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Ishigaki Y, Yokogawa S, Shimazaki K, Win-Shwe TT, Irankunda E. Assessing personal PM 2.5 exposure using a novel neck-mounted monitoring device in rural Rwanda. ENVIRONMENTAL MONITORING AND ASSESSMENT 2024; 196:935. [PMID: 39278887 PMCID: PMC11402853 DOI: 10.1007/s10661-024-13106-y] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Subscribe] [Scholar Register] [Received: 04/10/2024] [Accepted: 09/06/2024] [Indexed: 09/18/2024]
Abstract
There is growing global concern regarding the detrimental health impacts of PM2.5 emissions from traditional stoves that utilize polluting fuels. Conventional methods for estimating daily personal PM2.5 exposure involve personal air samplers and measuring devices placed in a waist pouch, but these instruments are cumbersome and inconvenient. To address this issue, we developed a novel neck-mounted PM2.5 monitoring device (Pocket PM2.5 Logger) that is compact, lightweight, and can operate continuously for 1 week without recharging. Twelve participants who utilized charcoal, firewood, or propane gas for cooking in rural regions of Rwanda wore the Pocket PM2.5 Logger continuously for 1 week, and time-series variations in personal PM2.5 exposure were recorded at 5-min intervals. Individual daily exposure concentrations during cooking differed significantly among users of the different fuel types, and PM2.5 exposure was at least 2.6 and 3.4 times higher for charcoal and firewood users, respectively, than for propane gas users. Therefore, switching from biomass fuels to propane gas would reduce daily individual exposure by at least one-third. An analysis of cooking times showed that the median cooking time per meal was 30 min; however, half the participants cooked for 1.5 h per meal, and one-third cooked for over 4.5 h per meal. Reducing these extremely long cooking times would reduce exposure with all fuel types. The Pocket PM2.5 Logger facilitates the comprehensive assessment of personal PM2.5 exposure dynamics and is beneficial for the development of intervention strategies targeting household air pollution.
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Affiliation(s)
- Yo Ishigaki
- Research Center for Realizing Sustainable Societies, University of Electro-Communications, 1-5-1, Chofu, Tokyo, 182-8585, Japan.
| | - Shinji Yokogawa
- Info-Powered Energy System Research Center (I-PERC), University of Electro-Communications, Chofu, Tokyo, Japan
| | - Kan Shimazaki
- Department of Human Factors Engineering and Environmental Design, Kindai University, Wakayama, Japan
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2
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Jana A, Singh A, Adar SD, D'Souza J, Chattopadhyay A. In-utero exposure to multiple air pollutants and childhood undernutrition in India. JOURNAL OF EXPOSURE SCIENCE & ENVIRONMENTAL EPIDEMIOLOGY 2024; 34:895-906. [PMID: 37563211 DOI: 10.1038/s41370-023-00591-5] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 11/30/2022] [Revised: 07/25/2023] [Accepted: 07/25/2023] [Indexed: 08/12/2023]
Abstract
BACKGROUND Several studies have been conducted to understand the impact of socioeconomic and maternal factors on child undernutrition. However, the past literature has not directly examined the joint impacts of fuel use and ambient pollution and have primarily focused on PM2.5. OBJECTIVE This study explored the individual and community-level associations of both indoor (cooking fuel type) and ambient air pollution (PM2.5, NO2 and SO2) during maternal gestation on child undernutrition. METHODS This study analysed stunting, being underweight, and anaemia of children aged 0-59 months (n = 259,627) using the National Family Health Survey. In-utero exposures to ambient PM2.5, NO2, and SO2 were measured using satellite data and self-reported fuel type was a marker of indoor pollution exposure. The study used univariate and bivariate Moran's I, spatial lag model and multivariable logistic regression models after adjusting for other covariates to understand the effect of pollution on in-utero exposure and child health status at the individual and community-levels. RESULTS Higher concentration of indoor and ambient air pollution was found in the Northern and parts of Central regions of India. Estimates of spatial modelling show that each 1 μg/m-3 increase in maternal exposure to ambient PM2.5 across the clusters of India was associated with a 0.11, 9 and 19 percentage points increase in the prevalence of stunting, underweight and anaemia, respectively. The results of multi-pollutant model show that a higher ambient PM2.5 exposure during pregnancy was linked to higher odds of stunting (AOR:1.38; 95% CI:1.32-1.44), underweight (AOR:1.59; 95% CI:1.51-1.67) and anaemia (AOR:1.61; 95% CI:1.52-1.69) in children. Weaker but similar associations were observed for NO2, but not with SO2. Indoor pollution exposure during in-utero periods was also significantly associated with childhood undernutrition and this association was modified by ambient PM2.5 levels, where exposure to both indoor and ambient air pollution had even greater odds of being undernourished. IMPACT STATEMENT Our research on multi-pollutant models has revealed the initial proof of the individual impacts of indoor and outdoor pollution (PM2.5, NO2, and SO2) exposure during fetal development on children's nutrition.
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Affiliation(s)
- Arup Jana
- Department of Population & Development, International Institute for Population Sciences, Deonar, Mumbai, 400088, India
| | - Akancha Singh
- Department of Population & Development, International Institute for Population Sciences, Deonar, Mumbai, 400088, India
| | - Sara D Adar
- Department of Epidemiology, University of Michigan School of Public Health, Ann Arbor, MI, 48109, USA
| | - Jennifer D'Souza
- Department of Epidemiology, University of Michigan School of Public Health, Ann Arbor, MI, 48109, USA
| | - Aparajita Chattopadhyay
- Department of Population & Development, International Institute for Population Sciences, Deonar, Mumbai, 400088, India.
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3
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Medgyesi DN, Mujtaba MN, Yang Q, Abubakari SW, Lee AG, Porter J, Chillrud SN, Kaali S, Jack DW, Asante KP. Geospatial determinants of maternal and child exposure to fine particulate matter in Kintampo, Ghana: Levels within the household and community, by surrounding building density and near roadways. JOURNAL OF EXPOSURE SCIENCE & ENVIRONMENTAL EPIDEMIOLOGY 2024; 34:802-813. [PMID: 37798345 PMCID: PMC10995107 DOI: 10.1038/s41370-023-00606-1] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 03/08/2023] [Revised: 09/15/2023] [Accepted: 09/20/2023] [Indexed: 10/07/2023]
Abstract
BACKGROUND Personal exposure to fine particulate matter (PM2.5) from household air pollution is well-documented in sub-Saharan Africa, but spatiotemporal patterns of exposure are poorly characterized. OBJECTIVE We used paired GPS and personal PM2.5 data to evaluate changes in exposure across location-time environments (e.g., household and community, during cooking and non-cooking hours), building density and proximity to roadways. METHODS Our study included 259 sessions of geolocated, gravimetrically-calibrated one-minute personal PM2.5 measurements from participants in the GRAPHS Child Lung Function Study. The household vicinity was defined using a 50-meter buffer around participants' homes. Community boundaries were developed using a spatial clustering algorithm applied to an open-source dataset of building footprints in Africa. For each GPS location, we estimated building density (500 m buffer) and proximity to roadways (100 m buffer). We estimated changes in PM2.5 exposure by location (household, community), time of day (morning/evening cooking hours, night), building density, and proximity to roadways using linear mixed effect models. RESULTS Relative to nighttime household exposure, PM2.5 exposure during evening cooking hours was 2.84 (95%CI = 2.70-2.98) and 1.80 (95%CI = 1.54-2.10) times higher in the household and community, respectively. Exposures were elevated in areas with the highest versus lowest quartile of building density (FactorQ1vsQ4 = 1.60, 95%CI = 1.42-1.80). The effect of building density was strongest during evening cooking hours, and influenced levels in both the household and community (31% and 65% relative increase from Q1 to Q4, respectively). Being proximal to a trunk, tertiary or track roadway increased exposure by a factor of 1.16 (95%CI = 1.07-1.25), 1.68 (95%CI = 1.45-1.95) and 1.27 (95%CI = 1.06-1.53), respectively. IMPACT Household air pollution from cooking with solid fuels in sub-Saharan Africa is a major environmental concern for maternal and child health. Our study advances previous knowledge by quantifying the impact of household cooking activities on air pollution levels in the community, and identifying two geographic features, building density and roadways, that contribute to maternal and child daily exposure. Household cooking contributes to higher air pollution levels in the community especially in areas with greater building density. Findings underscore the need for equitable clean household energy transitions that reach entire communities to reduce health risks from household and outdoor air pollution.
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Affiliation(s)
- Danielle N Medgyesi
- Department of Environmental Health Sciences, Mailman School of Public Health, Columbia University, New York, NY, USA.
| | - Mohammed Nuhu Mujtaba
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo, North Municipality, Ghana
| | - Qiang Yang
- Lamont-Doherty Earth Observatory, Columbia University, Palisades, NY, USA
- Elsevier Global STM Journals, New York, NY, USA
| | - Sulemana Watara Abubakari
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo, North Municipality, Ghana
| | - Alison G Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, NY, USA
| | - Jeremy Porter
- Department of Environmental Health Sciences, Mailman School of Public Health, Columbia University, New York, NY, USA
- Department of Sociology, School of Humanities and Social Sciences, Brooklyn College, Brooklyn, NY, USA
| | - Steven N Chillrud
- Lamont-Doherty Earth Observatory, Columbia University, Palisades, NY, USA
| | - Seyram Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo, North Municipality, Ghana
| | - Darby W Jack
- Department of Environmental Health Sciences, Mailman School of Public Health, Columbia University, New York, NY, USA
| | - Kwaku Poku Asante
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo, North Municipality, Ghana
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4
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Daouda M, Seyram K, Amankwah GO, Seidu I, Kar A, Abubakari S, Malagutti F, Awuni S, Razak A, Apraku E, Peprah P, Lee AG, Mehta S, Jack D, Asante KP. Beyond air pollution: a national assessment of cooking-related burns in Ghana. Inj Prev 2024:ip-2023-045191. [PMID: 39107102 DOI: 10.1136/ip-2023-045191] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/30/2023] [Accepted: 07/18/2024] [Indexed: 08/09/2024]
Abstract
INTRODUCTION Household energy transitions have the potential to reduce the burden of several health outcomes but have narrowly focused on those mediated by reduced exposure to air pollution, despite concerns about the burden of injury outcomes. Here, we aimed to describe the country-level incidence of severe cooking-related burns in Ghana and identify household-level risk factors for adults and children. METHODS We conducted a national household energy use survey including 7389 households across 370 enumeration areas in Ghana in 2020. In each household, a pretested version of the Clean Cooking Alliance Burns Surveillance Module was administered to the primary cook. We computed incidence rates of severe cooking-related burns and conducted bivariate logistic regression to identify potential risk factors. RESULTS We documented 129 severe cooking-related burns that had occurred in the previous year. The incidence rate (95% CI) of cooking-related burns among working-age females was 17 (13 to 21) per 1000 person-years or 8.5 times higher than that of working-age males. Among adults, the odds of experiencing a cooking-related burn were 2.29 (95% CI 1.02 to 5.14) and 2.40 (95% CI 1.04 to 5.55) times higher among primary wood and charcoal users respectively compared with primary liquified petroleum gas users. No child burns were documented in households where liquified petroleum gas was primarily used. CONCLUSION Using a nationally representative sample, we found that solid fuel use doubled the odds of cooking-related burns compared with liquified petroleum gas. Ghana's efforts to expand access to liquified petroleum gas should focus on safe use.
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Affiliation(s)
- Misbath Daouda
- Environmental Health Sciences, Columbia University Mailman School of Public Health, New York, New York, USA
- Environmental Health Sciences, University of California Berkeley School of Public Health, Berkeley, California, USA
| | - Kaali Seyram
- Kintampo Health Research Centre, Research and Development Divisin, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Georgette Owusu Amankwah
- Environmental Health Sciences, Columbia University Mailman School of Public Health, New York, New York, USA
| | - Iddrisu Seidu
- Kintampo Health Research Centre, Research and Development Divisin, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Abhishek Kar
- Council on Energy Environment and Water, New Delhi, India
| | - Sulemana Abubakari
- Kintampo Health Research Centre, Research and Development Divisin, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Flavio Malagutti
- University of California Santa Barbara, Santa Barbara, California, USA
| | - Sule Awuni
- Ghana Health Service, Accra, Bono East Region, Ghana
| | - Abdul Razak
- Kintampo Health Research Centre, Research and Development Divisin, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Edward Apraku
- Kintampo Health Research Centre, Research and Development Divisin, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | | | - Alison G Lee
- Icahn School of Medicine at Mount Sinai, New York, New York, USA
| | - Sumi Mehta
- Vital Strategies, New York, New York, USA
| | - Darby Jack
- Environmental Health Sciences, Columbia University Mailman School of Public Health, New York, New York, USA
| | - Kwaku Poku Asante
- Kintampo Health Research Centre, Research and Development Divisin, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
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5
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Gould CF, Bailis R, Balakrishnan K, Burke M, Espinoza S, Mehta S, Schlesinger SB, Suarez-Lopez JR, Pillarisetti A. In praise of cooking gas subsidies: transitional fuels to advance health and equity. ENVIRONMENTAL RESEARCH LETTERS : ERL [WEB SITE] 2024; 19:081002. [PMID: 39007070 PMCID: PMC11240120 DOI: 10.1088/1748-9326/ad5d06] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Figures] [Subscribe] [Scholar Register] [Received: 04/09/2024] [Revised: 06/11/2024] [Accepted: 06/28/2024] [Indexed: 07/16/2024]
Abstract
Households that burn biomass in inefficient open fires-a practice that results in $1.6 trillion in global damages from health impacts and climate-altering emissions yearly-are often unable to access cleaner alternatives, like gas, which is widely available but unaffordable, or electricity, which is unattainable for many due to insufficient supply and reliability of electricity services. Governments are often reluctant to make gas affordable. We argue that condemnation of all fossil fuel subsidies is short-sighted and does not adequately consider subsidizing gas for cooking as a potential strategy to improve public health and reduce greenhouse gas emissions.
