Household air pollution and blood pressure among adult women participants of the Household Air Pollution Intervention Network Trial: An exposure-response analysis

HAPIN investigators

doi:10.1016/j.envres.2025.122570

Household air pollution and blood pressure among adult women participants of the Household Air Pollution Intervention Network Trial: An exposure-response analysis

HAPIN investigators

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

Abstract

Background: Exposure to air pollutants, like fine particulate matter (PM_2.5), has been linked to higher blood pressure (BP). Few studies have examined this association in biomass-dependent settings. We seek to determine whether high exposure during a 16 month period was associated with an increase in BP among older adult women over the study period and to determine whether short-term increases in exposure were associated with higher coincident blood pressure. Methods: As part of a randomized controlled trial of a free liquefied petroleum gas cookstove and 18-month fuel supply, we measured BP and personal exposure to PM_2.5, black carbon (BC), and carbon monoxide (CO) on 368 adult women (mean age 52) in four countries (Rwanda, Peru, Guatemala, and India). We considered short- and long-term associations, the latter measured by change in BP and the former in mixed models of repeated measures. Findings: We found an association between short-term exposure and both systolic and diastolic BP. The highest quartile of BC was associated with a 2 mmHg increase compared to the referent group (p = 0.03). We also found a positive association with PM_2.5, where the highest quartile had a 1.6 mmHg increase in SBP versus the referent group (p = 0.05). We found no association with long-term exposure, nor between CO and BP. Interpretation: In settings where HAP dominates air pollution exposure, we found short-term exposure to BC and PM_2.5 associated with increased BP, consistent with past literature. The lack of long-term associations may have been due to insufficient follow-up. Funding: The study is registered with ClinicalTrials.gov (NCT02944682) and funded by the U.S. National Institutes of Health (1UM1HL134590) in collaboration with the Bill & Melinda Gates Foundation (OPP1131279).

Original language	English
Article number	122570
Journal	Environmental Research
Volume	285
DOIs	https://doi.org/10.1016/j.envres.2025.122570
State	Published - Nov 15 2025

Keywords

Black carbon
Carbon monoxide
Household energy
Intervention study
Particulate matter
Solid fuel

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10.1016/j.envres.2025.122570

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@article{daf992798c3e4c32a49ee9da4edd31c4,

title = "Household air pollution and blood pressure among adult women participants of the Household Air Pollution Intervention Network Trial: An exposure-response analysis",

abstract = "Background: Exposure to air pollutants, like fine particulate matter (PM2.5), has been linked to higher blood pressure (BP). Few studies have examined this association in biomass-dependent settings. We seek to determine whether high exposure during a 16 month period was associated with an increase in BP among older adult women over the study period and to determine whether short-term increases in exposure were associated with higher coincident blood pressure. Methods: As part of a randomized controlled trial of a free liquefied petroleum gas cookstove and 18-month fuel supply, we measured BP and personal exposure to PM2.5, black carbon (BC), and carbon monoxide (CO) on 368 adult women (mean age 52) in four countries (Rwanda, Peru, Guatemala, and India). We considered short- and long-term associations, the latter measured by change in BP and the former in mixed models of repeated measures. Findings: We found an association between short-term exposure and both systolic and diastolic BP. The highest quartile of BC was associated with a 2 mmHg increase compared to the referent group (p = 0.03). We also found a positive association with PM2.5, where the highest quartile had a 1.6 mmHg increase in SBP versus the referent group (p = 0.05). We found no association with long-term exposure, nor between CO and BP. Interpretation: In settings where HAP dominates air pollution exposure, we found short-term exposure to BC and PM2.5 associated with increased BP, consistent with past literature. The lack of long-term associations may have been due to insufficient follow-up. Funding: The study is registered with ClinicalTrials.gov (NCT02944682) and funded by the U.S. National Institutes of Health (1UM1HL134590) in collaboration with the Bill \& Melinda Gates Foundation (OPP1131279).",

keywords = "Black carbon, Carbon monoxide, Household energy, Intervention study, Particulate matter, Solid fuel",

