A cross-sectional study of determinants of indoor environmental exposures in households with and without chronic exposure to biomass fuel smoke

Suzanne Pollard; D'ann L. Williams; Patrick N. Breysse; Patrick A. Baron; Laura M. Grajeda; Robert H. Gilman; J. Jaime Miranda; William Checkley

doi:10.1186/1476-069X-13-21

A cross-sectional study of determinants of indoor environmental exposures in households with and without chronic exposure to biomass fuel smoke

Suzanne Pollard, D'ann L. Williams, Patrick N. Breysse, Patrick A. Baron, Laura M. Grajeda, Robert H. Gilman, J. Jaime Miranda, William Checkley

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

Background: Burning biomass fuels indoors for cooking is associated with high concentrations of particulate matter (PM) and carbon monoxide (CO). More efficient biomass-burning stoves and chimneys for ventilation have been proposed as solutions to reduce indoor pollution. We sought to quantify indoor PM and CO exposures in urban and rural households and determine factors associated with higher exposures. A secondary objective was to identify chronic vs. acute changes in cardiopulmonary biomarkers associated with exposure to biomass smoke. Methods: We conducted a census survey followed by a cross-sectional study of indoor environmental exposures and cardiopulmonary biomarkers in the main household cook in Puno, Peru. We measured 24-hour indoor PM and CO concentrations in 86 households. We also measured PM_2.5 and PM₁₀ concentrations gravimetrically for 24 hours in urban households and during cook times in rural households, and generated a calibration equation using PM_2.5 measurements. Results: In a census of 4903 households, 93% vs. 16% of rural vs. urban households used an open-fire stove; 22% of rural households had a homemade chimney; and <3% of rural households participated in a national program encouraging installation of a chimney. Median 24-hour indoor PM_2.5 and CO concentrations were 130 vs. 22 μg/m³ and 5.8 vs. 0.4 ppm (all p<0.001) in rural vs. urban households. Having a chimney did not significantly reduce median concentrations in 24-hour indoor PM_2.5 (119 vs. 137 μg/m³; p=0.40) or CO (4.6 vs. 7.2 ppm; p=0.23) among rural households with and without chimneys. Having a chimney did not significantly reduce median cook-Time PM_2.5 (360 vs. 298 μg/m³, p=0.45) or cook-Time CO concentrations (15.2 vs. 9.4 ppm, p=0.23). Having a thatched roof (p=0.007) and hours spent cooking (p=0.02) were associated with higher 24-hour average PM concentrations. Rural participants had higher median exhaled CO (10 vs. 6 ppm; p=0.01) and exhaled carboxyhemoglobin (1.6% vs. 1.0%; p=0.04) than urban participants. Conclusions: Indoor air concentrations associated with biomass smoke were six-fold greater in rural vs. urban households. Having a homemade chimney did not reduce environmental exposures significantly. Measures of exhaled CO provide useful cardiopulmonary biomarkers for chronic exposure to biomass smoke.

Original language	English (US)
Article number	21
Journal	Environmental Health: A Global Access Science Source
Volume	13
Issue number	1
DOIs	https://doi.org/10.1186/1476-069X-13-21
State	Published - 2014

Keywords

Biomarkers
Biomass fuel
Biomass smoke
Cookstoves
Environmental exposure
Exhaled carbon monoxide

ASJC Scopus subject areas

Public Health, Environmental and Occupational Health
Health, Toxicology and Mutagenesis

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10.1186/1476-069X-13-21

Cite this

Pollard, S., Williams, D. L., Breysse, P. N., Baron, P. A., Grajeda, L. M., Gilman, R. H., Jaime Miranda, J., & Checkley, W. (2014). A cross-sectional study of determinants of indoor environmental exposures in households with and without chronic exposure to biomass fuel smoke. Environmental Health: A Global Access Science Source, 13(1), Article 21. https://doi.org/10.1186/1476-069X-13-21

Pollard, S, Williams, DL , Breysse, PN, Baron, PA, Grajeda, LM, Gilman, RH, Jaime Miranda, J & Checkley, W 2014, 'A cross-sectional study of determinants of indoor environmental exposures in households with and without chronic exposure to biomass fuel smoke', Environmental Health: A Global Access Science Source, vol. 13, no. 1, 21. https://doi.org/10.1186/1476-069X-13-21