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Affiliation(s)
- Carlos F Gould
- Herbert Wertheim School of Public Health and Longevity Science, University of California San Diego, La Jolla, CA, United States of America
| | - Rob Bailis
- Stockholm Environment Institute, Somerville, MA, United States of America
| | - Kalpana Balakrishnan
- Department of Environmental Health Engineering, Faculty of Public Health, Sri Ramachandra Institute of Higher Education and Research, Chennai, India
| | - Marshall Burke
- Doerr School of Sustainability, Stanford University, Stanford, CA, United States of America
- Center for Food, Security, and Environment, Stanford University, Stanford, CA, United States of America
- National Bureau of Economic Research, Cambridge, MA, United States of America
| | | | - Sumi Mehta
- Vital Strategies, New York, NY, United States of America
| | | | - José R Suarez-Lopez
- Herbert Wertheim School of Public Health and Longevity Science, University of California San Diego, La Jolla, CA, United States of America
| | - Ajay Pillarisetti
- School of Public Health, University of California, Berkeley, Berkeley, CA, United States of America
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6
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Orina F, Amukoye E, Bowyer C, Chakaya J, Das D, Devereux G, Dobson R, Dragosits U, Gray C, Kiplimo R, Lesosky M, Loh M, Meme H, Mortimer K, Ndombi A, Pearson C, Price H, Twigg M, West S, Semple S. Household carbon monoxide (CO) concentrations in a large African city: An unquantified public health burden? ENVIRONMENTAL POLLUTION (BARKING, ESSEX : 1987) 2024; 351:124054. [PMID: 38677455 DOI: 10.1016/j.envpol.2024.124054] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 12/08/2023] [Revised: 04/10/2024] [Accepted: 04/24/2024] [Indexed: 04/29/2024]
Abstract
Carbon monoxide (CO) is a poisonous gas produced by incomplete combustion of carbon-based fuels that is linked to mortality and morbidity. Household air pollution from burning fuels on poorly ventilated stoves can lead to high concentrations of CO in homes. There are few datasets available on household concentrations of CO in urban areas of sub-Saharan African countries. CO was measured every minute over 24 h in a sample of homes in Nairobi, Kenya. Data on household characteristics were gathered by questionnaire. Metrics of exposure were summarised and analysis of temporal changes in concentration was performed. Continuous 24-h data were available from 138 homes. The mean (SD), median (IQR) and maximum 24-h CO concentration was 4.9 (6.4), 2.8 (1.0-6.3) and 44 ppm, respectively. 50% of homes had detectable CO concentrations for 847 min (14h07m) or longer during the 24-h period, and 9% of homes would have activated a CO-alarm operating to European specifications. An association between a metric of total CO exposure and self-reported exposure to vapours >15 h per week was identified, however this were not statistically significant after adjustment for the multiple comparisons performed. Mean concentrations were broadly similar in homes from a more affluent area and an informal settlement. A model of typical exposure suggests that cooking is likely to be responsible for approximately 60% of the CO exposure of Nairobi schoolchildren. Household CO concentrations are substantial in Nairobi, Kenya, despite most homes using gas or liquid fuels. Concentrations tend to be highest during the evening, probably associated with periods of cooking. Household air pollution from cooking is the main source of CO exposure of Nairobi schoolchildren. The public health impacts of long-term CO exposure in cities in sub-Saharan Africa may be considerable and should be studied further.
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Affiliation(s)
- F Orina
- Centre for Respiratory Diseases Research, Kenya Medical Research Institute, Nairobi, Kenya
| | - E Amukoye
- Research and Development, Kenya Medical Research Institute, Nairobi, Kenya
| | - C Bowyer
- Faculty of Creative and Cultural Industries, University of Portsmouth, Portsmouth, UK
| | - J Chakaya
- Centre for Respiratory Diseases Research, Kenya Medical Research Institute, Nairobi, Kenya
| | - D Das
- Institute of Occupational Medicine, Research Avenue North Riccarton, Edinburgh EH14 4AP, UK; Department of Environment and Geography, University of York, YO10 5NG, UK
| | - G Devereux
- Clinical Sciences, Liverpool School of Tropical Medicine, Liverpool, L3 5QA, UK
| | - R Dobson
- Institute for Social Marketing and Health, University of Stirling, Stirling, FK9 4LA, UK
| | - U Dragosits
- UK Centre for Ecology & Hydrology, Bush Estate, Penicuik, Midlothian EH26 0QB, UK
| | - C Gray
- School of Social and Political Sciences, University of Glasgow, Glasgow, UK
| | - R Kiplimo
- Centre for Respiratory Diseases Research, Kenya Medical Research Institute, Nairobi, Kenya
| | - M Lesosky
- National Heart and Lung Institute, Imperial College London, London, SW3 6LR, UK
| | - M Loh
- Institute of Occupational Medicine, Research Avenue North Riccarton, Edinburgh EH14 4AP, UK
| | - H Meme
- Centre for Respiratory Diseases Research, Kenya Medical Research Institute, Nairobi, Kenya
| | - K Mortimer
- Cambridge Africa, Department of Pathology, University of Cambridge, Cambridge, UK; Department of Paediatrics and Child Health, School of Clinical Medicine, College of Health Sciences, University of KwaZulu Natal, Durban, South Africa
| | - A Ndombi
- Centre for Respiratory Diseases Research, Kenya Medical Research Institute, Nairobi, Kenya
| | - C Pearson
- UK Centre for Ecology & Hydrology, Bush Estate, Penicuik, Midlothian EH26 0QB, UK
| | - H Price
- Biological and Environmental Sciences, University of Stirling, Stirling, FK9 4LA, UK
| | - M Twigg
- UK Centre for Ecology & Hydrology, Bush Estate, Penicuik, Midlothian EH26 0QB, UK
| | - S West
- Stockholm Environment Institute, University of York, YO10 5NG, UK
| | - S Semple
- Institute for Social Marketing and Health, University of Stirling, Stirling, FK9 4LA, UK.
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7
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Campbell D, Johnson M, Piedrahita R, Pillarisetti A, Waller LA, Kearns KA, Kremer J, Mollinedo E, Sarnat JA, Clark ML, Underhill LJ, McCracken JP, Diaz-Artiga A, Steenland K, Rosa G, Kirby MA, Balakrishnan K, Sambandam S, Mukhopadhyay K, Sendhil S, Natarajan A, Ndagijimana F, Dusabimana E, Thompson LM, Checkley W, Nicolaou L, Hartinger S, Peel JL, Clasen TF, Naeher LP. Factors Determining Black Carbon Exposures among Pregnant Women Enrolled in the HAPIN Trial. ENVIRONMENTAL SCIENCE & TECHNOLOGY 2024; 58:10162-10174. [PMID: 38810212 PMCID: PMC11171448 DOI: 10.1021/acs.est.3c09991] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 12/14/2023] [Revised: 05/14/2024] [Accepted: 05/16/2024] [Indexed: 05/31/2024]
Abstract
Residential biomass burning is an important source of black carbon (BC) exposure among rural communities in low- and middle-income countries. We collected 7165 personal BC samples and individual/household level information from 3103 pregnant women enrolled in the Household Air Pollution Intervention Network trial. Women in the intervention arm received free liquefied petroleum gas stoves and fuel throughout pregnancy; women in the control arm continued the use of biomass stoves. Median (IQR) postintervention BC exposures were 9.6 μg/m3 (5.2-14.0) for controls and 2.8 μg/m3 (1.6-4.8) for the intervention group. Using mixed models, we characterized predictors of BC exposure and assessed how exposure contrasts differed between arms by select predictors. Primary stove type was the strongest predictor (R2 = 0.42); the models including kerosene use, kitchen location, education, occupation, or stove use hours also provided additional explanatory power from the base model adjusted only for the study site. Our full, trial-wide, model explained 48% of the variation in BC exposures. We found evidence that the BC exposure contrast between arms differed by study site, adherence to the assigned study stove, and whether the participant cooked. Our findings highlight factors that may be addressed before and during studies to implement more impactful cookstove intervention trials.
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Affiliation(s)
- Devan
A. Campbell
- University
of Georgia, Athens, Georgia 30602, United States
- Benchmark
Risk Group, Chicago, Illinois 60601, United States
| | - Michael Johnson
- Berkeley
Air Monitoring Group, Berkeley, California 94701, United States
| | - Ricardo Piedrahita
- Berkeley
Air Monitoring Group, Berkeley, California 94701, United States
| | - Ajay Pillarisetti
- Environmental
Health Sciences, School of Public Health, University of California, Berkeley, California 94720, United States
| | - Lance A. Waller
- Department
of Biostatistics and Bioinformatics, Rollins School of Public Health, Emory University, Atlanta, Georgia 80521, United States
| | - Katherine A. Kearns
- University
of Georgia, Athens, Georgia 30602, United States
- Berkeley
Air Monitoring Group, Berkeley, California 94701, United States
| | - Jacob Kremer
- University
of Georgia, Athens, Georgia 30602, United States
| | | | - Jeremy A. Sarnat
- Department
of Biostatistics and Bioinformatics, Rollins School of Public Health, Emory University, Atlanta, Georgia 80521, United States
| | - Maggie L. Clark
- Department
of Environmental and Radiological Health Sciences, Colorado State University, Fort
Collins, Colorado 80523, United States
| | - Lindsay J. Underhill
- Washington
University School of Medicine, St. Louis, Missouri 63110, United States
| | - John P. McCracken
- University
of Georgia, Athens, Georgia 30602, United States
- Center
for Health Studies, Universidad del Valle
de Guatemala, Guatemala City, Guatemala 01015, United States
| | - Anaité Diaz-Artiga
- Center
for Health Studies, Universidad del Valle
de Guatemala, Guatemala City, Guatemala 01015, United States
| | - Kyle Steenland
- Gangarosa
Department of Environmental Health, Rollins
School of Public Health, Emory University, Atlanta, Georgia 30322, United States
| | - Ghislaine Rosa
- Department
of Public Health, Policy and Systems, University
of Liverpool, Liverpool L69 3GF, U.K.
| | - Miles A. Kirby
- Department
of Global Health and Population, Harvard
T.H. Chan School of Public Health, Boston, Massachusetts 02115, United States
| | - Kalpana Balakrishnan
- ICMR Center for Advanced Research on Air quality, Climate
and Health,
Department of Environmental Health Engineering, Sri Ramachandra Institute of Higher Education and Research, Chennai 600001, India
| | - Sankar Sambandam
- ICMR Center for Advanced Research on Air quality, Climate
and Health,
Department of Environmental Health Engineering, Sri Ramachandra Institute of Higher Education and Research, Chennai 600001, India
| | - Krishnendu Mukhopadhyay
- ICMR Center for Advanced Research on Air quality, Climate
and Health,
Department of Environmental Health Engineering, Sri Ramachandra Institute of Higher Education and Research, Chennai 600001, India
| | - Saritha Sendhil
- ICMR Center for Advanced Research on Air quality, Climate
and Health,
Department of Environmental Health Engineering, Sri Ramachandra Institute of Higher Education and Research, Chennai 600001, India
| | - Amudha Natarajan
- ICMR Center for Advanced Research on Air quality, Climate
and Health,
Department of Environmental Health Engineering, Sri Ramachandra Institute of Higher Education and Research, Chennai 600001, India
| | | | | | - Lisa M. Thompson
- Gangarosa
Department of Environmental Health, Rollins
School of Public Health, Emory University, Atlanta, Georgia 30322, United States
- Nell Hodgson Woodruff School of Nursing, Emory University, Atlanta, Georgia 30322, United States
| | - William Checkley
- Center for
Global Non-Communicable Diseases, Johns
Hopkins University, Baltimore, Maryland 21205, United States
- Division
of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, Maryland 21205, United States
| | - Laura Nicolaou
- Center for
Global Non-Communicable Diseases, Johns
Hopkins University, Baltimore, Maryland 21205, United States
- Division
of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, Maryland 21205, United States
| | - Stella Hartinger
- Center for
Global Non-Communicable Diseases, Johns
Hopkins University, Baltimore, Maryland 21205, United States
- Division
of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, Maryland 21205, United States
| | - Jennifer L. Peel
- Department
of Environmental and Radiological Health Sciences, Colorado State University, Fort
Collins, Colorado 80523, United States
| | - Thomas F. Clasen
- Gangarosa
Department of Environmental Health, Rollins
School of Public Health, Emory University, Atlanta, Georgia 30322, United States
| | - Luke P. Naeher
- University
of Georgia, Athens, Georgia 30602, United States
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8
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Ahmed A, Rahman AE, Ahmed S, Rahman F, Sujan HM, Ahmmed F, Hossain AT, Sayeed A, Hossain S, Huq NL, Quaiyum MA, Reichenbach L, El Arifeen S. Effect of low-cost kitchen with improved cookstove on birthweight of neonates in Shahjadpur, Bangladesh: a cluster-randomised controlled trial. THE LANCET REGIONAL HEALTH. SOUTHEAST ASIA 2024; 25:100342. [PMID: 39021478 PMCID: PMC467075 DOI: 10.1016/j.lansea.2023.100342] [Citation(s) in RCA: 1] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Subscribe] [Scholar Register] [Received: 10/18/2022] [Revised: 04/01/2023] [Accepted: 12/12/2023] [Indexed: 07/20/2024]
Abstract
Background Smoke from biomass fuels used for cooking in traditional cookstoves contains a variety of health-damaging pollutants. Inhalation of these pollutants by pregnant women has been linked to abnormal foetal development and adverse pregnancy outcomes, including low birthweight (LBW). There is a dearth of data on environmental interventions that have the potential to reduce exposure to biomass fuel during pregnancy and improve birth outcomes. International Centre for Diarrheal Disease Research, Bangladesh (icddr,b) therefore, designed a low-cost kitchen with an improved cookstove and examined the impact of this intervention on the birthweight of neonates. Methods icddr,b conducted a cluster-randomised controlled trial of a 'low-cost kitchen with improved cookstove' intervention among 1,267 pregnant women who used traditional cookstoves in a rural sub-district of Bangladesh. All participants were enrolled during the first trimester of pregnancy among 104 randomly selected clusters after obtaining informed consent. The model kitchens were installed in 628 participants' households of the intervention group, and 639 participants continued to use traditional cookstoves as the control group. The primary outcome was the proportion of LBW neonates between the intervention and control groups. The study also examined if the intervention would reduce CO exposure, measured by the differences in maternal blood carbon monoxide saturation (SpCO) levels and prevalence of LBW in neonates. We performed a generalized structural equation model for jointly assessing the simultaneous relationships of biomass fuel exposure to LBW of neonates and the relationships of LBW of neonates to maternal blood SpCO level. This trial was registered with ClinicalTrials.gov (NCT02923882). Findings We found that in the intervention group using 'low-cost kitchen with improved cookstove', the risk of LBW reduced by 37% (adjusted risk ratio: 0.63, 95% CI [0.45, 0.89]). Between the second and third trimester, the mean maternal blood SpCO level was significantly reduced from 10.4% to 8.9% (p-value <0.01) in the intervention group but remained unchanged in the control group (11.6% and 11.5%). Of the total effects of the intervention on the risk of LBW, 48.3% was mediated through maternal blood SpCO level. Interpretation The risk of LBW among rural neonates was reduced in the intervention group using 'low-cost kitchen with improved cookstove', which may be attributed to the reduction in maternal blood SpCO level. Additional research is needed to identify other mechanisms through which biomass fuel exposure might lead to adverse pregnancy outcomes. Funding Grand Challenges Canada: Rising Stars in Global Health Programme.
