehmer C, et al. Personal Exposure to PM2.5 Oxidative Potential in Association with Pulmonary Pathophysiologic Outcomes in Children with Asthma. Environmental science & technology. 2021 Mar;55(5):3101–11.
He, Linchen, et al. “Personal Exposure to PM2.5 Oxidative Potential in Association with Pulmonary Pathophysiologic Outcomes in Children with Asthma.Environmental Science & Technology, vol. 55, no. 5, Mar. 2021, pp. 3101–11. Epmc, doi:10.1021/acs.est.0c06114.
He L, Norris C, Cui X, Li Z, Barkjohn KK, Brehmer C, Teng Y, Fang L, Lin L, Wang Q, Zhou X, Hong J, Li F, Zhang Y, Schauer JJ, Black M, Bergin MH, Zhang JJ. Personal Exposure to PM2.5 Oxidative Potential in Association with Pulmonary Pathophysiologic Outcomes in Children with Asthma. Environmental science & technology. 2021 Mar;55(5):3101–3111.
Journal cover image

Published In

Environmental science & technology

DOI

EISSN

1520-5851

ISSN

0013-936X

Publication Date

March 2021

Volume

55

Issue

5

Start / End Page

3101 / 3111

Related Subject Headings

  • Particulate Matter
  • Oxidative Stress
  • Humans
  • Environmental Sciences
  • Environmental Monitoring
  • Environmental Exposure
  • Child
  • Asthma
  • Air Pollution, Indoor
  • Air Pollutants