Exposure to PM2.5 and blood lead level in two populations in ulaanbaatar, mongolia

Undarmaa Enkhbat; Ana M. Rule; Carol Resnick; Chimedsuren Ochir; Purevdorj Olkhanud; D’Ann L. Williams

doi:10.3390/ijerph13020214

Exposure to PM2.5 and blood lead level in two populations in ulaanbaatar, mongolia

Undarmaa Enkhbat, Ana M. Rule, Carol Resnick, Chimedsuren Ochir, Purevdorj Olkhanud, D’Ann L. Williams

Bloomberg School of Public Health

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

9 Scopus citations

Abstract

Approximately 60% of the households in Ulaanbaatar live in gers (a traditional Mongolian dwelling) in districts outside the legal limits of the city, without access to basic infrastructure, such as water, sewage systems, central heating, and paved roads, in contrast to apartment residents. This stark difference in living conditions creates different public health challenges for Ulaanbaatar residents. Through this research study we aim to test our hypothesis that women living in gers burning coal in traditional stoves for cooking and heating during the winter are exposed to higher concentrations of airborne PM_2.5than women living in apartments in Ulaanbaatar, Mongolia, and this exposure may include exposures to lead in coal with effects on blood lead levels. This cross-sectional study recruited a total of 50 women, 40–60 years of age, from these two settings. Air sampling was carried out during peak cooking and heating times, 5:00 p.m.–11:00 p.m., using a direct-reading instrument (TSI SidePak™) and integrated polytetrafluoroethylene (PTFE) filters using the SKC Personal Environmental Monitor. Blood lead level (BLL) was measured using a LeadCare II rapid field test method. In our study population, measured PM_2.5geometric mean (GM) concentrations using the SidePak™ in the apartment group was 31.5 (95% CI:17–99) μg/m³, and 100 (95% CI: 67–187) μg/m³in ger households (p< 0.001). The GM integrated gravimetric PM_2.5concentrations in the apartment group were 52.8 (95% CI: 39–297) μg/m³and 127.8 (95% CI: 86–190) μg/m³in ger households (p= 0.004). The correlation coefficient for the SidePak™ PM_2.5concentrations and filter based PM_2.5concentrations was r = 0.72 (p< 0.001). Blood Lead Levels were not statistically significant different between apartment residents and ger residents (p= 0.15). The BLL is statistically significant different (p= 0.01) when stratified by length of exposures outside of the home. This statistically significant difference in increased BLL could be due to occupational or frequent exposure to other sources of indoor or outdoor air pollution that were not measured. Blood lead levels from our study population are the first study measurements published on women aged 40–60 years of age in Mongolia.

Original language	English (US)
Journal	International journal of environmental research and public health
Volume	13
Issue number	2
DOIs	https://doi.org/10.3390/ijerph13020214
State	Published - Feb 1 2016

Keywords

Air pollution
Blood lead
Coal burning
Cookstove
Exposure assessment
Indoor Air
Mongolia
PM2.5
Particulate matter
Women’s health

ASJC Scopus subject areas

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

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10.3390/ijerph13020214

Cite this

@article{9037ea091e084075af833c446e160c6b,

title = "Exposure to PM2.5 and blood lead level in two populations in ulaanbaatar, mongolia",

abstract = "Approximately 60% of the households in Ulaanbaatar live in gers (a traditional Mongolian dwelling) in districts outside the legal limits of the city, without access to basic infrastructure, such as water, sewage systems, central heating, and paved roads, in contrast to apartment residents. This stark difference in living conditions creates different public health challenges for Ulaanbaatar residents. Through this research study we aim to test our hypothesis that women living in gers burning coal in traditional stoves for cooking and heating during the winter are exposed to higher concentrations of airborne PM2.5than women living in apartments in Ulaanbaatar, Mongolia, and this exposure may include exposures to lead in coal with effects on blood lead levels. This cross-sectional study recruited a total of 50 women, 40–60 years of age, from these two settings. Air sampling was carried out during peak cooking and heating times, 5:00 p.m.–11:00 p.m., using a direct-reading instrument (TSI SidePak{\texttrademark}) and integrated polytetrafluoroethylene (PTFE) filters using the SKC Personal Environmental Monitor. Blood lead level (BLL) was measured using a LeadCare II rapid field test method. In our study population, measured PM2.5geometric mean (GM) concentrations using the SidePak{\texttrademark} in the apartment group was 31.5 (95% CI:17–99) μg/m3, and 100 (95% CI: 67–187) μg/m3in ger households (p< 0.001). The GM integrated gravimetric PM2.5concentrations in the apartment group were 52.8 (95% CI: 39–297) μg/m3and 127.8 (95% CI: 86–190) μg/m3in ger households (p= 0.004). The correlation coefficient for the SidePak{\texttrademark} PM2.5concentrations and filter based PM2.5concentrations was r = 0.72 (p< 0.001). Blood Lead Levels were not statistically significant different between apartment residents and ger residents (p= 0.15). The BLL is statistically significant different (p= 0.01) when stratified by length of exposures outside of the home. This statistically significant difference in increased BLL could be due to occupational or frequent exposure to other sources of indoor or outdoor air pollution that were not measured. Blood lead levels from our study population are the first study measurements published on women aged 40–60 years of age in Mongolia.",

keywords = "Air pollution, Blood lead, Coal burning, Cookstove, Exposure assessment, Indoor Air, Mongolia, PM2.5, Particulate matter, Women{\textquoteright}s health",

author = "Undarmaa Enkhbat and Rule, {Ana M.} and Carol Resnick and Chimedsuren Ochir and Purevdorj Olkhanud and Williams, {D{\textquoteright}Ann L.}",

note = "Publisher Copyright: {\textcopyright} 2016 by the authors; licensee MDPI, Basel, Switzerland.",

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doi = "10.3390/ijerph13020214",

language = "English (US)",

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journal = "International journal of environmental research and public health",

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T1 - Exposure to PM2.5 and blood lead level in two populations in ulaanbaatar, mongolia

AU - Enkhbat, Undarmaa

AU - Rule, Ana M.