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Affiliation(s)
- Anisuddin Ahmed
- Maternal and Child Health Division, International Centre for Diarrhoeal Disease Research, Bangladesh (icddr,b), Dhaka, Bangladesh
| | - Ahmed Ehsanur Rahman
- Maternal and Child Health Division, International Centre for Diarrhoeal Disease Research, Bangladesh (icddr,b), Dhaka, Bangladesh
| | - Saifuddin Ahmed
- Department of Population, Family and Reproductive Health, Johns Hopkins Bloomberg School of Public Health, Baltimore, MD, USA
| | - Fariya Rahman
- Maternal and Child Health Division, International Centre for Diarrhoeal Disease Research, Bangladesh (icddr,b), Dhaka, Bangladesh
| | - Hasan Mahmud Sujan
- Maternal and Child Health Division, International Centre for Diarrhoeal Disease Research, Bangladesh (icddr,b), Dhaka, Bangladesh
| | - Faisal Ahmmed
- Infectious Disease Division, International Centre for Diarrhoeal Disease Research, Bangladesh (icddr,b), Dhaka, Bangladesh
| | - Aniqa Tasnim Hossain
- Maternal and Child Health Division, International Centre for Diarrhoeal Disease Research, Bangladesh (icddr,b), Dhaka, Bangladesh
| | - Abu Sayeed
- Maternal and Child Health Division, International Centre for Diarrhoeal Disease Research, Bangladesh (icddr,b), Dhaka, Bangladesh
| | - Shahed Hossain
- James P Grant School of Public Health, BRAC University, Dhaka, Bangladesh
| | - Nafisa Lira Huq
- James P Grant School of Public Health, BRAC University, Dhaka, Bangladesh
| | | | | | - Shams El Arifeen
- Maternal and Child Health Division, International Centre for Diarrhoeal Disease Research, Bangladesh (icddr,b), Dhaka, Bangladesh
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Lai PS, Lam NL, Gallery B, Lee AG, Adair-Rohani H, Alexander D, Balakrishnan K, Bisaga I, Chafe ZA, Clasen T, Díaz-Artiga A, Grieshop A, Harrison K, Hartinger SM, Jack D, Kaali S, Lydston M, Mortimer KM, Nicolaou L, Obonyo E, Okello G, Olopade C, Pillarisetti A, Pinto AN, Rosenthal JP, Schluger N, Shi X, Thompson C, Thompson LM, Volckens J, Williams KN, Balmes J, Checkley W, Ozoh OB. Household Air Pollution Interventions to Improve Health in Low- and Middle-Income Countries: An Official American Thoracic Society Research Statement. Am J Respir Crit Care Med 2024; 209:909-927. [PMID: 38619436 DOI: 10.1164/rccm.202402-0398st] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 04/16/2024] Open
Abstract
Background: An estimated 3 billion people, largely in low- and middle-income countries, rely on unclean fuels for cooking, heating, and lighting to meet household energy needs. The resulting exposure to household air pollution (HAP) is a leading cause of pneumonia, chronic lung disease, and other adverse health effects. In the last decade, randomized controlled trials of clean cooking interventions to reduce HAP have been conducted. We aim to provide guidance on how to interpret the findings of these trials and how they should inform policy makers and practitioners.Methods: We assembled a multidisciplinary working group of international researchers, public health practitioners, and policymakers with expertise in household air pollution from within academia, the American Thoracic Society, funders, nongovernmental organizations, and global organizations, including the World Bank and the World Health Organization. We performed a literature search, convened four sessions via web conference, and developed consensus conclusions and recommendations via the Delphi method.Results: The committee reached consensus on 14 conclusions and recommendations. Although some trials using cleaner-burning biomass stoves or cleaner-cooking fuels have reduced HAP exposure, the committee was divided (with 55% saying no and 45% saying yes) on whether the studied interventions improved measured health outcomes.Conclusions: HAP is associated with adverse health effects in observational studies. However, it remains unclear which household energy interventions reduce exposure, improve health, can be scaled, and are sustainable. Researchers should engage with policy makers and practitioners working to scale cleaner energy solutions to understand and address their information needs.
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10
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Agyapong PD, Jack D, Kaali S, Colicino E, Mujtaba MN, Chillrud SN, Osei M, Gennings C, Agyei O, Kinney PL, Kwarteng A, Perzanowski M, Dwommoh Prah RK, Tawiah T, Asante KP, Lee AG. Household Air Pollution and Child Lung Function: The Ghana Randomized Air Pollution and Health Study. Am J Respir Crit Care Med 2024; 209:716-726. [PMID: 38016085 DOI: 10.1164/rccm.202303-0623oc] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/31/2023] [Accepted: 11/28/2023] [Indexed: 11/30/2023] Open
Abstract
Rationale: The impact of a household air pollution (HAP) stove intervention on child lung function has been poorly described. Objectives: To assess the effect of a HAP stove intervention for infants prenatally to age 1 on, and exposure-response associations with, lung function at child age 4. Methods: The Ghana Randomized Air Pollution and Health Study randomized pregnant women to liquefied petroleum gas (LPG), improved biomass, or open-fire (control) stove conditions through child age 1. We quantified HAP exposure by repeated maternal and child personal carbon monoxide (CO) exposure measurements. Children performed oscillometry, an effort-independent lung function measurement, at age 4. We examined associations between Ghana Randomized Air Pollution and Health Study stove assignment and prenatal and infant CO measurements and oscillometry using generalized linear regression models. We used reverse distributed lag models to examine time-varying associations between prenatal CO and oscillometry. Measurements and Main Results: The primary oscillometry measure was reactance at 5 Hz, X5, a measure of elastic and inertial lung properties. Secondary measures included total, large airway, and small airway resistance at 5 Hz, 20 Hz, and the difference in resistance at 5 Hz and 20 Hz (R5, R20, and R5-20, respectively); area of reactance (AX); and resonant frequency. Of the 683 children who attended the lung function visit, 567 (83%) performed acceptable oscillometry. A total of 221, 106, and 240 children were from the LPG, improved biomass, and control arms, respectively. Compared with control, the improved biomass stove condition was associated with lower reactance at 5 Hz (X5 z-score: β = -0.25; 95% confidence interval [CI] = -0.39, -0.11), higher large airway resistance (R20 z-score: β = 0.34; 95% CI = 0.23, 0.44), and higher AX (AX z-score: β = 0.16; 95% CI = 0.06, 0.26), which is suggestive of overall worse lung function. The LPG stove condition was associated with higher X5 (X5 score: β = 0.16; 95% CI = 0.01, 0.31) and lower small airway resistance (R5-20 z-score: β = -0.15; 95% CI = -0.30, 0.0), which is suggestive of better small airway function. Higher average prenatal CO exposure was associated with higher R5 and R20, and distributed lag models identified sensitive windows of exposure between CO and X5, R5, R20, and R5-20. Conclusions: These data support the importance of prenatal HAP exposure on child lung function. Clinical trial registered with www.clinicaltrials.gov (NCT01335490).
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Affiliation(s)
- Prince Darko Agyapong
- Kintampo Health Research Centre, Research and Development, Division Ghana Health Service, Bono East Region Kintampo North, Ghana
| | - Darby Jack
- Department of Environmental Health Sciences, Mailman School of Public Health, Columbia University, New York, New York
| | - Seyram Kaali
- Kintampo Health Research Centre, Research and Development, Division Ghana Health Service, Bono East Region Kintampo North, Ghana
| | | | - Mohammed Nuhu Mujtaba
- Kintampo Health Research Centre, Research and Development, Division Ghana Health Service, Bono East Region Kintampo North, Ghana
| | - Steven N Chillrud
- Lamont-Doherty Earth Observatory at Columbia University, Palisades, New York; and
| | - Musah Osei
- Kintampo Health Research Centre, Research and Development, Division Ghana Health Service, Bono East Region Kintampo North, Ghana
| | - Chris Gennings
- Department of Environmental Medicine and Public Health
- Institute for Exposomic Research, and
| | - Oscar Agyei
- Kintampo Health Research Centre, Research and Development, Division Ghana Health Service, Bono East Region Kintampo North, Ghana
| | - Patrick L Kinney
- Department of Environmental Health, Boston University School of Public Health, Boston, Massachusetts
| | - Adolphine Kwarteng
- Kintampo Health Research Centre, Research and Development, Division Ghana Health Service, Bono East Region Kintampo North, Ghana
| | - Matthew Perzanowski
- Department of Environmental Health Sciences, Mailman School of Public Health, Columbia University, New York, New York
| | - Rebecca Kyerewaa Dwommoh Prah
- Kintampo Health Research Centre, Research and Development, Division Ghana Health Service, Bono East Region Kintampo North, Ghana
| | - Theresa Tawiah
- Kintampo Health Research Centre, Research and Development, Division Ghana Health Service, Bono East Region Kintampo North, Ghana
| | - Kwaku Poku Asante
- Kintampo Health Research Centre, Research and Development, Division Ghana Health Service, Bono East Region Kintampo North, Ghana
| | - Alison G Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, New York
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11
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Daouda M, Kaali S, Spring E, Mujtaba MN, Jack D, Dwommoh Prah RK, Colicino E, Tawiah T, Gennings C, Osei M, Janevic T, Chillrud SN, Agyei O, Gould CF, Lee AG, Asante KP. Prenatal Household Air Pollution Exposure and Childhood Blood Pressure in Rural Ghana. ENVIRONMENTAL HEALTH PERSPECTIVES 2024; 132:37006. [PMID: 38506828 PMCID: PMC10953816 DOI: 10.1289/ehp13225] [Citation(s) in RCA: 1] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 04/25/2023] [Revised: 01/18/2024] [Accepted: 02/08/2024] [Indexed: 03/21/2024]
Abstract
BACKGROUND The association between prenatal household air pollution (HAP) exposure and childhood blood pressure (BP) is unknown. OBJECTIVE Within the Ghana Randomized Air Pollution and Health Study (GRAPHS) we examined time-varying associations between a) maternal prenatal and b) first-year-of-life HAP exposure with BP at 4 years of age and, separately, whether a stove intervention delivered prenatally and continued through the first year of life could improve BP at 4 years of age. METHODS GRAPHS was a cluster-randomized cookstove intervention trial wherein n = 1,414 pregnant women were randomized to one of two stove interventions: a) a liquefied petroleum gas (LPG) stove or improved biomass stove, or b) control (open fire cooking). Maternal HAP exposure over pregnancy and child HAP exposure over the first year of life was quantified by repeated carbon monoxide (CO) measurements; a subset of women (n = 368 ) also performed one prenatal and one postnatal personal fine particulate matter (PM 2.5 ) measurement. Systolic and diastolic BP (SBP and DBP) were measured in n = 667 4-y-old children along with their PM 2.5 exposure (n = 692 ). We examined the effect of the intervention on resting BP z -scores. We also employed reverse distributed lag models to examine time-varying associations between a) maternal prenatal and b) first-year-of-life HAP exposure and resting BP z -scores. Among those with PM 2.5 measures, we examined associations between PM 2.5 and resting BP z -scores. Sex-specific effects were considered. RESULTS Intention-to-treat analyses identified that DBP z -score at 4 years of age was lower among children born in the LPG arm (LPG β = - 0.20 ; 95% CI: - 0.36 , - 0.03 ) as compared with those in the control arm, and females were most susceptible to the intervention. Higher CO exposure in late gestation was associated with higher SBP and DBP z -score at 4 years of age, whereas higher late-first-year-of-life CO exposure was associated with higher DBP z -score. In the subset with PM 2.5 measurements, higher maternal postnatal PM 2.5 exposure was associated with higher SBP z -scores. DISCUSSION These findings suggest that prenatal and first-year-of-life HAP exposure are associated with child BP and support the need for reductions in exposure to HAP, with interventions such as cleaner cooking beginning in pregnancy. https://doi.org/10.1289/EHP13225.
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Affiliation(s)
- Misbath Daouda
- Department of Environmental Health Sciences, Mailman School of Public Health at Columbia University, New York, New York, USA
- Department of Environmental Health Sciences, School of Public Health, University of California, Berkeley, USA
| | - Seyram Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Emma Spring
- University of Michigan, Ann Arbor, Michigan, USA
| | - Mohammed N. Mujtaba
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Darby Jack
- Department of Environmental Health Sciences, Mailman School of Public Health at Columbia University, New York, New York, USA
| | - Rebecca Kyerewaa Dwommoh Prah
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Elena Colicino
- Department of Environmental Medicine and Public Health, Icahn School of Medicine at Mount Sinai, New York, New York, USA
| | - Theresa Tawiah
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Chris Gennings
- Department of Environmental Medicine and Public Health, Icahn School of Medicine at Mount Sinai, New York, New York, USA
| | - Musah Osei
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Teresa Janevic
- Department of Obstetrics, Gynecology, and Reproductive Science, Icahn School of Medicine at Mount Sinai, New York, New York, USA
| | - Steven N. Chillrud
- Lamont-Doherty Earth Observatory of Columbia University, New York, New York, USA
| | - Oscar Agyei
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Carlos F. Gould
- Department of Earth System Science, Stanford University, Stanford, California, USA
| | - Alison G. Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, New York, USA
| | - Kwaku Poku Asante
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
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Seltenrich N. Clearing the Air: Gas Stove Emissions and Direct Health Effects. ENVIRONMENTAL HEALTH PERSPECTIVES 2024; 132:22001. [PMID: 38416539 PMCID: PMC10901287 DOI: 10.1289/ehp14180] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 10/18/2023] [Revised: 04/05/2024] [Accepted: 01/08/2024] [Indexed: 02/29/2024]
Abstract
Gas range use has direct health effects-beyond those from climate change related to fossil fuels. If kitchens are not well ventilated, benzene, nitrogen dioxide, and other VOCs may reach levels known to harm health.
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Zhu J, Liu J, He X, Wang L, Liu X, Yang J, Sun H, Azhar N, Oduro NB. Experimental study on the purification capacity of potted plants on low-concentration carbon monoxide in indoor environment. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH INTERNATIONAL 2024; 31:6316-6331. [PMID: 38146024 DOI: 10.1007/s11356-023-31497-2] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 04/26/2023] [Accepted: 12/07/2023] [Indexed: 12/27/2023]
Abstract
Indoor low-concentration carbon monoxide (CO) exposure is widespread worldwide, and potted plants may be a potential means for CO purification. The objective is to evaluate common indoor plants' CO purification and tolerance capacities. Epipremnum aureum (Linden ex André) G.S.Bunting, Chlorophytum comosum (Thunb.) Jacques, Spathiphyllum kochii Engl. & K.Krause, and Sansevieria trifasciata Hort. ex Prain with similar sizes were tested in the glass chamber with initial CO concentrations of 10, 25, 50, 100, 200, and 400 ppm, respectively. (1) The CO purification capacity of the four potted plants is ranked as Epipremnum aureum (Linden ex André) G.S.Bunting > Chlorophytum comosum (Thunb.) Jacques > Spathiphyllum kochii Engl. & K.Krause > Sansevieria trifasciata Hort. ex Prain. Under the purification effect of each plant, the CO concentration in the chamber decreases linearly and significantly (p < 0.05), and within a specific time period, the time-weighted average (TWA) CO concentrations can be reduced to below the corresponding permissible exposure limits specified by some countries and organizations. (2) With the increase of the stomatal number of each plant and the increase in CO concentration, the hourly and cumulative absorbed CO of each plant increase linearly and significantly (p < 0.05). (3) With the increase in CO concentration, the CO purification efficiency of each plant decreases exponentially and significantly (p < 0.05). (4) When the CO concentration was ≤ 50 ppm, all plants could effectively purify CO without damage. When the CO concentration was in the range of 100 ~ 400 ppm, within 2 weeks after the 48-h experiment, the leaf tips of Chlorophytum comosum (Thunb.) Jacques and Epipremnum aureum (Linden ex André) G.S.Bunting were damaged one after another, and the damaged leaf area increased with the increase of CO concentration. However, each plant as a whole still survived. This study demonstrated that different species of potted plants can effectively absorb low concentrations of CO to varying degrees, but higher concentrations of CO will damage the survival of specific species of potted plants.