author = "\{HAPIN investigators\} and Ajay Pillarisetti and Wenlu Ye and Peel, \{Jennifer L.\} and Howard Chang and Underhill, \{Lindsay J.\} and Kalpana Balakrishnan and Anait{\'e} D{\'i}az-Artiga and McCracken, \{John P.\} and Ghislaine Rosa and Thompson, \{Lisa M.\} and Vigneswari Aravindalochanan and \{Boyd Barr\}, Dana and Yunyun Chen and Maril{\'u} Chiang and Clark, \{Maggie L.\} and Victor D{\'a}vila-Rom{\'a}n and Shirin Jabbarzadeh and Johnson, \{Michael A.\} and Kirby, \{Miles A.\} and Lovvorn, \{Amy E.\} and Naeher, \{Luke P.\} and Florien Ndagijimana and Ricardo Piedrahita and Naveen Puttaswamy and Waller, \{Lance A.\} and Jiantong Wang and Williams, \{Kendra N.\} and Laura Nicolaou and William Checkley and Clasen, \{Thomas F.\} and Rosenthal, \{Joshua P.\} and Kyle Steenland and Kalpana Balakrishnan and Gloriose Bankundiye and \{Boyd Barr\}, Dana and Vanessa Burrowes and Alejandra Bussalleu and Devan Campbell and Eduardo Canuz and Adly Casta{\~n}aza and Chang, \{Howard H.\} and William Checkley and Yunyun Chen and Maril{\'u} Chiang and Clark, \{Maggie L.\} and Clasen, \{Thomas F.\} and Rachel Craik and Mary Crocker and Fuentes, \{Lisa de las\} and \{De Le{\'o}n\}, Oscar and Anait{\'e} Diaz-Artiga and Ephrem Dusabimana and Lisa Elon and Espinoza, \{Juan Gabriel\} and \{Pineda Fuentes\}, \{Irma Sayury\} and Sarada Garg and Ahana Ghosh and Dina Goodman and Savannah Gupton and Sarah Hamid and Stella Hartinger and Harvey, \{Steven A.\} and Mayari Hengstermann and Ian Hennessee and Phabiola Herrera and Shakir Hossen and Marjorie Howard and Howards, \{Penelope P.\} and Lindsay Jaacks and Shirin Jabbarzadeh and Johnson, \{Michael A.\} and Katherine Kearns and Kirby, \{Miles A.\} and Jacob Kremer and Laws, \{Margaret A.\} and Pattie Lenzen and Jiawen Liao and Lovvorn, \{Amy E.\} and Jane Mbabazi and Eric McCollum and McCracken, \{John P.\} and McPeek, \{Julia N.\} and Rachel Meyers and Miranda, \{J. Jaime\} and Erick Mollinedo and Libny Monroy and Lawrence Moulton and Alexie Mukeshimana and Krishnendu Mukhopadhyay and Bernard Mutariyani and Abidan Nambajimana and Durairaj Natesan and Florien Ndagijimana and Laura Nicolaou and Azhar Nizam and \{de Dieu Ntivuguruzwa\}, Jean and Aris Papageorghiou and Jennifer Peel and Ricardo Piedrahita and Ajay Pillarisetti and Naveen Puttaswamy and Elisa Puzzolo and Ashlinn Quinn and Rajamani, \{Karthikeyan Dharmapuri\} and Sarah Rajkumar and Usha Ramakrishnan and Rengaraj Ramasami and Alexander Ramirez and Ghislaine Rosa and Joshua Rosenthal and Ryan, \{P. Barry\} and Sudhakar Saidam and Zoe Sakas and Sankar Sambandam and Sarnat, \{Jeremy A.\} and Suzanne Simkovich and Sinharoy, \{Sheela S.\} and Smith, \{Kirk R.\} and Kyle Steenland and Damien Swearing and Gurusamy Thangavel and Thompson, \{Lisa M.\} and Ashley Toenjes and Lindsay Underhill and Uwizeyimana, \{Jean Damascene\} and Viviane Valdes and Amit Verma and Waller, \{Lance A.\} and Jiantong Wang and Megan Warnock and Williams, \{Kendra N.\} and Wenlu Ye and Young, \{Bonnie N.\} and Ashley Younger",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

month = nov,

day = "15",

doi = "10.1016/j.envres.2025.122570",

language = "English",

volume = "285",

journal = "Environmental Research",

issn = "0013-9351",

}

TY - JOUR

T1 - Household air pollution and blood pressure among adult women participants of the Household Air Pollution Intervention Network Trial

T2 - An exposure-response analysis

AU - HAPIN investigators

AU - Pillarisetti, Ajay

AU - Ye, Wenlu

AU - Peel, Jennifer L.