AU - Resnick, Carol

AU - Ochir, Chimedsuren

AU - Olkhanud, Purevdorj

AU - Williams, D’Ann L.

PY - 2016/2/1

Y1 - 2016/2/1

N2 - Approximately 60% of the households in Ulaanbaatar live in gers (a traditional Mongolian dwelling) in districts outside the legal limits of the city, without access to basic infrastructure, such as water, sewage systems, central heating, and paved roads, in contrast to apartment residents. This stark difference in living conditions creates different public health challenges for Ulaanbaatar residents. Through this research study we aim to test our hypothesis that women living in gers burning coal in traditional stoves for cooking and heating during the winter are exposed to higher concentrations of airborne PM2.5than women living in apartments in Ulaanbaatar, Mongolia, and this exposure may include exposures to lead in coal with effects on blood lead levels. This cross-sectional study recruited a total of 50 women, 40–60 years of age, from these two settings. Air sampling was carried out during peak cooking and heating times, 5:00 p.m.–11:00 p.m., using a direct-reading instrument (TSI SidePak™) and integrated polytetrafluoroethylene (PTFE) filters using the SKC Personal Environmental Monitor. Blood lead level (BLL) was measured using a LeadCare II rapid field test method. In our study population, measured PM2.5geometric mean (GM) concentrations using the SidePak™ in the apartment group was 31.5 (95% CI:17–99) μg/m3, and 100 (95% CI: 67–187) μg/m3in ger households (p< 0.001). The GM integrated gravimetric PM2.5concentrations in the apartment group were 52.8 (95% CI: 39–297) μg/m3and 127.8 (95% CI: 86–190) μg/m3in ger households (p= 0.004). The correlation coefficient for the SidePak™ PM2.5concentrations and filter based PM2.5concentrations was r = 0.72 (p< 0.001). Blood Lead Levels were not statistically significant different between apartment residents and ger residents (p= 0.15). The BLL is statistically significant different (p= 0.01) when stratified by length of exposures outside of the home. This statistically significant difference in increased BLL could be due to occupational or frequent exposure to other sources of indoor or outdoor air pollution that were not measured. Blood lead levels from our study population are the first study measurements published on women aged 40–60 years of age in Mongolia.

AB - Approximately 60% of the households in Ulaanbaatar live in gers (a traditional Mongolian dwelling) in districts outside the legal limits of the city, without access to basic infrastructure, such as water, sewage systems, central heating, and paved roads, in contrast to apartment residents. This stark difference in living conditions creates different public health challenges for Ulaanbaatar residents. Through this research study we aim to test our hypothesis that women living in gers burning coal in traditional stoves for cooking and heating during the winter are exposed to higher concentrations of airborne PM2.5than women living in apartments in Ulaanbaatar, Mongolia, and this exposure may include exposures to lead in coal with effects on blood lead levels. This cross-sectional study recruited a total of 50 women, 40–60 years of age, from these two settings. Air sampling was carried out during peak cooking and heating times, 5:00 p.m.–11:00 p.m., using a direct-reading instrument (TSI SidePak™) and integrated polytetrafluoroethylene (PTFE) filters using the SKC Personal Environmental Monitor. Blood lead level (BLL) was measured using a LeadCare II rapid field test method. In our study population, measured PM2.5geometric mean (GM) concentrations using the SidePak™ in the apartment group was 31.5 (95% CI:17–99) μg/m3, and 100 (95% CI: 67–187) μg/m3in ger households (p< 0.001). The GM integrated gravimetric PM2.5concentrations in the apartment group were 52.8 (95% CI: 39–297) μg/m3and 127.8 (95% CI: 86–190) μg/m3in ger households (p= 0.004). The correlation coefficient for the SidePak™ PM2.5concentrations and filter based PM2.5concentrations was r = 0.72 (p< 0.001). Blood Lead Levels were not statistically significant different between apartment residents and ger residents (p= 0.15). The BLL is statistically significant different (p= 0.01) when stratified by length of exposures outside of the home. This statistically significant difference in increased BLL could be due to occupational or frequent exposure to other sources of indoor or outdoor air pollution that were not measured. Blood lead levels from our study population are the first study measurements published on women aged 40–60 years of age in Mongolia.

KW - Air pollution

KW - Blood lead

KW - Coal burning

KW - Cookstove

KW - Exposure assessment

KW - Indoor Air

KW - Mongolia

KW - PM2.5

KW - Particulate matter

KW - Women’s health

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DO - 10.3390/ijerph13020214

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SN - 1661-7827

VL - 13

JO - International journal of environmental research and public health

JF - International journal of environmental research and public health

IS - 2

ER -

Exposure to PM2.5 and blood lead level in two populations in ulaanbaatar, mongolia

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Keywords

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