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Affiliation(s)
- Jintuo Zhu
- Key Laboratory of Coal Methane and Fire Control, Ministry of Education, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- National Professional Laboratory for Fundamental Research of Mine Gas and Dust Control Technology, School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
| | - Jinyu Liu
- Key Laboratory of Coal Methane and Fire Control, Ministry of Education, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- National Professional Laboratory for Fundamental Research of Mine Gas and Dust Control Technology, School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
| | - Xinjian He
- Key Laboratory of Coal Methane and Fire Control, Ministry of Education, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China.
- National Professional Laboratory for Fundamental Research of Mine Gas and Dust Control Technology, School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China.
- School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China.
| | - Liang Wang
- Key Laboratory of Coal Methane and Fire Control, Ministry of Education, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- National Professional Laboratory for Fundamental Research of Mine Gas and Dust Control Technology, School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
| | - Xuejing Liu
- Key Laboratory of Coal Methane and Fire Control, Ministry of Education, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- National Professional Laboratory for Fundamental Research of Mine Gas and Dust Control Technology, School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
| | - Jin Yang
- Key Laboratory of Coal Methane and Fire Control, Ministry of Education, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- National Professional Laboratory for Fundamental Research of Mine Gas and Dust Control Technology, School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
| | - Haisong Sun
- Key Laboratory of Coal Methane and Fire Control, Ministry of Education, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- National Professional Laboratory for Fundamental Research of Mine Gas and Dust Control Technology, School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
| | - Noor Azhar
- Key Laboratory of Coal Methane and Fire Control, Ministry of Education, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- National Professional Laboratory for Fundamental Research of Mine Gas and Dust Control Technology, School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
| | - Nkansah Benjamin Oduro
- Key Laboratory of Coal Methane and Fire Control, Ministry of Education, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- National Professional Laboratory for Fundamental Research of Mine Gas and Dust Control Technology, School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
- School of Safety Engineering, China University of Mining and Technology, Xuzhou, 221116, Jiangsu, China
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Raqib R, Akhtar E, Ahsanul Haq M, Ahmed S, Haque F, Chowdhury MAH, Shahriar MH, Begum BA, Eunus M, Sarwar G, Parvez F, Sharker Y, Ahsan H, Yunus M. Reduction of household air pollution through clean fuel intervention and recovery of cellular immune balance. ENVIRONMENT INTERNATIONAL 2023; 179:108137. [PMID: 37579572 PMCID: PMC11062205 DOI: 10.1016/j.envint.2023.108137] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 12/21/2022] [Revised: 08/01/2023] [Accepted: 08/07/2023] [Indexed: 08/16/2023]
Abstract
BACKGROUND We conducted a clean fuel intervention trial (Bangladesh Global Environmental and Occupational Health (GEOHealth) (NCT02824237) with liquefied petroleum gas (LPG) for 26 months among rural Bangladeshi women chronically exposed to household air pollution (HAP) from biomass fuel (BMF) use. We aimed to evaluate the effect of HAP reduction following LPG intervention on immune response outcome. METHODS We supplied LPG cook stove and refills in cylinder in 200 households for 26 months. We measured personal exposure to HAP [particulate matter 2.5 (PM2·5), black carbon (BC) and carbon monoxide (CO)] in 200 women (main cook) by personal monitors at pre- and post-intervention. Immune function was assessed before and after intervention, in blood collected within 2 weeks of HAP measurements. Primary endpoints included reduction in HAP, lymphocyte proliferation and oxidative stress response, and alterations in T and B cell proportions. FINDINGS Exclusive LPG use for 26 months resulted in significant reduction in PM2·5 (43.5%), BC (13%) and CO (48%) exposure in the women. For one unit decrease in BC, Treg cells and memory B cells increased by 7% and 34% respectively, in the peripheral circulation. One unit decrease in CO was significantly associated with increase in early B cells and plasmablasts by 66% and 5% respectively. For one unit decrease in BC, percent-dividing cells, proliferation and expansion indices increased by 2%, 0.4%, and 1%, respectively. INTERPRETATION Reduced personal exposure to HAP through clean fuel intervention was related to a return towards cellular immune balance.
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Affiliation(s)
| | | | | | | | | | | | | | | | - Mahbub Eunus
- U-Chicago Research Bangladesh, Mohakhali, Dhaka, Bangladesh
| | - Golam Sarwar
- U-Chicago Research Bangladesh, Mohakhali, Dhaka, Bangladesh
| | - Faruque Parvez
- Mailman School of Public Health, Columbia University, New York, USA
| | | | - Habibul Ahsan
- Department of Public Health Sciences, University of Chicago, Chicago, USA; U-Chicago Research Bangladesh, Mohakhali, Dhaka, Bangladesh
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Casey JA, Daouda M, Babadi RS, Do V, Flores NM, Berzansky I, González DJ, Van Horne YO, James-Todd T. Methods in Public Health Environmental Justice Research: a Scoping Review from 2018 to 2021. Curr Environ Health Rep 2023; 10:312-336. [PMID: 37581863 PMCID: PMC10504232 DOI: 10.1007/s40572-023-00406-7] [Citation(s) in RCA: 2] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Accepted: 07/14/2023] [Indexed: 08/16/2023]
Abstract
PURPOSE OF REVIEW The volume of public health environmental justice (EJ) research produced by academic institutions increased through 2022. However, the methods used for evaluating EJ in exposure science and epidemiologic studies have not been catalogued. Here, we completed a scoping review of EJ studies published in 19 environmental science and epidemiologic journals from 2018 to 2021 to summarize research types, frameworks, and methods. RECENT FINDINGS We identified 402 articles that included populations with health disparities as a part of EJ research question and met other inclusion criteria. Most studies (60%) evaluated EJ questions related to socioeconomic status (SES) or race/ethnicity. EJ studies took place in 69 countries, led by the US (n = 246 [61%]). Only 50% of studies explicitly described a theoretical EJ framework in the background, methods, or discussion and just 10% explicitly stated a framework in all three sections. Among exposure studies, the most common area-level exposure was air pollution (40%), whereas chemicals predominated personal exposure studies (35%). Overall, the most common method used for exposure-only EJ analyses was main effect regression modeling (50%); for epidemiologic studies the most common method was effect modification (58%), where an analysis evaluated a health disparity variable as an effect modifier. Based on the results of this scoping review, current methods in public health EJ studies could be bolstered by integrating expertise from other fields (e.g., sociology), conducting community-based participatory research and intervention studies, and using more rigorous, theory-based, and solution-oriented statistical research methods.
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Affiliation(s)
- Joan A. Casey
- University of Washington School of Public Health, Seattle, WA USA
- Columbia University Mailman School of Public Health, New York, NY USA
| | - Misbath Daouda
- Columbia University Mailman School of Public Health, New York, NY USA
| | - Ryan S. Babadi
- Department of Environmental Health, Harvard T.H. Chan School of Public Health, Boston, USA
| | - Vivian Do
- Columbia University Mailman School of Public Health, New York, NY USA
| | - Nina M. Flores
- Columbia University Mailman School of Public Health, New York, NY USA
| | - Isa Berzansky
- Department of Environmental Health, Harvard T.H. Chan School of Public Health, Boston, USA
| | - David J.X. González
- Department of Environmental Science, Policy & Management and School of Public Health, University of California, Berkeley, Berkeley, CA 94720 USA
| | | | - Tamarra James-Todd
- Department of Environmental Health, Harvard T.H. Chan School of Public Health, Boston, USA
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16
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Williams KN, Quinn A, North H, Wang J, Pillarisetti A, Thompson LM, Díaz-Artiga A, Balakrishnan K, Thangavel G, Rosa G, Ndagijimana F, Underhill LJ, Kirby MA, Puzzolo E, Hossen S, Waller LA, Peel JL, Rosenthal JP, Clasen TF, Harvey SA, Checkley W. Fidelity and adherence to a liquefied petroleum gas stove and fuel intervention: The multi-country Household Air Pollution Intervention Network (HAPIN) trial. ENVIRONMENT INTERNATIONAL 2023; 179:108160. [PMID: 37660633 PMCID: PMC10512198 DOI: 10.1016/j.envint.2023.108160] [Citation(s) in RCA: 3] [Impact Index Per Article: 3.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 05/21/2023] [Revised: 07/24/2023] [Accepted: 08/17/2023] [Indexed: 09/05/2023]
Abstract
BACKGROUND Reducing household air pollution (HAP) to levels associated with health benefits requires nearly exclusive use of clean cooking fuels and abandonment of traditional biomass fuels. METHODS The Household Air Pollution Intervention Network (HAPIN) trial randomized 3,195 pregnant women in Guatemala, India, Peru, and Rwanda to receive a liquefied petroleum gas (LPG) stove intervention (n = 1,590), with controls expected to continue cooking with biomass fuels (n = 1,605). We assessed fidelity to intervention implementation and participant adherence to the intervention starting in pregnancy through the infant's first birthday using fuel delivery and repair records, surveys, observations, and temperature-logging stove use monitors (SUMs). RESULTS Fidelity and adherence to the HAPIN intervention were high. Median time required to refill LPG cylinders was 1 day (interquartile range 0-2). Although 26% (n = 410) of intervention participants reported running out of LPG at some point, the number of times was low (median: 1 day [Q1, Q3: 1, 2]) and mostly limited to the first four months of the COVID-19 pandemic. Most repairs were completed on the same day as problems were reported. Traditional stove use was observed in only 3% of observation visits, and 89% of these observations were followed up with behavioral reinforcement. According to SUMs data, intervention households used their traditional stove a median of 0.4% of all monitored days, and 81% used the traditional stove < 1 day per month. Traditional stove use was slightly higher post-COVID-19 (detected on a median [Q1, Q3] of 0.0% [0.0%, 3.4%] of days) than pre-COVID-19 (0.0% [0.0%, 1.6%] of days). There was no significant difference in intervention adherence pre- and post-birth. CONCLUSION Free stoves and an unlimited supply of LPG fuel delivered to participating homes combined with timely repairs, behavioral messaging, and comprehensive stove use monitoring contributed to high intervention fidelity and near-exclusive LPG use within the HAPIN trial.
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Affiliation(s)
- Kendra N Williams
- Division of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, MD, USA; Center for Global Non-Communicable Disease Research and Training, School of Medicine, Johns Hopkins University, Baltimore, MD, USA
| | | | - Hayley North
- Fogarty International Center, National Institutes of Health, Bethesda, MD, USA
| | - Jiantong Wang
- Department of Biostatistics and Bioinformatics, Rollins School of Public Health, Emory University, Atlanta, GA, USA
| | - Ajay Pillarisetti
- Division of Environmental Health Sciences, University of California at Berkeley, Berkeley, CA, USA
| | - Lisa M Thompson
- Nell Hodgson Woodruff School of Nursing, Emory University, Atlanta, GA, USA
| | - Anaité Díaz-Artiga
- Center for Health Studies, Universidad del Valle de Guatemala, Guatemala City, Guatemala
| | - Kalpana Balakrishnan
- ICMR Center for Advanced Research on Air Quality, Climate and Health, Department of Environmental Health Engineering, Sri Ramachandra Institute of Higher Education and Research, Chennai, India
| | - Gurusamy Thangavel
- ICMR Center for Advanced Research on Air Quality, Climate and Health, Department of Environmental Health Engineering, Sri Ramachandra Institute of Higher Education and Research, Chennai, India
| | - Ghislaine Rosa
- Public Health, Policy & Systems, Institute of Population Health, University of Liverpool, Liverpool, UK
| | | | - Lindsay J Underhill
- Cardiovascular Division, John T. Milliken Department of Medicine, Washington University School of Medicine in St. Louis, MO, USA
| | - Miles A Kirby
- Department of Global Health and Population, Harvard University T.H. Chan School of Public Health, Boston, MA, USA
| | - Elisa Puzzolo
- Public Health, Policy & Systems, Institute of Population Health, University of Liverpool, Liverpool, UK
| | - Shakir Hossen
- Division of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, MD, USA; Center for Global Non-Communicable Disease Research and Training, School of Medicine, Johns Hopkins University, Baltimore, MD, USA
| | - Lance A Waller
- Department of Biostatistics and Bioinformatics, Rollins School of Public Health, Emory University, Atlanta, GA, USA
| | - Jennifer L Peel
- Department of Environmental and Radiological Health Sciences, Colorado State University, Fort Collins, CO, USA
| | - Joshua P Rosenthal
- Fogarty International Center, National Institutes of Health, Bethesda, MD, USA
| | - Thomas F Clasen
- Gangarosa Department of Environmental Health, Rollins School of Public Health, Emory University, Atlanta, GA, USA
| | - Steven A Harvey
- Department of International Health, Bloomberg School of Public Health, Johns Hopkins University, Baltimore, MD, USA
| | - William Checkley
- Division of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, MD, USA; Center for Global Non-Communicable Disease Research and Training, School of Medicine, Johns Hopkins University, Baltimore, MD, USA.
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Kaali S, Jack DW, Mujtaba MN, Chillrud SN, Ae-Ngibise KA, Kinney PL, Boamah Kaali E, Gennings C, Colicino E, Osei M, Wylie BJ, Agyei O, Quinn A, Asante KP, Lee AG. Identifying sensitive windows of prenatal household air pollution on birth weight and infant pneumonia risk to inform future interventions. ENVIRONMENT INTERNATIONAL 2023; 178:108062. [PMID: 37392730 PMCID: PMC10911234 DOI: 10.1016/j.envint.2023.108062] [Citation(s) in RCA: 3] [Impact Index Per Article: 3.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 01/25/2023] [Revised: 06/02/2023] [Accepted: 06/22/2023] [Indexed: 07/03/2023]
Abstract
BACKGROUND Prenatal household air pollution impairs birth weight and increases pneumonia risk however time-varying associations have not been elucidated and may have implications for the timing of public health interventions. METHODS The Ghana Randomized Air Pollution and Health Study (GRAPHS) enrolled 1,414 pregnant women from Kintampo, Ghana and measured personal carbon monoxide (CO) exposure four times over pregnancy. Birth weight was measured within 72-hours of birth. Fieldworkers performed weekly pneumonia surveillance and referred sick children to study physicians. The primary pneumonia outcome was one or more physician-diagnosed severe pneumonia episode in the first year of life. We employed reverse distributed lag models to examine time-varying associations between prenatal CO exposure and birth weight and infant pneumonia risk. RESULTS Analyses included n = 1,196 mother-infant pairs. In models adjusting for child sex; maternal age, body mass index (BMI), ethnicity and parity at enrollment; household wealth index; number of antenatal visits; and evidence of placental malaria, prenatal CO exposures from 15 to 20 weeks gestation were inversely associated with birth weight. Sex-stratified models identified a similar sensitive window in males and a window at 10-weeks gestation in females. In models adjusting for child sex, maternal age, BMI and ethnicity, household wealth index, gestational age at delivery and average postnatal child CO exposure, CO exposure during 34-39 weeks gestation were positively associated with severe pneumonia risk, especially in females. CONCLUSIONS Household air pollution exposures in mid- and late- gestation are associated with lower birth weight and higher pneumonia risk, respectively. These findings support the urgent need for deployment of clean fuel stove interventions beginning in early pregnancy.
