Peak expiratory flow, breath rate and blood pressure in adults with changes in particulate matter air pollution during the Beijing Olympics: A panel study

Mu, Lina; Deng, Furong; Tian, Lili; Li, Yanli; Swanson, Mya; Ying, Jingjing; Browne, Richard W.; Rittenhouse-Olson, Kate; Zhang, Junfeng Jim; Zhang, Zuo‐Feng; Bonner, Matthew R.

doi:10.1016/j.envres.2014.05.006

Cited by 58 publications

(49 citation statements)

References 49 publications

(52 reference statements)

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“…These findings are in agreement with the epidemiological evidence that air pollution attenuates lung function in children (Gauderman et al, 2007;Urman et al, 2014). In contrast, AM carbon was not associated with pulmonary function parameters in a study of adults (Nwokoro et al, 2012), which is contrary to the respiratory effects of air pollution provided by epidemiological studies (Eckel et al, 2012;Forbes et al, 2009;Mu et al, 2014). The reason of the inconsistent relationship between AM carbon and lung function in adults is, however, unknown.…”

Section: Studysupporting

confidence: 78%

Carbon loading in airway macrophages as a biomarker for individual exposure to particulate matter air pollution — A critical review

Bai

Brugha

Jacobs

et al. 2015

Environment International

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Section: Studysupporting

confidence: 78%

Carbon loading in airway macrophages as a biomarker for individual exposure to particulate matter air pollution — A critical review

Bai

Brugha

Jacobs

et al. 2015

Environment International

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“…Our results showed that the breath flow and volume parameters decreased in animals after exposure to aPM 2.5 2327, supporting the hypothesis that PM 2.5 exposure might reduce lung function. As other traditional parameters, such as P:F ratio or Sa0 2 , are important in evaluating lung function, these indications will be included in further investigation.…”

Section: Discussionsupporting

confidence: 86%

Polydatin protects the respiratory system from PM2.5 exposure

Yan

Wang

Tie

et al. 2017

Sci Rep

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Atmospheric particle is one of the risk factors for respiratory disease; however, their injury mechanisms are poorly understood, and prevention methods are highly desirable. We constructed artificial PM2.5 (aPM2.5) particles according to the size and composition of actual PM2.5 collected in Beijing. Using these artificial particles, we created an inhalation-injury animal model. These aPM2.5 particles simulate the physical and chemical characteristics of the actual PM2.5, and inhalation of the aPM2.5 in rat results in a time-dependent change in lung suggesting a declined lung function, injury from oxidative stress and inflammation in lung. Thus, this aPM2.5-caused injury animal model may mimic that of the pulmonary injury in human exposed to airborne particles. In addition, polydatin (PD), a resveratrol glucoside that is rich in grapes and red wine, was found to significantly decrease the oxidative potential (OP) of aPM2.5 in vitro. Treating the model rats with PD prevented the lung function decline caused by aPM2.5, and reduced the level of oxidative damage in aPM2.5-exposed rats. Moreover, PD inhibited aPM2.5-induced inflammation response, as evidenced by downregulation of white blood cells in bronchoalveolar lavage fluid (BALF), inflammation-related lipids and proinflammation cytokines in lung. These results provide a practical means for self-protection against particulate air pollution.

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“…53 In a panel study of children living in Beijing, Lin et al (2011) reported reductions in both air pollutant concentrations and exhaled nitric oxide levels during the Olympic Games compared to the Pre-Olympic period, with each 4.0 μg/m 3 increase in black carbon associated and 149 μg/m 3 increase in PM 2.5 concentration associated with 16.6% (95% CI = 14.1%, 19.2%) and 18.7% (95% CI = 15.0, 22.5%) reductions in eNO, respectively. 54 Further, they reported similar reductions in markers of oxidative stress during the Olympic Games (8-oxodG: −37%, 95% CI = −54%, −16%; urinary malonaldehyde: −25%, 95% CI = −34%, −15%) and similarly, decreased 9-oxodG and malonaldehyde levels associated with increased pollutant concentrations (black carbon, PM 2.5 , SO 2 , NO 2 , and CO).…”