AU - Chang, Howard

AU - Underhill, Lindsay J.

AU - Balakrishnan, Kalpana

AU - Díaz-Artiga, Anaité

AU - McCracken, John P.

AU - Rosa, Ghislaine

AU - Thompson, Lisa M.

AU - Aravindalochanan, Vigneswari

AU - Boyd Barr, Dana

AU - Chen, Yunyun

AU - Chiang, Marilú

AU - Clark, Maggie L.

AU - Dávila-Román, Victor

AU - Jabbarzadeh, Shirin

AU - Johnson, Michael A.

AU - Kirby, Miles A.

AU - Lovvorn, Amy E.

AU - Naeher, Luke P.

AU - Ndagijimana, Florien

AU - Piedrahita, Ricardo

AU - Puttaswamy, Naveen

AU - Waller, Lance A.

AU - Wang, Jiantong

AU - Williams, Kendra N.

AU - Nicolaou, Laura

AU - Checkley, William

AU - Clasen, Thomas F.

AU - Rosenthal, Joshua P.

AU - Steenland, Kyle

AU - Balakrishnan, Kalpana

AU - Bankundiye, Gloriose

AU - Boyd Barr, Dana

AU - Burrowes, Vanessa

AU - Bussalleu, Alejandra

AU - Campbell, Devan

AU - Canuz, Eduardo

AU - Castañaza, Adly

AU - Chang, Howard H.

AU - Checkley, William

AU - Chen, Yunyun

AU - Chiang, Marilú

AU - Clark, Maggie L.

AU - Clasen, Thomas F.

AU - Craik, Rachel

AU - Crocker, Mary

AU - Fuentes, Lisa de las

AU - De León, Oscar

AU - Diaz-Artiga, Anaité

AU - Dusabimana, Ephrem

AU - Elon, Lisa

AU - Espinoza, Juan Gabriel

AU - Pineda Fuentes, Irma Sayury

AU - Garg, Sarada

AU - Ghosh, Ahana

AU - Goodman, Dina

AU - Gupton, Savannah

AU - Hamid, Sarah

AU - Hartinger, Stella

AU - Harvey, Steven A.

AU - Hengstermann, Mayari

AU - Hennessee, Ian

AU - Herrera, Phabiola

AU - Hossen, Shakir

AU - Howard, Marjorie

AU - Howards, Penelope P.

AU - Jaacks, Lindsay

AU - Jabbarzadeh, Shirin

AU - Johnson, Michael A.

AU - Kearns, Katherine

AU - Kirby, Miles A.

AU - Kremer, Jacob

AU - Laws, Margaret A.

AU - Lenzen, Pattie

AU - Liao, Jiawen

AU - Lovvorn, Amy E.

AU - Mbabazi, Jane

AU - McCollum, Eric

AU - McCracken, John P.

AU - McPeek, Julia N.

AU - Meyers, Rachel

AU - Miranda, J. Jaime

AU - Mollinedo, Erick

AU - Monroy, Libny

AU - Moulton, Lawrence

AU - Mukeshimana, Alexie

AU - Mukhopadhyay, Krishnendu

AU - Mutariyani, Bernard

AU - Nambajimana, Abidan

AU - Natesan, Durairaj

AU - Ndagijimana, Florien

AU - Nicolaou, Laura

AU - Nizam, Azhar

AU - de Dieu Ntivuguruzwa, Jean

AU - Papageorghiou, Aris

AU - Peel, Jennifer

AU - Piedrahita, Ricardo

AU - Pillarisetti, Ajay

AU - Puttaswamy, Naveen

AU - Puzzolo, Elisa

AU - Quinn, Ashlinn

AU - Rajamani, Karthikeyan Dharmapuri

AU - Rajkumar, Sarah

AU - Ramakrishnan, Usha

AU - Ramasami, Rengaraj

AU - Ramirez, Alexander

AU - Rosa, Ghislaine

AU - Rosenthal, Joshua

AU - Ryan, P. Barry

AU - Saidam, Sudhakar

AU - Sakas, Zoe

AU - Sambandam, Sankar

AU - Sarnat, Jeremy A.

AU - Simkovich, Suzanne

AU - Sinharoy, Sheela S.