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Affiliation(s)
- Seyram Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Bono East Region, Kintampo, Ghana.
| | - Darby W Jack
- Department of Environmental Health Sciences, Mailman School of Public Health at Columbia University, 722 W 168(th) Street, New York, NY 10032, USA
| | - Mohammed N Mujtaba
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Bono East Region, Kintampo, Ghana
| | - Steven N Chillrud
- Lamont-Doherty Earth Observatory at Columbia University, Palisades, NY, USA
| | - Kenneth A Ae-Ngibise
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Bono East Region, Kintampo, Ghana
| | - Patrick L Kinney
- Department of Environmental Health, Boston University School of Public Health, Boston, MA, USA
| | - Ellen Boamah Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Bono East Region, Kintampo, Ghana
| | - Chris Gennings
- Department of Environmental Medicine and Public Health, Icahn School of Medicine at Mount Sinai, New York, NY, USA; Institute for Exposomic Research, Icahn School of Medicine at Mount Sinai, New York, NY, USA
| | - Elena Colicino
- Department of Environmental Medicine and Public Health, Icahn School of Medicine at Mount Sinai, New York, NY, USA
| | - Musah Osei
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Bono East Region, Kintampo, Ghana
| | - Blair J Wylie
- Division of Maternal-Fetal Medicine, Department of Obstetrics and Gynecology, Beth Israel Deaconess Medical Center, Boston, MA, USA
| | - Oscar Agyei
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Bono East Region, Kintampo, Ghana
| | - Ashlinn Quinn
- Berkeley Air Monitoring Group, Fort Collins, CO, USA
| | - Kwaku Poku Asante
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Bono East Region, Kintampo, Ghana
| | - Alison G Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, NY, USA
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Pillarisetti A, Ye W, Balakrishnan K, Rosa G, Díaz-Artiga A, Underhill LJ, Steenland K, Peel JL, Kirby MA, McCracken J, Waller L, Chang H, Wang J, Dusabimana E, Ndagijimana F, Sambandam S, Mukhopadhyay K, Kearns KA, Campbell D, Kremer J, Rosenthal J, Ghosh A, Clark M, Checkley W, Clasen T, Naeher L, Piedrahita R, Johnson M. Post-birth exposure contrasts for children during the Household Air Pollution Intervention Network randomized controlled trial. MEDRXIV : THE PREPRINT SERVER FOR HEALTH SCIENCES 2023:2023.07.04.23292226. [PMID: 37461598 PMCID: PMC10350133 DOI: 10.1101/2023.07.04.23292226] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 08/24/2023]
Abstract
Exposure to household air pollution is a leading cause of ill-health globally. The Household Air Pollution Intervention Network (HAPIN) randomized controlled trial evaluated the impact of a free liquefied petroleum gas stove and fuel intervention on birth outcomes and maternal and child health. As part of HAPIN, an extensive exposure assessment was conducted. Here, we report on PM 2.5 and CO exposures of young children (≤ 15 months old) reconstructed using a Bluetooth-beacon based time-activity monitoring system coupled with microenvironmental pollutant monitors. Median (IQR) exposures to PM 2.5 were 65.1 (33 - 128.2) µg/m 3 in the control group and 22.9 (17.2 - 35.3) µg/m3 in the intervention group; for CO, median (IQR) exposures were 1.1 (0.3 - 2.9) ppm and 0.2 (0 - 0.7) ppm for control and intervention group, respectively. Exposure reductions were stable over time and consistent with previous findings for the children's mothers. In the intervention group, 75% of children's reconstructed exposures were below the WHO interim target guideline value of 35 µg/m 3 , while 26% were below the standard in the control group. Our findings suggest that an LPG fuel and stove intervention can substantially reduce children's exposure to household air pollution.
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19
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Williams KN, Quinn A, North H, Wang J, Pillarisetti A, Thompson LM, Díaz-Artiga A, Balakrishnan K, Thangavel G, Rosa G, Ndagijimana F, Underhill LJ, Kirby MA, Puzzolo E, Hossen S, Waller LA, Peel JL, Rosenthal JP, Clasen TF, Harvey SA, Checkley W. Fidelity and adherence to a liquefied petroleum gas stove and fuel intervention: the multi-country Household Air Pollution Intervention Network (HAPIN) trial. MEDRXIV : THE PREPRINT SERVER FOR HEALTH SCIENCES 2023:2023.06.20.23291670. [PMID: 37425899 PMCID: PMC10327189 DOI: 10.1101/2023.06.20.23291670] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 07/11/2023]
Abstract
Background Reducing household air pollution (HAP) to levels associated with health benefits requires nearly exclusive use of clean cooking fuels and abandonment of traditional biomass fuels. Methods The Household Air Pollution Intervention Network (HAPIN) trial randomized 3,195 pregnant women in Guatemala, India, Peru, and Rwanda to receive a liquefied petroleum gas (LPG) stove intervention (n=1,590), with controls expected to continue cooking with biomass fuels (n=1,605). We assessed fidelity to intervention implementation and participant adherence to the intervention starting in pregnancy through the infant's first birthday using fuel delivery and repair records, surveys, observations, and temperature-logging stove use monitors (SUMs). Results Fidelity and adherence to the HAPIN intervention were high. Median time required to refill LPG cylinders was 1 day (interquartile range 0-2). Although 26% (n=410) of intervention participants reported running out of LPG at some point, the number of times was low (median: 1 day [Q1, Q3: 1, 2]) and mostly limited to the first four months of the COVID-19 pandemic. Most repairs were completed on the same day as problems were reported. Traditional stove use was observed in only 3% of observation visits, and 89% of these observations were followed up with behavioral reinforcement. According to SUMs data, intervention households used their traditional stove a median of 0.4% of all monitored days, and 81% used the traditional stove <1 day per month. Traditional stove use was slightly higher post-COVID-19 (detected on a median [Q1, Q3] of 0.0% [0.0%, 3.4%] of days) than pre-COVID-19 (0.0% [0.0%, 1.6%] of days). There was no significant difference in intervention adherence pre- and post-birth. Conclusion Free stoves and an unlimited supply of LPG fuel delivered to participating homes combined with timely repairs, behavioral messaging, and comprehensive stove use monitoring contributed to high intervention fidelity and near-exclusive LPG use within the HAPIN trial.
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Affiliation(s)
- Kendra N. Williams
- Division of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, MD, USA
- Center for Global Non-Communicable Disease Research and Training, School of Medicine, Johns Hopkins University, Baltimore, MD, USA
| | | | - Hayley North
- Fogarty International Center, National Institutes of Health, Bethesda, MD, USA
| | - Jiantong Wang
- Department of Biostatistics and Bioinformatics, Rollins School of Public Health, Emory University, Atlanta, GA, USA
| | - Ajay Pillarisetti
- Division of Environmental Health Sciences, University of California at Berkeley, Berkeley, CA, USA
| | - Lisa M. Thompson
- Nell Hodgson Woodruff School of Nursing, Emory University, Atlanta, GA, USA
| | - Anaité Díaz-Artiga
- Center for Health Studies, Universidad del Valle de Guatemala, Guatemala City, Guatemala
| | - Kalpana Balakrishnan
- ICMR Center for Advanced Research on Air Quality, Climate and Health, Department of Environmental Health Engineering, Sri Ramachandra Institute of Higher Education and Research, Chennai, India
| | - Gurusamy Thangavel
- ICMR Center for Advanced Research on Air Quality, Climate and Health, Department of Environmental Health Engineering, Sri Ramachandra Institute of Higher Education and Research, Chennai, India
| | - Ghislaine Rosa
- Public Health, Policy & Systems, Institute of Population Health, University of Liverpool, Liverpool, UK
| | | | - Lindsay J. Underhill
- Cardiovascular Division, John T. Milliken Department of Medicine, Washington University School of Medicine in St. Louis, MO, USA
| | - Miles A. Kirby
- Department of Global Health and Population, Harvard University T.H. Chan School of Public Health, Boston, MA, USA
| | - Elisa Puzzolo
- Public Health, Policy & Systems, Institute of Population Health, University of Liverpool, Liverpool, UK
| | - Shakir Hossen
- Division of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, MD, USA
- Center for Global Non-Communicable Disease Research and Training, School of Medicine, Johns Hopkins University, Baltimore, MD, USA
| | - Lance A. Waller
- Department of Biostatistics and Bioinformatics, Rollins School of Public Health, Emory University, Atlanta, GA, USA
| | - Jennifer L. Peel
- Department of Environmental and Radiological Health Sciences, Colorado State University, Fort Collins, CO, USA
| | - Joshua P. Rosenthal
- Fogarty International Center, National Institutes of Health, Bethesda, MD, USA
| | - Thomas F. Clasen
- Gangarosa Department of Environmental Health, Rollins School of Public Health, Emory University, Atlanta, GA, USA
| | - Steven A. Harvey
- Department of International Health, Bloomberg School of Public Health, Johns Hopkins University, Baltimore, MD, USA
| | - William Checkley
- Division of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, MD, USA
- Center for Global Non-Communicable Disease Research and Training, School of Medicine, Johns Hopkins University, Baltimore, MD, USA
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20
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Mawusi SK, Shrestha P, Xue C, Liu G. A comprehensive review of the production, adoption and sustained use of biomass pellets in Ghana. Heliyon 2023; 9:e16416. [PMID: 37292302 PMCID: PMC10245022 DOI: 10.1016/j.heliyon.2023.e16416] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/20/2023] [Revised: 05/15/2023] [Accepted: 05/16/2023] [Indexed: 06/10/2023] Open
Abstract
Ghana's Renewable Energy Master Plan of 2019 includes the production and use of biomass pellets. However, pellets have neither been developed commercially nor included in Ghana's energy mix. This paper reviewed the prospect of production, adoption and sustained use of pellets in Ghana. Besides having abundant biomass resources, Ghana has high market demand and relevant policies for pellet development. The production of pellets can significantly replace traditional household biomass demand and improve environmental and health quality. However, the production and use of pellets are limited due to technical, financial, social and policy issues. Our estimates show that 3% of the annual national average household income will be spent on pellet demand for cooking, with the highest burden on rural households in Ghana. Practical measures are required since the cost of pellets and gasifier stoves may limit pellet adoption and use in Ghana. Based on study findings, it is recommended that the government of Ghana establishes a robust supply chain and provides infrastructure for pellet production and use. Existing renewable energy policies should be reviewed to remove ambiguities, attract investment, and build capacity in the renewable energy sector. Apart from raising public awareness of the benefits of pellets use, the government of Ghana should ensure that continuous and thorough impact assessments are undertaken to assess the implications of pellet production and use. This review will inform policymaking on achieving sustainable production, adoption and use of pellets and assess Ghana's contribution to achieving the United Nations' sustainable development goals.
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Affiliation(s)
- Sylvester Kosi Mawusi
- Biomass Energy and Environmental Engineering Research Center, College of Engineering, Beijing University of Chemical Technology, Beijing 100029, PR China
| | - Prabin Shrestha
- Biomass Energy and Environmental Engineering Research Center, College of Engineering, Beijing University of Chemical Technology, Beijing 100029, PR China
| | - Chunyu Xue
- Biomass Energy and Environmental Engineering Research Center, College of Engineering, Beijing University of Chemical Technology, Beijing 100029, PR China
| | - Guangqing Liu
- Biomass Energy and Environmental Engineering Research Center, College of Engineering, Beijing University of Chemical Technology, Beijing 100029, PR China
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21
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Gould CF, Mujtaba MN, Yang Q, Boamah-Kaali E, Quinn AK, Manu G, Lee AG, Ae-Ngibise KA, Carrión D, Kaali S, Kinney PL, Jack DW, Chillrud SN, Asante KP. Using time-resolved monitor wearing data to study the effect of clean cooking interventions on personal air pollution exposures. JOURNAL OF EXPOSURE SCIENCE & ENVIRONMENTAL EPIDEMIOLOGY 2023; 33:386-395. [PMID: 36274187 DOI: 10.1038/s41370-022-00483-0] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 02/18/2022] [Revised: 09/21/2022] [Accepted: 09/22/2022] [Indexed: 06/03/2023]
Abstract
BACKGROUND Personal monitoring can estimate individuals' exposures to environmental pollutants; however, accuracy depends on consistent monitor wearing, which is under evaluated. OBJECTIVE To study the association between device wearing and personal air pollution exposure. METHODS Using personal device accelerometry data collected in the context of a randomized cooking intervention in Ghana with three study arms (control, improved biomass, and liquified petroleum gas (LPG) arms; N = 1414), we account for device wearing to infer parameters of PM2.5 and CO exposure. RESULTS Device wearing was positively associated with exposure in the control and improved biomass arms, but weakly in the LPG arm. Inferred community-level air pollution was similar across study arms (~45 μg/m3). The estimated direct contribution of individuals' cooking to PM2.5 exposure was 64 μg/m3 for the control arm, 74 μg/m3 for improved biomass, and 6 μg/m3 for LPG. Arm-specific average PM2.5 exposure at near-maximum wearing was significantly lower in the LPG arm as compared to the improved biomass and control arms. Analysis of personal CO exposure mirrored PM2.5 results. CONCLUSIONS Personal monitor wearing was positively associated with average air pollution exposure, emphasizing the importance of high device wearing during monitoring periods and directly assessing device wearing for each deployment. SIGNIFICANCE We demonstrate that personal monitor wearing data can be used to refine exposure estimates and infer unobserved parameters related to the timing and source of environmental exposures. IMPACT STATEMENTS In a cookstove trial among pregnant women, time-resolved personal air pollution device wearing data were used to refine exposure estimates and infer unobserved exposure parameters, including community-level air pollution, the direct contribution of cooking to personal exposure, and the effect of clean cooking interventions on personal exposure. For example, in the control arm, while average 48 h personal PM2.5 exposure was 77 μg/m3, average predicted exposure at near-maximum daytime device wearing was 108 μg/m3 and 48 μg/m3 at zero daytime device wearing. Wearing-corrected average 48 h personal PM2.5 exposures were 50% lower in the LPG arm than the control and improved biomass and inferred direct cooking contributions to personal PM2.5 from LPG were 90% lower than the other arms. Our recommendation is that studies assessing personal exposures should examine the direct association between device wearing and estimated mean personal exposure.