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title = "A cross-sectional study of determinants of indoor environmental exposures in households with and without chronic exposure to biomass fuel smoke",

abstract = "Background: Burning biomass fuels indoors for cooking is associated with high concentrations of particulate matter (PM) and carbon monoxide (CO). More efficient biomass-burning stoves and chimneys for ventilation have been proposed as solutions to reduce indoor pollution. We sought to quantify indoor PM and CO exposures in urban and rural households and determine factors associated with higher exposures. A secondary objective was to identify chronic vs. acute changes in cardiopulmonary biomarkers associated with exposure to biomass smoke. Methods: We conducted a census survey followed by a cross-sectional study of indoor environmental exposures and cardiopulmonary biomarkers in the main household cook in Puno, Peru. We measured 24-hour indoor PM and CO concentrations in 86 households. We also measured PM2.5 and PM10 concentrations gravimetrically for 24 hours in urban households and during cook times in rural households, and generated a calibration equation using PM2.5 measurements. Results: In a census of 4903 households, 93% vs. 16% of rural vs. urban households used an open-fire stove; 22% of rural households had a homemade chimney; and <3% of rural households participated in a national program encouraging installation of a chimney. Median 24-hour indoor PM2.5 and CO concentrations were 130 vs. 22 μg/m3 and 5.8 vs. 0.4 ppm (all p<0.001) in rural vs. urban households. Having a chimney did not significantly reduce median concentrations in 24-hour indoor PM2.5 (119 vs. 137 μg/m3; p=0.40) or CO (4.6 vs. 7.2 ppm; p=0.23) among rural households with and without chimneys. Having a chimney did not significantly reduce median cook-Time PM2.5 (360 vs. 298 μg/m3, p=0.45) or cook-Time CO concentrations (15.2 vs. 9.4 ppm, p=0.23). Having a thatched roof (p=0.007) and hours spent cooking (p=0.02) were associated with higher 24-hour average PM concentrations. Rural participants had higher median exhaled CO (10 vs. 6 ppm; p=0.01) and exhaled carboxyhemoglobin (1.6% vs. 1.0%; p=0.04) than urban participants. Conclusions: Indoor air concentrations associated with biomass smoke were six-fold greater in rural vs. urban households. Having a homemade chimney did not reduce environmental exposures significantly. Measures of exhaled CO provide useful cardiopulmonary biomarkers for chronic exposure to biomass smoke.",

keywords = "Biomarkers, Biomass fuel, Biomass smoke, Cookstoves, Environmental exposure, Exhaled carbon monoxide",

author = "Suzanne Pollard and Williams, {D'ann L.} and Breysse, {Patrick N.} and Baron, {Patrick A.} and Grajeda, {Laura M.} and Gilman, {Robert H.} and {Jaime Miranda}, J. and William Checkley",

note = "Publisher Copyright: {\textcopyright} 2014 Pollard et al.; licensee BioMed Central Ltd.",

year = "2014",

doi = "10.1186/1476-069X-13-21",

language = "English (US)",

volume = "13",

journal = "Environmental Health: A Global Access Science Source",

issn = "1476-069X",

publisher = "BioMed Central",

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T1 - A cross-sectional study of determinants of indoor environmental exposures in households with and without chronic exposure to biomass fuel smoke

AU - Pollard, Suzanne

AU - Williams, D'ann L.

AU - Breysse, Patrick N.

AU - Baron, Patrick A.

AU - Grajeda, Laura M.

AU - Gilman, Robert H.

AU - Jaime Miranda, J.