Section: Air Pollution Reductions and Large Sporting Eventsmentioning

confidence: 99%

“…They have examined health responses to air quality actions directed at traffic pollution, 33,37,42,43 industrial emissions, 11-15,17,29 home heating fuel, 18,22 and both long term reductions in the entire air pollution mixture, 30 and short term temporary reductions ranging from 14 to 47 days. 44,50-52,54,55,59,60,62,64 They have assessed concentration changes and health responses to measured/estimated concentrations of TSP, 28,53 PM 10 , 11-15,38,53,64 PM 2.5 , 30,44,46,51,53,54,59 black carbon, 54 black smoke, 18,21,22 sulfate, 33,44,46,51 other PM size fractions, 44,46,51,53,57 PM components and ions, 44,46,51 NO 2 or NO x , 30,44,46,51,59,60,64 SO 2 , 18,21,22,28,29,33,44,46,51,60,64 CO, 44,46,51,59,60 and O 3 . 42-44,46,51,59 Further, some of these air pollutant concentration changes have been large (e.g.…”

Section: Conclusion and Lessons Learnedmentioning

confidence: 99%

“…Further, some have examined effects on mortality, 11,13-15,17,18,22,29,33,57,58 hospital/emergency room admissions or outpatient visits, 41-43,59,64 birth outcomes, 16,29,39,60 and various cardiovascular and respiratory biomarkers. 44,46,51,53,55 Some studies examined potentially susceptible populations of children and newborns. 12,14,16,28-30,32,42,54,55,60-62,64 …”

Section: Conclusion and Lessons Learnedmentioning

confidence: 99%

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Accountability studies of air pollution and health effects: lessons learned and recommendations for future natural experiment opportunities

Rich

2017

Environment International

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To address limitations of observational epidemiology studies of air pollution and health effects, including residual confounding by temporal and spatial factors, several studies have taken advantage of ‘natural experiments’, where an environmental policy or air quality intervention has resulted in reductions in ambient air pollution concentrations. Researchers have examined whether the population impacted by these air quality improvements, also experienced improvements in various health indices (e.g. reduced morbidity/mortality). In this paper, I review key accountability studies done previously and new studies done over the past several years in Beijing, Atlanta, London, Ireland, and other locations, describing study design and analysis strengths and limitations of each. As new ‘natural experiment’ opportunities arise, several lessons learned from these studies should be applied when planning a new accountability study. Comparison of health outcomes during the intervention to both before and after the intervention in the population of interest, as well as use of a control population to assess whether any temporal changes in the population of interest were also seen in populations not impacted by air quality improvements, should aid in minimizing residual confounding by these long term time trends. Use of either detailed health records for a population, or prospectively collected data on relevant mechanistic biomarkers coupled with such morbidity/mortality data may provide a more thorough assessment of if the intervention beneficially impacted the health of the community, and if so by what mechanism(s). Further, prospective measurement of a large suite of air pollutants may allow a more thorough understanding of what pollutant source(s) is/are responsible for any health benefit observed. The importance of using multiple statistical analysis methods in each paper and the difference in how the timing of the air pollution/outcome association may impact which of these design features is most important is also discussed. Based on these and other lessons learned, researchers may provide a more epidemiologically rigorous evaluation of cause-specific health impacts of an air quality intervention or action.

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Peak expiratory flow, breath rate and blood pressure in adults with changes in particulate matter air pollution during the Beijing Olympics: A panel study

Cited by 58 publications

References 49 publications

Carbon loading in airway macrophages as a biomarker for individual exposure to particulate matter air pollution — A critical review

Carbon loading in airway macrophages as a biomarker for individual exposure to particulate matter air pollution — A critical review

Polydatin protects the respiratory system from PM2.5 exposure

Accountability studies of air pollution and health effects: lessons learned and recommendations for future natural experiment opportunities

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