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Affiliation(s)
- Carlos F Gould
- Department of Environmental Health Sciences, Columbia University Mailman School of Public Health, New York, NY, USA
- Department of Earth System Science, Stanford University, Stanford, CA, USA
| | - Mohammed Nuhu Mujtaba
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Qiang Yang
- Lamont-Doherty Earth Observatory of Columbia University, Palisades, NY, USA
- Now at Elsevier Global STM Journals, New York, USA
| | - Ellen Boamah-Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | | | - Grace Manu
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Alison G Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, NY, USA
| | - Kenneth Ayuurebobi Ae-Ngibise
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Daniel Carrión
- Department of Environmental Health Sciences, Yale University School of Public Health, New Haven, CT, USA
| | - Seyram Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | | | - Darby W Jack
- Department of Environmental Health Sciences, Columbia University Mailman School of Public Health, New York, NY, USA
| | - Steven N Chillrud
- Lamont-Doherty Earth Observatory of Columbia University, Palisades, NY, USA.
| | - Kwaku Poku Asante
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
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22
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Balakrishnan K, Steenland K, Clasen T, Chang H, Johnson M, Pillarisetti A, Ye W, Naeher LP, Diaz-Artiga A, McCracken JP, Thompson LM, Rosa G, Kirby MA, Thangavel G, Sambandam S, Mukhopadhyay K, Puttaswamy N, Aravindalochanan V, Garg S, Ndagijimana F, Hartinger S, Underhill LJ, Kearns KA, Campbell D, Kremer J, Waller L, Jabbarzadeh S, Wang J, Chen Y, Rosenthal J, Quinn A, Papageorghiou AT, Ramakrishnan U, Howards PP, Checkley W, Peel JL. Exposure-response relationships for personal exposure to fine particulate matter (PM 2·5), carbon monoxide, and black carbon and birthweight: an observational analysis of the multicountry Household Air Pollution Intervention Network (HAPIN) trial. Lancet Planet Health 2023; 7:e387-e396. [PMID: 37164515 PMCID: PMC10186177 DOI: 10.1016/s2542-5196(23)00052-9] [Citation(s) in RCA: 9] [Impact Index Per Article: 9.0] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/18/2022] [Revised: 02/19/2023] [Accepted: 03/02/2023] [Indexed: 05/12/2023]
Abstract
BACKGROUND Household air pollution (HAP) from solid fuel use is associated with adverse birth outcomes, but data for exposure-response relationships are scarce. We examined associations between HAP exposures and birthweight in rural Guatemala, India, Peru, and Rwanda during the Household Air Pollution Intervention Network (HAPIN) trial. METHODS The HAPIN trial recruited pregnant women (9-<20 weeks of gestation) in rural Guatemala, India, Peru, and Rwanda and randomly allocated them to receive a liquefied petroleum gas stove or not (ie, and continue to use biomass fuel). The primary outcomes were birthweight, length-for-age, severe pneumonia, and maternal systolic blood pressure. In this exposure-response subanalysis, we measured 24-h personal exposures to PM2·5, carbon monoxide, and black carbon once pre-intervention (baseline) and twice post-intervention (at 24-28 weeks and 32-36 weeks of gestation), as well as birthweight within 24 h of birth. We examined the relationship between the average prenatal exposure and birthweight or weight-for-gestational age Z scores using multivariate-regression models, controlling for the mother's age, nulliparity, diet diversity, food insecurity, BMI, the mother's education, neonate sex, haemoglobin, second-hand smoke, and geographical indicator for randomisation strata. FINDINGS Between March, 2018, and February, 2020, 3200 pregnant women were recruited. An interquartile increase in the average prenatal exposure to PM2·5 (74·5 μg/m3) was associated with a reduction in birthweight and gestational age Z scores (birthweight: -14·8 g [95% CI -28·7 to -0·8]; gestational age Z scores: -0·03 [-0·06 to 0·00]), as was an interquartile increase in black carbon (7·3 μg/m3; -21·9 g [-37·7 to -6·1]; -0·05 [-0·08 to -0·01]). Carbon monoxide exposure was not associated with these outcomes (1·7; -3·1 [-12·1 to 5·8]; -0·003 [-0·023 to 0·017]). INTERPRETATION Continuing efforts are needed to reduce HAP exposure alongside other drivers of low birthweight in low-income and middle-income countries. FUNDING US National Institutes of Health (1UM1HL134590) and the Bill & Melinda Gates Foundation (OPP1131279).
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Affiliation(s)
- Kalpana Balakrishnan
- Department of Environmental Health Engineering, ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Institute for Higher Education and Research (Deemed University), Chennai, India.
| | - Kyle Steenland
- Gangarosa Department of Environmental Health, Emory University, Atlanta, GA, USA
| | - Thomas Clasen
- Gangarosa Department of Environmental Health, Emory University, Atlanta, GA, USA
| | - Howard Chang
- Department of Biostatistics and Bioinformatics, Emory University, Atlanta, GA, USA
| | | | - Ajay Pillarisetti
- Division of Environmental Health Sciences, School of Public Health, University of California, Berkeley, CA, USA
| | - Wenlu Ye
- Division of Environmental Health Sciences, School of Public Health, University of California, Berkeley, CA, USA
| | - Luke P Naeher
- Department of Environmental Health Sciences, University of Georgia, Athens, GA, USA
| | - Anaite Diaz-Artiga
- Center for Health Studies, Universidad del Valle de Guatemala, Guatemala City, Guatemala
| | - John P McCracken
- Department of Environmental Health Sciences, University of Georgia, Athens, GA, USA
| | - Lisa M Thompson
- Rollins School of Public Health and Nell Hodgson Woodruff School of Nursing, Emory University, Atlanta, GA, USA
| | - Ghislaine Rosa
- Department of Infectious and Tropical Diseases, London School of Hygiene & Tropical Medicine, London, UK
| | - Miles A Kirby
- Department of Global Health and Population, Harvard T H Chan School of Public Health, Harvard University, Boston, MA, USA
| | - Gurusamy Thangavel
- Department of Environmental Health Engineering, ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Institute for Higher Education and Research (Deemed University), Chennai, India
| | - Sankar Sambandam
- Department of Environmental Health Engineering, ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Institute for Higher Education and Research (Deemed University), Chennai, India
| | - Krishnendu Mukhopadhyay
- Department of Environmental Health Engineering, ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Institute for Higher Education and Research (Deemed University), Chennai, India
| | - Naveen Puttaswamy
- Department of Environmental Health Engineering, ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Institute for Higher Education and Research (Deemed University), Chennai, India
| | - Vigneswari Aravindalochanan
- Department of Environmental Health Engineering, ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Institute for Higher Education and Research (Deemed University), Chennai, India
| | - Sarada Garg
- Department of Environmental Health Engineering, ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Institute for Higher Education and Research (Deemed University), Chennai, India
| | | | - Stella Hartinger
- Division of Pulmonary and Critical Care, School of Medicine and Center for Global Non-Communicable Disease Research and Training, Johns Hopkins University, Baltimore, MD, USA
| | - Lindsay J Underhill
- Cardiovascular Division, Washington University School of Medicine, St Louis, MO, USA
| | - Katherine A Kearns
- Department of Environmental Health Sciences, University of Georgia, Athens, GA, USA
| | - Devan Campbell
- Department of Environmental Health Sciences, University of Georgia, Athens, GA, USA
| | - Jacob Kremer
- Department of Environmental Health Sciences, University of Georgia, Athens, GA, USA
| | - Lance Waller
- Department of Biostatistics and Bioinformatics, Emory University, Atlanta, GA, USA
| | - Shirin Jabbarzadeh
- Department of Biostatistics and Bioinformatics, Emory University, Atlanta, GA, USA
| | - Jiantong Wang
- Department of Biostatistics and Bioinformatics, Emory University, Atlanta, GA, USA
| | - Yunyun Chen
- Department of Biostatistics and Bioinformatics, Emory University, Atlanta, GA, USA
| | - Joshua Rosenthal
- Division of Epidemiology and Population Studies, Fogarty International Center, National Institutes of Health, Bethesda, MD, USA
| | | | - Aris T Papageorghiou
- Nuffield Department of Women's and Reproductive Health, University of Oxford, Oxford, UK
| | - Usha Ramakrishnan
- Hubert Department of Global Health, Emory University, Atlanta, GA, USA
| | | | - William Checkley
- Division of Pulmonary and Critical Care, School of Medicine and Center for Global Non-Communicable Disease Research and Training, Johns Hopkins University, Baltimore, MD, USA
| | - Jennifer L Peel
- Department of Environmental and Radiological Health Sciences, Colorado State University, Fort Collins, CO, USA
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Asante KP, Wylie BJ, Oppong FB, Quinn A, Gyaase S, Lee AG, Ae-Ngibise KA, Burkart K, Boamah-Kaali EA, Kaali S, Chillrud S, Kinney PL, Owusu-Agyei S, Jack D. Association between malaria and household air pollution interventions in a predominantly rural area of Ghana. Malar J 2023; 22:106. [PMID: 36959655 PMCID: PMC10037900 DOI: 10.1186/s12936-022-04431-z] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/29/2022] [Accepted: 12/24/2022] [Indexed: 03/25/2023] Open
Abstract
BACKGROUND Though anecdotal evidence suggests that smoke from HAP has a repellent effect on mosquitoes, very little work has been done to assess the effect of biomass smoke on malaria infection. The study, therefore, sought to investigate the hypothesis that interventions to reduce household biomass smoke may have an unintended consequence of increasing placental malaria or increase malaria infection in the first year of life. METHODS This provides evidence from a randomized controlled trial among 1414 maternal-infant pairs in the Kintampo North and Kintampo South administrative areas of Ghana. Logistic regression was used to assess the association between study intervention assignment (LPG, Biolite or control) and placental malaria. Finally, an extended Cox model was used to assess the association between study interventions and all episodes of malaria parasitaemia in the first year of infant's life. RESULTS The prevalence of placental malaria was 24.6%. Out of this, 20.8% were acute infections, 18.7% chronic infections and 60.5% past infections. The study found no statistical significant association between the study interventions and all types of placental malaria (OR = 0.88; 95% CI 0.59-1.30). Of the 1165 infants, 44.6% experienced at least one episode of malaria parasitaemia in the first year of life. The incidence of first and/or only episode of malaria parasitaemia was however found to be similar among the study arms. CONCLUSION The findings suggest that cookstove interventions for pregnant women and infants, when combined with additional malaria prevention strategies, do not lead to an increased risk of malaria among pregnant women and infants.
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Affiliation(s)
- Kwaku Poku Asante
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana.
| | - Blair J Wylie
- Department of Obstetrics and Gynecology PH Building, Columbia University Medical Center, 16th Floor 622 West 168th Street, New York, NY, 10032, USA
| | - Felix B Oppong
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Ashlinn Quinn
- Berkeley Air Monitoring Group, 1935 Addison St., Suite A, Berkeley, CA, 94704, USA
| | - Stephaney Gyaase
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Alison G Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, NY, USA
| | - Kenneth Ayuurebobi Ae-Ngibise
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Katrin Burkart
- Institute for Health Metrics and Evaluation, University of Washington, 2301 Fifth Ave., Seattle, WA, 98121, USA
| | - Ellen Abrafi Boamah-Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Seyram Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Steven Chillrud
- Lamont-Doherty Earth Observatory at Columbia University, Palisades, NY, USA
| | - Patrick L Kinney
- Department of Environmental Health, Boston University School of Public Health, Boston, MA, USA
| | - Seth Owusu-Agyei
- Institute of Health Research, University of Health and Allied Sciences, Ho, Ghana
| | - Darby Jack
- Department of Environmental Health Sciences, Mailman School of Public Health at Columbia University, 722 W 168th Street, New York, NY, 10032, USA
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24
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Gould CF, Bejarano ML, Kioumourtzoglou MA, Lee AG, Pillarisetti A, Schlesinger SB, Terán E, Valarezo A, Jack DW. Widespread Clean Cooking Fuel Scale-Up and under-5 Lower Respiratory Infection Mortality: An Ecological Analysis in Ecuador, 1990-2019. ENVIRONMENTAL HEALTH PERSPECTIVES 2023; 131:37017. [PMID: 36989076 PMCID: PMC10056314 DOI: 10.1289/ehp11016] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Figures] [Subscribe] [Scholar Register] [Received: 01/26/2022] [Revised: 01/09/2023] [Accepted: 02/10/2023] [Indexed: 05/18/2023]
Abstract
BACKGROUND Nationwide household transitions to the use of clean-burning cooking fuels are a promising pathway to reducing under-5 lower respiratory infection (LRI) mortality, the leading cause of child mortality globally, but such transitions are rare and evidence supporting an association between increased clean fuel use and improved health is limited. OBJECTIVES This study aimed to investigate the association between increased primary clean cooking fuel use and under-5 LRI mortality in Ecuador between 1990 and 2019. METHODS We documented cooking fuel use and cause-coded child mortalities at the canton (county) level in Ecuador from 1990 to 2019 (in four periods, 1988-1992, 1999-2003, 2008-2012, and 2015-2019). We characterized the association between clean fuel use and the rate of under-5 LRI mortalities at the canton level using quasi-Poisson generalized linear and generalized additive models, accounting for potential confounding variables that characterize wealth, urbanization, and child health care and vaccination rates, as well as canton and period fixed effects. We estimated averted under-5 LRI mortalities accrued over 30 y by predicting a counterfactual count of canton-period under-5 LRI mortalities were clean fuel use to not have increased and comparing with predicted canton-period under-5 LRI mortalities from our model and observed data. RESULTS From 1990 to 2019, the proportion of households primarily using a clean cooking fuel increased from 59% to 95%, and under-5 LRI mortality fell from 28 to 7 per 100,000 under-5 population. Canton-level clean fuel use was negatively associated with under-5 LRI mortalities in linear and nonlinear models. The nonlinear association suggested a threshold at approximately 60% clean fuel use, above which there was a negative association. Increases in clean fuel use between 1990 and 2019 were associated with an estimated 7,300 averted under-5 LRI mortalities (95% confidence interval: 2,600, 12,100), accounting for nearly 20% of the declines in under-5 LRI mortality observed in Ecuador over the study period. DISCUSSION Our findings suggest that the widespread household transition from using biomass to clean-burning fuels for cooking reduced under-5 LRI mortalities in Ecuador over the last 30 y. https://doi.org/10.1289/EHP11016.