AU - Smith, Kirk R.

AU - Steenland, Kyle

AU - Swearing, Damien

AU - Thangavel, Gurusamy

AU - Thompson, Lisa M.

AU - Toenjes, Ashley

AU - Underhill, Lindsay

AU - Uwizeyimana, Jean Damascene

AU - Valdes, Viviane

AU - Verma, Amit

AU - Waller, Lance A.

AU - Wang, Jiantong

AU - Warnock, Megan

AU - Williams, Kendra N.

AU - Ye, Wenlu

AU - Young, Bonnie N.

AU - Younger, Ashley

PY - 2025/11/15

Y1 - 2025/11/15

N2 - Background: Exposure to air pollutants, like fine particulate matter (PM2.5), has been linked to higher blood pressure (BP). Few studies have examined this association in biomass-dependent settings. We seek to determine whether high exposure during a 16 month period was associated with an increase in BP among older adult women over the study period and to determine whether short-term increases in exposure were associated with higher coincident blood pressure. Methods: As part of a randomized controlled trial of a free liquefied petroleum gas cookstove and 18-month fuel supply, we measured BP and personal exposure to PM2.5, black carbon (BC), and carbon monoxide (CO) on 368 adult women (mean age 52) in four countries (Rwanda, Peru, Guatemala, and India). We considered short- and long-term associations, the latter measured by change in BP and the former in mixed models of repeated measures. Findings: We found an association between short-term exposure and both systolic and diastolic BP. The highest quartile of BC was associated with a 2 mmHg increase compared to the referent group (p = 0.03). We also found a positive association with PM2.5, where the highest quartile had a 1.6 mmHg increase in SBP versus the referent group (p = 0.05). We found no association with long-term exposure, nor between CO and BP. Interpretation: In settings where HAP dominates air pollution exposure, we found short-term exposure to BC and PM2.5 associated with increased BP, consistent with past literature. The lack of long-term associations may have been due to insufficient follow-up. Funding: The study is registered with ClinicalTrials.gov (NCT02944682) and funded by the U.S. National Institutes of Health (1UM1HL134590) in collaboration with the Bill & Melinda Gates Foundation (OPP1131279).

AB - Background: Exposure to air pollutants, like fine particulate matter (PM2.5), has been linked to higher blood pressure (BP). Few studies have examined this association in biomass-dependent settings. We seek to determine whether high exposure during a 16 month period was associated with an increase in BP among older adult women over the study period and to determine whether short-term increases in exposure were associated with higher coincident blood pressure. Methods: As part of a randomized controlled trial of a free liquefied petroleum gas cookstove and 18-month fuel supply, we measured BP and personal exposure to PM2.5, black carbon (BC), and carbon monoxide (CO) on 368 adult women (mean age 52) in four countries (Rwanda, Peru, Guatemala, and India). We considered short- and long-term associations, the latter measured by change in BP and the former in mixed models of repeated measures. Findings: We found an association between short-term exposure and both systolic and diastolic BP. The highest quartile of BC was associated with a 2 mmHg increase compared to the referent group (p = 0.03). We also found a positive association with PM2.5, where the highest quartile had a 1.6 mmHg increase in SBP versus the referent group (p = 0.05). We found no association with long-term exposure, nor between CO and BP. Interpretation: In settings where HAP dominates air pollution exposure, we found short-term exposure to BC and PM2.5 associated with increased BP, consistent with past literature. The lack of long-term associations may have been due to insufficient follow-up. Funding: The study is registered with ClinicalTrials.gov (NCT02944682) and funded by the U.S. National Institutes of Health (1UM1HL134590) in collaboration with the Bill & Melinda Gates Foundation (OPP1131279).

KW - Black carbon

KW - Carbon monoxide

KW - Household energy

KW - Intervention study

KW - Particulate matter

KW - Solid fuel

UR - https://www.scopus.com/pages/publications/105014329199

U2 - 10.1016/j.envres.2025.122570

DO - 10.1016/j.envres.2025.122570

M3 - Article

C2 - 40812702

AN - SCOPUS:105014329199

SN - 0013-9351

VL - 285

JO - Environmental Research

JF - Environmental Research

M1 - 122570

ER -

Household air pollution and blood pressure among adult women participants of the Household Air Pollution Intervention Network Trial: An exposure-response analysis

Abstract

Keywords

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