Relationships among personal, indoor, and outdoor fine and coarse particle concentrations for individuals with COPD

Rojas-Bracho, Leonora; Suh, Helen; Koutrakis, Petros

doi:10.1038/sj.jea.7500092

Cited by 150 publications

(99 citation statements)

References 23 publications

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“…Recently, personal exposure monitors (henceforth called personal monitors) have been used in some air pollution studies to get a better idea of how ambient pollution concentrations relate to personal breathing zone exposures (Janssen et al, 1997(Janssen et al, , 1998(Janssen et al, , 1999Ebelt et al, 2000;Rojas-Bracho et al, 2000;Williams et al, 2000;Liu et al, 2003). Some have argued that moderate to strong correlations between (average) personal 1.…”

Section: Introductionmentioning

confidence: 99%

Estimating effects of ambient PM2.5 exposure on health using PM2.5 component measurements and regression calibration

Strand

Vedal

Rodes

et al. 2005

J Expo Sci Environ Epidemiol

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Most air pollution and health studies conducted in recent years have examined how a health outcome is related to pollution concentrations from a fixed outdoor monitor. The pollutant effect estimate in the health model used indicates how ambient pollution concentrations are associated with the health outcome, but not how actual exposure to ambient pollution is related to health. In this article, we propose a method of estimating personal exposures to ambient PM 2.5 (particulate matter less than 2.5 mm in diameter) using sulfate, a component of PM 2.5 that is derived primarily from ambient sources. We demonstrate how to use regression calibration in conjunction with these derived values to estimate the effects of personal ambient PM 2.5 exposure on a continuous health outcome, forced expiratory volume in 1 s (FEV 1 ), using repeated measures data. Through simulation, we show that a confidence interval (CI) for the calibrated estimator based on large sample theory methods has an appropriate coverage rate. In an application using data from our health study involving children with moderate to severe asthma, we found that a 10 mg/m 3 increase in PM 2.5 was associated with a 2.2% decrease in FEV 1 at a 1-day lag of the pollutant (95% CI: 0.0-4.3% decrease). Regressing FEV 1 directly on ambient PM 2.5 concentrations from a fixed monitor yielded a much weaker estimate of 1.0% (95% CI: 0.0-2.0% decrease). Relatively small amounts of personal monitor data were needed to calibrate the estimate based on fixed outdoor concentrations.

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Section: Introductionmentioning

confidence: 99%

Estimating effects of ambient PM2.5 exposure on health using PM2.5 component measurements and regression calibration

Strand

Vedal

Rodes

et al. 2005

J Expo Sci Environ Epidemiol

View full text Add to dashboard Cite

show abstract

“…In Boston (Rojas-Bracho et al, 2000, 2004 more time was spent indoors in winter (91%) than in summer (84%) and more time was spent outdoors in summer (7%), than in winter (o1%). Time spent cleaning, especially vacuuming and cooking, affected personal particulate exposures and so these were examined within our larger data set as well.…”

Section: Discussionmentioning

confidence: 99%

“…The data from these panel studies shows that time indoors at home ranged from 70% (Rojas-Bracho et al, 2000) to 92% (Ebelt et al, 2000). In Boston (Rojas-Bracho et al, 2000, 2004 more time was spent indoors in winter (91%) than in summer (84%) and more time was spent outdoors in summer (7%), than in winter (o1%).…”

Section: Discussionmentioning

confidence: 99%

“…There are several panel studies examining time-activity data in smaller groups of COPD patients (samples of 12-34 subjects) in relationship to personal particulate exposure measurements (Rojas-Bracho et al, 2000, 2004Sarnat et al, 2000;Allen et al, 2003;Liu et al, 2003). Timeactivity data in these studies usually examined 12 h daytime time-activity diaries, often self-administered, and in conjunction with particulate exposures of which the subjects were aware.…”

Section: Discussionmentioning

confidence: 99%

“…In personal particulate exposure studies, small panels of COPD patients wearing monitors have also kept timeactivity data logs (Ebelt et al, 2000;Rojas-Bracho et al, 2000, 2004Sarnat et al, 2000;Allen et al, 2003;Liu et al, 2003) but subjects were aware of particulate exposure questions, wore the added weight of the samplers and only nonsmokers could be studied.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Exposure time and place: Do COPD patients differ from the general population?

Leech

Smith‐Doiron

2005

J Expo Sci Environ Epidemiol

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Time-activity patterns in a panel of 70 patients with COPD (35 males) are compared to an age-matched subgroup from the randomly sampled Canadian Human Activity Pattern Survey. Total time indoors and outdoors were similar in both groups but significantly more indoor time in COPD subjects was spent at home than the indoor time of controls, who were more often indoors elsewhere. As part of improving their indoor air at home, COPD subjects were significantly more likely to have air conditioning at home. These results suggest that while outdoor air exposure strategies need not differ in COPD subjects from normals, indoor mitigation strategies should emphasize source pollutant control in the patient's home.

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Assessment of Exposure to Airborne Particles

Singh

Sioutas

2003

Indoor Environment

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Relationships among personal, indoor, and outdoor fine and coarse particle concentrations for individuals with COPD

Cited by 150 publications

References 23 publications

Estimating effects of ambient PM2.5 exposure on health using PM2.5 component measurements and regression calibration

Estimating effects of ambient PM2.5 exposure on health using PM2.5 component measurements and regression calibration

Exposure time and place: Do COPD patients differ from the general population?

Assessment of Exposure to Airborne Particles

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