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Affiliation(s)
- Carlos F. Gould
- Department of Environmental Health Sciences, Columbia University Mailman School of Public Health, New York, New York, USA
- Department of Earth System Science, Stanford University, Stanford, California, USA
| | - M. Lorena Bejarano
- Institute for Energy and Materials, Department of Mechanical Engineering, Universidad San Francisco de Quito, Quito, Ecuador
| | - Marianthi-Anna Kioumourtzoglou
- Department of Environmental Health Sciences, Columbia University Mailman School of Public Health, New York, New York, USA
| | - Alison G. Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, New York, USA
| | - Ajay Pillarisetti
- Gangarosa Department of Environmental Health Science, Emory University Rollins School of Public Health, Atlanta, Georgia, USA
- Environmental Health Sciences, University of California, Berkeley, California, USA
| | | | - Enrique Terán
- Colegio de Ciencias de la Salud, Universidad San Francisco de Quito, Quito, Ecuador
| | - Alfredo Valarezo
- Institute for Energy and Materials, Department of Mechanical Engineering, Universidad San Francisco de Quito, Quito, Ecuador
| | - Darby W. Jack
- Department of Environmental Health Sciences, Columbia University Mailman School of Public Health, New York, New York, USA
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Xia S, Liu J, Zhang J, Du Y, Chen J, Jin L, Wang L, Zhang X, Ren A. Association between cooking fuel and folate insufficiency among pregnant women in Northern China. INTERNATIONAL JOURNAL OF ENVIRONMENTAL HEALTH RESEARCH 2023; 33:219-229. [PMID: 34915782 DOI: 10.1080/09603123.2021.2014419] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 07/27/2021] [Accepted: 12/01/2021] [Indexed: 06/14/2023]
Abstract
This study explored whether using a coal or biomass stove for cooking was associated with a greater risk of red blood cell (RBC) folate insufficiency among pregnant women compared to using clean energy. A researcher-designed questionnaire was used to collect information on exposure-related factors and confounding factors. RBC folate concentrations were examined by microbiological assay. Binary logistic regression analysis was used to identify factors related to RBC folate insufficiency. The use of coal or firewood for cooking was associated with an increased risk of RBC folate insufficiency (<906 nmol/L) compared to gas. In subgroup analyses, associations between the use of polluting cooking fuels and folate insufficiency were positive for both urban and rural residents and statistically significant for rural women. Efforts to promote the use of clean energy and proper ventilation, especially in rural areas, are recommended to improve the health of pregnant women and their offspring.
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Affiliation(s)
- Shuangbo Xia
- Institute of Reproductive and Child Health/Key Laboratory of Reproductive Health, National Health Commission of the People's Republic of China, Beijing, China
- Department of Epidemiology and Biostatistics, School of Public Health, Peking University, Beijing, China
| | - Jufen Liu
- Institute of Reproductive and Child Health/Key Laboratory of Reproductive Health, National Health Commission of the People's Republic of China, Beijing, China
- Department of Epidemiology and Biostatistics, School of Public Health, Peking University, Beijing, China
| | - Jinjuan Zhang
- Institute of Reproductive and Child Health/Key Laboratory of Reproductive Health, National Health Commission of the People's Republic of China, Beijing, China
- Department of Epidemiology and Biostatistics, School of Public Health, Peking University, Beijing, China
| | - Yushan Du
- Institute of Reproductive and Child Health/Key Laboratory of Reproductive Health, National Health Commission of the People's Republic of China, Beijing, China
- Department of Epidemiology and Biostatistics, School of Public Health, Peking University, Beijing, China
| | - Jingsong Chen
- Institute of Reproductive and Child Health/Key Laboratory of Reproductive Health, National Health Commission of the People's Republic of China, Beijing, China
- Department of Epidemiology and Biostatistics, School of Public Health, Peking University, Beijing, China
| | - Lei Jin
- Institute of Reproductive and Child Health/Key Laboratory of Reproductive Health, National Health Commission of the People's Republic of China, Beijing, China
- Department of Epidemiology and Biostatistics, School of Public Health, Peking University, Beijing, China
| | - Linlin Wang
- Institute of Reproductive and Child Health/Key Laboratory of Reproductive Health, National Health Commission of the People's Republic of China, Beijing, China
- Department of Epidemiology and Biostatistics, School of Public Health, Peking University, Beijing, China
| | - Xuejuan Zhang
- Health Education Division, Shanxi Children's Hospital/Shanxi Maternal and Child Health Care Hospital, Taiyuan, China
| | - Aiguo Ren
- Institute of Reproductive and Child Health/Key Laboratory of Reproductive Health, National Health Commission of the People's Republic of China, Beijing, China
- Department of Epidemiology and Biostatistics, School of Public Health, Peking University, Beijing, China
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26
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Johnson M, Pillarisetti A, Piedrahita R, Balakrishnan K, Peel JL, Steenland K, Underhill LJ, Rosa G, Kirby MA, Díaz-Artiga A, McCracken J, Clark ML, Waller L, Chang HH, Wang J, Dusabimana E, Ndagijimana F, Sambandam S, Mukhopadhyay K, Kearns KA, Campbell D, Kremer J, Rosenthal JP, Checkley W, Clasen T, Naeher L. Exposure Contrasts of Pregnant Women during the Household Air Pollution Intervention Network Randomized Controlled Trial. ENVIRONMENTAL HEALTH PERSPECTIVES 2022; 130:97005. [PMID: 36112539 PMCID: PMC9480977 DOI: 10.1289/ehp10295] [Citation(s) in RCA: 23] [Impact Index Per Article: 11.5] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 09/10/2021] [Revised: 07/12/2022] [Accepted: 08/19/2022] [Indexed: 05/26/2023]
Abstract
BACKGROUND Exposure to PM 2.5 arising from solid fuel combustion is estimated to result in ∼ 2.3 million premature deaths and 91 million lost disability-adjusted life years annually. Interventions attempting to mitigate this burden have had limited success in reducing exposures to levels thought to provide substantive health benefits. OBJECTIVES This paper reports exposure reductions achieved by a liquified petroleum gas (LPG) stove and fuel intervention for pregnant mothers in the Household Air Pollution Intervention Network (HAPIN) randomized controlled trial. METHODS The HAPIN trial included 3,195 households primarily using biomass for cooking in Guatemala, India, Peru, and Rwanda. Twenty-four-hour exposures to PM 2.5 , carbon monoxide (CO), and black carbon (BC) were measured for pregnant women once before randomization into control (n = 1,605 ) and LPG (n = 1,590 ) arms and twice thereafter (aligned with trimester). Changes in exposure were estimated by directly comparing exposures between intervention and control arms and by using linear mixed-effect models to estimate the impact of the intervention on exposure levels. RESULTS Median postrandomization exposures of particulate matter (PM) with aerodynamic diameter ≤ 2.5 μ m (PM 2.5 ) in the intervention arm were lower by 66% at the first (71.5 vs. 24.1 μ g / m 3 ), and second follow-up visits (69.5 vs. 23.7 μ g / m 3 ) compared to controls. BC exposures were lower in the intervention arm by 72% (9.7 vs. 2.7 μ g / m 3 ) and 70% (9.6 vs. 2.8 μ g / m 3 ) at the first and second follow-up visits, respectively, and carbon monoxide exposure was 82% lower at both visits (1.1 vs. 0.2 ppm ) in comparison with controls. Exposure reductions were consistent over time and were similar across research locations. DISCUSSION Postintervention PM 2.5 exposures in the intervention arm were at the lower end of what has been reported for LPG and other clean fuel interventions, with 69% of PM 2.5 samples falling below the World Health Organization Annual Interim Target 1 of 35 μ g / m 3 . This study indicates that an LPG intervention can reduce PM 2.5 exposures to levels at or below WHO targets. https://doi.org/10.1289/EHP10295.
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Affiliation(s)
| | - Ajay Pillarisetti
- Division of Environmental Health Sciences, School of Public Health, University of California, Berkeley, California, USA
| | | | - Kalpana Balakrishnan
- Department of Environmental Health Engineering, ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Medical College and Research Institute, Sri Ramachandra Institute for Higher Education and Research (Deemed University), Chennai, India
| | - Jennifer L. Peel
- Department of Environmental and Radiological Health Sciences, Colorado State University, Fort Collins, Colorado, USA
| | - Kyle Steenland
- Gangarosa Department of Environmental Health, Rollins School of Public Health, Emory University, Atlanta, Georgia, USA
| | - Lindsay J. Underhill
- Cardiovascular Division, School of Medicine, Washington University, St. Louis, Missouri, USA
| | - Ghislaine Rosa
- Department of Infectious and Tropical Diseases, London School of Hygiene & Tropical Medicine, London, UK
| | - Miles A. Kirby
- Global Health and Population, Harvard T.H. Chan School of Public Health, Boston, Massachusetts, USA
| | | | - John McCracken
- Department of Environmental Health Science, College of Public Health, University of Georgia, Athens, Georgia, USA
| | - Maggie L. Clark
- Department of Environmental and Radiological Health Sciences, Colorado State University, Fort Collins, Colorado, USA
| | - Lance Waller
- Department of Biostatistics and Bioinformatics, Rollins School of Public Health, Emory University, Atlanta, Georgia, USA
| | - Howard H. Chang
- Department of Biostatistics and Bioinformatics, Rollins School of Public Health, Emory University, Atlanta, Georgia, USA
| | - Jiantong Wang
- Department of Biostatistics and Bioinformatics, Rollins School of Public Health, Emory University, Atlanta, Georgia, USA
| | | | | | - Sankar Sambandam
- Department of Environmental Health Engineering, ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Medical College and Research Institute, Sri Ramachandra Institute for Higher Education and Research (Deemed University), Chennai, India
| | - Krishnendu Mukhopadhyay
- Department of Environmental Health Engineering, ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Medical College and Research Institute, Sri Ramachandra Institute for Higher Education and Research (Deemed University), Chennai, India
| | - Katherine A. Kearns
- Department of Environmental Health Science, College of Public Health, University of Georgia, Athens, Georgia, USA
| | - Devan Campbell
- Department of Environmental Health Science, College of Public Health, University of Georgia, Athens, Georgia, USA
| | - Jacob Kremer
- Department of Environmental Health Science, College of Public Health, University of Georgia, Athens, Georgia, USA
| | - Joshua P. Rosenthal
- Division of Epidemiology and Population Studies, Fogarty International Center, National Institutes of Health, Bethesda, Maryland, USA
| | - William Checkley
- Division of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, Maryland, USA
| | - Thomas Clasen
- Gangarosa Department of Environmental Health, Rollins School of Public Health, Emory University, Atlanta, Georgia, USA
| | - Luke Naeher
- Department of Environmental Health Science, College of Public Health, University of Georgia, Athens, Georgia, USA
| | - and the Household Air Pollution Intervention Network (HAPIN) Trial Investigators
- Berkeley Air Monitoring Group, Berkeley, California, USA
- Division of Environmental Health Sciences, School of Public Health, University of California, Berkeley, California, USA
- Department of Environmental Health Engineering, ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Medical College and Research Institute, Sri Ramachandra Institute for Higher Education and Research (Deemed University), Chennai, India
- Department of Environmental and Radiological Health Sciences, Colorado State University, Fort Collins, Colorado, USA
- Gangarosa Department of Environmental Health, Rollins School of Public Health, Emory University, Atlanta, Georgia, USA
- Cardiovascular Division, School of Medicine, Washington University, St. Louis, Missouri, USA
- Department of Infectious and Tropical Diseases, London School of Hygiene & Tropical Medicine, London, UK
- Global Health and Population, Harvard T.H. Chan School of Public Health, Boston, Massachusetts, USA
- Universidad del Valle de Guatemala, Guatemala City, Guatemala
- Department of Environmental Health Science, College of Public Health, University of Georgia, Athens, Georgia, USA
- Department of Biostatistics and Bioinformatics, Rollins School of Public Health, Emory University, Atlanta, Georgia, USA
- Eagle Research Center, Kigali, Rwanda
- Division of Epidemiology and Population Studies, Fogarty International Center, National Institutes of Health, Bethesda, Maryland, USA
- Division of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, Maryland, USA
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27
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Kaali S, Jack DW, Dwommoh Prah RK, Chillrud SN, Mujtaba MN, Kinney PL, Tawiah T, Yang Q, Oppong FB, Gould CF, Osei M, Wylie BJ, Agyei O, Perzanowski MS, Asante KP, Lee AG. Poor early childhood growth is associated with impaired lung function: Evidence from a Ghanaian pregnancy cohort. Pediatr Pulmonol 2022; 57:2136-2146. [PMID: 35614550 PMCID: PMC9398957 DOI: 10.1002/ppul.26015] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 01/24/2022] [Revised: 05/23/2022] [Accepted: 05/24/2022] [Indexed: 11/05/2022]
Abstract
OBJECTIVES Nearly 40% of African children under 5 are stunted. We leveraged the Ghana randomized air pollution and health study (GRAPHS) cohort to examine whether poorer growth was associated with worse childhood lung function. STUDY DESIGN GRAPHS measured infant weight and length at birth and 3, 6, 9,12 months, and 4 years of age. At age 4 years, n = 567 children performed impulse oscillometry. We employed multivariable linear regression to estimate associations between birth and age 4 years anthropometry and lung function. Next, we employed latent class growth analysis (LCGA) to generate growth trajectories through age 4 years. We employed linear regression to examine associations between growth trajectory assignment and lung function. RESULTS Birth weight and age 4 weight-for-age and height-for-age z-scores were inversely associated with airway resistance (e.g., R5 , or total airway resistance: birth weight β = -0.90 cmH2O/L/s, 95% confidence interval [CI]: -1.64, -0.16 per 1 kg increase; and R20 , or large airway resistance: age 4 height-for-age β = -0.40 cmH2O/L/s, 95% CI: -0.57, -0.22 per 1 unit z-score increase). Impaired growth trajectories identified through LCGA were associated with higher airway resistance, even after adjusting for age 4 body mass index. For example, children assigned to a persistently stunted trajectory had higher R5 (β = 2.71 cmH2O/L/s, 95% CI: 1.07, 4.34) and R20 (β = 1.43 cmH2O/L/s, 95% CI: 0.51, 2.36) as compared to normal. CONCLUSION Children with poorer anthropometrics through to age 4 years had higher airway resistance in early childhood. These findings have implications for lifelong lung health, including pneumonia risk in childhood and reduced maximally attainable lung function in adulthood.