AU - Checkley, William

PY - 2014

Y1 - 2014

N2 - Background: Burning biomass fuels indoors for cooking is associated with high concentrations of particulate matter (PM) and carbon monoxide (CO). More efficient biomass-burning stoves and chimneys for ventilation have been proposed as solutions to reduce indoor pollution. We sought to quantify indoor PM and CO exposures in urban and rural households and determine factors associated with higher exposures. A secondary objective was to identify chronic vs. acute changes in cardiopulmonary biomarkers associated with exposure to biomass smoke. Methods: We conducted a census survey followed by a cross-sectional study of indoor environmental exposures and cardiopulmonary biomarkers in the main household cook in Puno, Peru. We measured 24-hour indoor PM and CO concentrations in 86 households. We also measured PM2.5 and PM10 concentrations gravimetrically for 24 hours in urban households and during cook times in rural households, and generated a calibration equation using PM2.5 measurements. Results: In a census of 4903 households, 93% vs. 16% of rural vs. urban households used an open-fire stove; 22% of rural households had a homemade chimney; and <3% of rural households participated in a national program encouraging installation of a chimney. Median 24-hour indoor PM2.5 and CO concentrations were 130 vs. 22 μg/m3 and 5.8 vs. 0.4 ppm (all p<0.001) in rural vs. urban households. Having a chimney did not significantly reduce median concentrations in 24-hour indoor PM2.5 (119 vs. 137 μg/m3; p=0.40) or CO (4.6 vs. 7.2 ppm; p=0.23) among rural households with and without chimneys. Having a chimney did not significantly reduce median cook-Time PM2.5 (360 vs. 298 μg/m3, p=0.45) or cook-Time CO concentrations (15.2 vs. 9.4 ppm, p=0.23). Having a thatched roof (p=0.007) and hours spent cooking (p=0.02) were associated with higher 24-hour average PM concentrations. Rural participants had higher median exhaled CO (10 vs. 6 ppm; p=0.01) and exhaled carboxyhemoglobin (1.6% vs. 1.0%; p=0.04) than urban participants. Conclusions: Indoor air concentrations associated with biomass smoke were six-fold greater in rural vs. urban households. Having a homemade chimney did not reduce environmental exposures significantly. Measures of exhaled CO provide useful cardiopulmonary biomarkers for chronic exposure to biomass smoke.

AB - Background: Burning biomass fuels indoors for cooking is associated with high concentrations of particulate matter (PM) and carbon monoxide (CO). More efficient biomass-burning stoves and chimneys for ventilation have been proposed as solutions to reduce indoor pollution. We sought to quantify indoor PM and CO exposures in urban and rural households and determine factors associated with higher exposures. A secondary objective was to identify chronic vs. acute changes in cardiopulmonary biomarkers associated with exposure to biomass smoke. Methods: We conducted a census survey followed by a cross-sectional study of indoor environmental exposures and cardiopulmonary biomarkers in the main household cook in Puno, Peru. We measured 24-hour indoor PM and CO concentrations in 86 households. We also measured PM2.5 and PM10 concentrations gravimetrically for 24 hours in urban households and during cook times in rural households, and generated a calibration equation using PM2.5 measurements. Results: In a census of 4903 households, 93% vs. 16% of rural vs. urban households used an open-fire stove; 22% of rural households had a homemade chimney; and <3% of rural households participated in a national program encouraging installation of a chimney. Median 24-hour indoor PM2.5 and CO concentrations were 130 vs. 22 μg/m3 and 5.8 vs. 0.4 ppm (all p<0.001) in rural vs. urban households. Having a chimney did not significantly reduce median concentrations in 24-hour indoor PM2.5 (119 vs. 137 μg/m3; p=0.40) or CO (4.6 vs. 7.2 ppm; p=0.23) among rural households with and without chimneys. Having a chimney did not significantly reduce median cook-Time PM2.5 (360 vs. 298 μg/m3, p=0.45) or cook-Time CO concentrations (15.2 vs. 9.4 ppm, p=0.23). Having a thatched roof (p=0.007) and hours spent cooking (p=0.02) were associated with higher 24-hour average PM concentrations. Rural participants had higher median exhaled CO (10 vs. 6 ppm; p=0.01) and exhaled carboxyhemoglobin (1.6% vs. 1.0%; p=0.04) than urban participants. Conclusions: Indoor air concentrations associated with biomass smoke were six-fold greater in rural vs. urban households. Having a homemade chimney did not reduce environmental exposures significantly. Measures of exhaled CO provide useful cardiopulmonary biomarkers for chronic exposure to biomass smoke.

KW - Biomarkers

KW - Biomass fuel

KW - Biomass smoke

KW - Cookstoves

KW - Environmental exposure

KW - Exhaled carbon monoxide

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A cross-sectional study of determinants of indoor environmental exposures in households with and without chronic exposure to biomass fuel smoke

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