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Affiliation(s)
- Seyram Kaali
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Darby W. Jack
- Department of Environmental Health Sciences, Mailman School of Public Health at Columbia University, 722 W 168 Street, New York, NY USA 10032
| | | | - Steven N. Chillrud
- Lamont-Doherty Earth Observatory at Columbia University, Palisades, NY, USA
| | - Mohammed N. Mujtaba
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Patrick L. Kinney
- Department of Environmental Health, Boston University School of Public Health, Boston, MA, USA
| | - Theresa Tawiah
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Qiang Yang
- Lamont-Doherty Earth Observatory at Columbia University, Palisades, NY, USA
| | - Felix B. Oppong
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Carlos F. Gould
- Department of Environmental Health Sciences, Mailman School of Public Health at Columbia University, 722 W 168 Street, New York, NY USA 10032
| | - Musah Osei
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Blair J. Wylie
- Division of Maternal-Fetal Medicine, Department of Obstetrics and Gynecology, Beth Israel Deaconess Medical Center, Boston, MA, USA
| | - Oscar Agyei
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Matthew S. Perzanowski
- Department of Environmental Health Sciences, Mailman School of Public Health at Columbia University, 722 W 168 Street, New York, NY USA 10032
| | - Kwaku-Poku Asante
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Alison G. Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, NY, USA 10029
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28
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Daouda M, Mujtaba MN, Yang Q, Seyram K, Lee AG, Tawiah T, Ae-Ngibise KA, Chillrud SN, Jack D, Asante KP. Prediction of personal exposure to PM 2.5 in mother-child pairs in rural Ghana. JOURNAL OF EXPOSURE SCIENCE & ENVIRONMENTAL EPIDEMIOLOGY 2022; 32:629-636. [PMID: 35301434 PMCID: PMC9355911 DOI: 10.1038/s41370-022-00420-1] [Citation(s) in RCA: 4] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Figures] [Subscribe] [Scholar Register] [Received: 08/12/2021] [Revised: 02/01/2022] [Accepted: 02/02/2022] [Indexed: 06/14/2023]
Abstract
BACKGROUND Air pollution epidemiological studies usually rely on estimates of long-term exposure to air pollutants, which are difficult to ascertain. This problem is accentuated in settings where sources of personal exposure differ from those of ambient concentrations, including household air pollution environments where cooking is an important source. OBJECTIVE The objective of this study was to assess the feasibility of estimating usual exposure to PM2.5 based on short-term measurements. METHODS We leveraged three types of short-term measurements from a cohort of mother-child pairs in 26 communities in rural Ghana: (A) personal exposure to PM2.5 in mothers and age four children, ambient PM2.5 concentrations (B) at the community level, and (C) at a central site. Baseline models were linear mixed models with a random intercept for community or for participant. Lowest root-mean-square-error (RMSE) was used to select the best-performing model. RESULTS We analyzed 240 community-days and 251 participant-days of PM2.5. Medians (IQR) of PM2.5 were 19.5 (36.5) μg/m3 for the central site, 28.7 (41.5) μg/m3 for the communities, 70.6 (56.9) μg/m3 for mothers, and 80.9 (74.1) μg/m3 for children. The ICCs (95% CI) for community ambient and personal exposure were 0.30 (0.17, 0.47) and 0.74 (0.65, 0.81) respectively. The sources of variability differed during the Harmattan season. Children's daily exposure was best predicted by models that used community ambient compared to mother's exposure as a predictor (log-scale RMSE: 0.165 vs 0.325). CONCLUSION Our results support the feasibility of predicting usual personal exposure to PM2.5 using short-term measurements in settings where household air pollution is an important source of exposure. Our results also suggest that mother's exposure may not be the best proxy for child's exposure at age four.
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Affiliation(s)
- Misbath Daouda
- Department of Environmental Health Sciences, Columbia Mailman School of Public Health, New York, NY, USA.
| | - Mohammed Nuhu Mujtaba
- Kintampo Health Research Centre, Ghana Health Service, Bono East Region, Kintampo, Ghana
| | - Qiang Yang
- Lamont-Doherty Earth Observatory of Columbia University, New York, NY, USA
| | - Kaali Seyram
- Kintampo Health Research Centre, Ghana Health Service, Bono East Region, Kintampo, Ghana
| | - Alison G Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, NY, USA
| | - Theresa Tawiah
- Kintampo Health Research Centre, Ghana Health Service, Bono East Region, Kintampo, Ghana
| | - Kenneth A Ae-Ngibise
- Kintampo Health Research Centre, Ghana Health Service, Bono East Region, Kintampo, Ghana
| | - Steve N Chillrud
- Lamont-Doherty Earth Observatory of Columbia University, New York, NY, USA
| | - Darby Jack
- Department of Environmental Health Sciences, Columbia Mailman School of Public Health, New York, NY, USA
| | - Kwaku Poku Asante
- Kintampo Health Research Centre, Ghana Health Service, Bono East Region, Kintampo, Ghana
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Nicole W. Setting a Growth Trajectory: Household Air Pollution Exposures Before and After Birth. ENVIRONMENTAL HEALTH PERSPECTIVES 2022; 130:34002. [PMID: 35319256 PMCID: PMC8942078 DOI: 10.1289/ehp10786] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [MESH Headings] [Track Full Text] [Figures] [Subscribe] [Scholar Register] [Received: 12/13/2021] [Accepted: 01/18/2022] [Indexed: 06/14/2023]
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Estimating long-term average household air pollution concentrations from repeated short-term measurements in the presence of seasonal trends and crossover. Environ Epidemiol 2022; 6:e188. [PMID: 35169666 PMCID: PMC8835562 DOI: 10.1097/ee9.0000000000000188] [Citation(s) in RCA: 2] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/15/2021] [Accepted: 11/26/2021] [Indexed: 11/26/2022] Open
Abstract
Estimating long-term exposure to household air pollution is essential for quantifying health effects of chronic exposure and the benefits of intervention strategies. However, typically only a small number of short-term measurements are made. We compare different statistical models for combining these short-term measurements into predictions of a long-term average, with emphasis on the impact of temporal trends in concentrations and crossover in study design. We demonstrate that a linear mixed model that includes time adjustment provides the best predictions of long-term average, which have lower error than using household averages or mixed models without time, for a variety of different study designs and underlying temporal trends. In a case study of a cookstove intervention study in Honduras, we further demonstrate how, in the presence of strong seasonal variation, long-term average predictions from the mixed model approach based on only two or three measurements can have less error than predictions based on an average of up to six measurements. These results have important implications for the efficiency of designs and analyses in studies assessing the chronic health impacts of long-term exposure to household air pollution.
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Pregnant Women's Exposure to Household Air Pollution in Rural Bangladesh: A Feasibility Study for Poriborton: The CHANge Trial. INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH 2022; 19:ijerph19010482. [PMID: 35010741 PMCID: PMC8744871 DOI: 10.3390/ijerph19010482] [Citation(s) in RCA: 3] [Impact Index Per Article: 1.5] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Subscribe] [Scholar Register] [Received: 11/23/2021] [Revised: 12/28/2021] [Accepted: 12/29/2021] [Indexed: 02/04/2023]
Abstract
The use of liquefied petroleum gas (LPG) for cooking is a strategy to reduce household air pollution (HAP) exposure and improve health. We conducted this feasibility study to evaluate personal exposure measurement methods to representatively assess reductions in HAP exposure. We enrolled 30 pregnant women to wear a MicroPEM for 24 h to assess their HAP exposure when cooking with a traditional stove (baseline) and with an LPG stove (intervention). The women wore the MicroPEM an average of 77% and 69% of the time during the baseline and intervention phases, respectively. Mean gravimetric PM2.5 mass and black carbon concentrations were comparable during baseline and intervention. Temporal analysis of the MicroPEM nephelometer data identified high PM2.5 concentrations in the afternoon, late evening, and overnight during the intervention phase. Likely seasonal sources present during the intervention phase were emissions from brick kiln and rice parboiling facilities, and evening kerosene lamp and mosquito coil use. Mean background adjusted PM2.5 concentrations during cooking were lower during intervention at 71 μg/m3, versus 105 μg/m3 during baseline. Representative real-time personal PM2.5 concentration measurements supplemented with ambient PM2.5 measures and surveys will be a valuable tool to disentangle external sources of PM2.5, other indoor HAP sources, and fuel-sparing behaviors when assessing the HAP reduction due to intervention with LPG stoves.
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Liao J, Kirby MA, Pillarisetti A, Piedrahita R, Balakrishnan K, Sambandam S, Mukhopadhyay K, Ye W, Rosa G, Majorin F, Dusabimana E, Ndagijimana F, McCracken JP, Mollinedo E, de Leon O, Díaz-Artiga A, Thompson LM, Kearns KA, Naeher L, Rosenthal J, Clark ML, Steenland K, Waller LA, Checkley W, Peel JL, Clasen T, Johnson M. LPG stove and fuel intervention among pregnant women reduce fine particle air pollution exposures in three countries: Pilot results from the HAPIN trial. ENVIRONMENTAL POLLUTION (BARKING, ESSEX : 1987) 2021; 291:118198. [PMID: 34740288 PMCID: PMC8593210 DOI: 10.1016/j.envpol.2021.118198] [Citation(s) in RCA: 5] [Impact Index Per Article: 1.7] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 06/15/2020] [Revised: 09/14/2021] [Accepted: 09/16/2021] [Indexed: 05/26/2023]
Abstract
The Household Air Pollution Intervention Network trial is a multi-country study on the effects of a liquefied petroleum gas (LPG) stove and fuel distribution intervention on women's and children's health. There is limited data on exposure reductions achieved by switching from solid to clean cooking fuels in rural settings across multiple countries. As formative research in 2017, we recruited pregnant women and characterized the impact of the intervention on personal exposures and kitchen levels of fine particulate matter (PM2.5) in Guatemala, India, and Rwanda. Forty pregnant women were enrolled in each site. We measured cooking area concentrations of and personal exposures to PM2.5 for 24 or 48 h using gravimetric-based PM2.5 samplers at baseline and two follow-ups over two months after delivery of an LPG cookstove and free fuel supply. Mixed models were used to estimate PM2.5 reductions. Median kitchen PM2.5 concentrations were 296 μg/m3 at baseline (interquartile range, IQR: 158-507), 24 μg/m3 at first follow-up (IQR: 18-37), and 23 μg/m3 at second follow-up (IQR: 14-37). Median personal exposures to PM2.5 were 134 μg/m3 at baseline (IQR: 71-224), 35 μg/m3 at first follow-up (IQR: 23-51), and 32 μg/m3 at second follow-up (IQR: 23-47). Overall, the LPG intervention was associated with a 92% (95% confidence interval (CI): 90-94%) reduction in kitchen PM2.5 concentrations and a 74% (95% CI: 70-79%) reduction in personal PM2.5 exposures. Results were similar for each site. CONCLUSIONS: The intervention was associated with substantial reductions in kitchen and personal PM2.5 overall and in all sites. Results suggest LPG interventions in these rural settings may lower exposures to the WHO annual interim target-1 of 35 μg/m3. The range of exposure contrasts falls on steep sections of estimated exposure-response curves for birthweight, blood pressure, and acute lower respiratory infections, implying potentially important health benefits when transitioning from solid fuels to LPG.
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Affiliation(s)
- Jiawen Liao
- Gangarosa Department of Environmental Health, Emory University Rollins School of Public Health, Atlanta, GA, USA; Department of Population and Public Health Sciences, Keck School of Medicine of the University of Southern California, Los Angeles, CA, USA
| | - Miles A Kirby
- Gangarosa Department of Environmental Health, Emory University Rollins School of Public Health, Atlanta, GA, USA; Department of Global Health and Population, Harvard T.H. Chan School of Public Health, Boston, MA, USA
| | - Ajay Pillarisetti
- Gangarosa Department of Environmental Health, Emory University Rollins School of Public Health, Atlanta, GA, USA; School of Public Health, University of California, Berkeley, CA, USA
| | | | - Kalpana Balakrishnan
- SRU-ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Institute of Higher Education and Research, Chennai, India
| | - Sankar Sambandam
- SRU-ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Institute of Higher Education and Research, Chennai, India
| | - Krishnendu Mukhopadhyay
- SRU-ICMR Center for Advanced Research on Air Quality, Climate and Health, Sri Ramachandra Institute of Higher Education and Research, Chennai, India
| | - Wenlu Ye
- Gangarosa Department of Environmental Health, Emory University Rollins School of Public Health, Atlanta, GA, USA
| | - Ghislaine Rosa
- London School of Hygiene and Tropical Medicine, London, UK
| | - Fiona Majorin
- London School of Hygiene and Tropical Medicine, London, UK
| | | | | | - John P McCracken
- Center for Health Studies, Universidad del Valle De Guatemala, Guatemala City, Guatemala; College of Public Health, University of Georgia, Athens, GA, USA
| | - Erick Mollinedo
- Center for Health Studies, Universidad del Valle De Guatemala, Guatemala City, Guatemala; College of Public Health, University of Georgia, Athens, GA, USA
| | - Oscar de Leon
- Gangarosa Department of Environmental Health, Emory University Rollins School of Public Health, Atlanta, GA, USA; Center for Health Studies, Universidad del Valle De Guatemala, Guatemala City, Guatemala
| | - Anaité Díaz-Artiga
- Center for Health Studies, Universidad del Valle De Guatemala, Guatemala City, Guatemala
| | - Lisa M Thompson
- Gangarosa Department of Environmental Health, Emory University Rollins School of Public Health, Atlanta, GA, USA; Nell Hodgson Woodruff School of Nursing, Emory University, Atlanta, GA, USA
| | | | - Luke Naeher
- College of Public Health, University of Georgia, Athens, GA, USA
| | - Joshua Rosenthal
- Fogarty International Center, National Institutes of Health, Bethesda, MD, USA
| | - Maggie L Clark
- Department of Environmental and Radiological Health Sciences, Colorado State University, Fort Collins, CO, USA
| | - Kyle Steenland
- Gangarosa Department of Environmental Health, Emory University Rollins School of Public Health, Atlanta, GA, USA
| | - Lance A Waller
- Gangarosa Department of Environmental Health, Emory University Rollins School of Public Health, Atlanta, GA, USA
| | - William Checkley
- Division of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, MD, USA; Center for Non-Communicable Disease Research and Training, School of Medicine, Johns Hopkins University, Baltimore, MD, USA
| | - Jennifer L Peel
- Department of Environmental and Radiological Health Sciences, Colorado State University, Fort Collins, CO, USA
| | - Thomas Clasen
- Gangarosa Department of Environmental Health, Emory University Rollins School of Public Health, Atlanta, GA, USA
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Quinn AK, Williams KN, Thompson LM, Harvey SA, Piedrahita R, Wang J, Quinn C, Pillarisetti A, McCracken JP, Rosenthal JP, Kirby MA, Diaz Artiga A, Thangavel G, Rosa G, Miranda JJ, Checkley W, Peel JL, Clasen TF. Fidelity and Adherence to a Liquefied Petroleum Gas Stove and Fuel Intervention during Gestation: The Multi-Country Household Air Pollution Intervention Network (HAPIN) Randomized Controlled Trial. INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH 2021; 18:12592. [PMID: 34886324 PMCID: PMC8656791 DOI: 10.3390/ijerph182312592] [Citation(s) in RCA: 17] [Impact Index Per Article: 5.7] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Download PDF] [Figures] [Subscribe] [Scholar Register] [Received: 09/29/2021] [Revised: 11/16/2021] [Accepted: 11/17/2021] [Indexed: 12/25/2022]
Abstract
BACKGROUND Clean cookstove interventions can theoretically reduce exposure to household air pollution and benefit health, but this requires near-exclusive use of these types of stoves with the simultaneous disuse of traditional stoves. Previous cookstove trials have reported low adoption of new stoves and/or extensive continued traditional stove use. METHODS The Household Air Pollution Intervention Network (HAPIN) trial randomized 3195 pregnant women in Guatemala, India, Peru, and Rwanda to either a liquefied petroleum gas (LPG) stove and fuel intervention (n = 1590) or to a control (n = 1605). The intervention consisted of an LPG stove and two initial cylinders of LPG, free fuel refills delivered to the home, and regular behavioral messaging. We assessed intervention fidelity (delivery of the intervention as intended) and adherence (intervention use) through to the end of gestation, as relevant to the first primary health outcome of the trial: infant birth weight. Fidelity and adherence were evaluated using stove and fuel delivery records, questionnaires, visual observations, and temperature-logging stove use monitors (SUMs). RESULTS 1585 women received the intervention at a median (interquartile range) of 8.0 (5.0-15.0) days post-randomization and had a gestational age of 17.9 (15.4-20.6) weeks. Over 96% reported cooking exclusively with LPG at two follow-up visits during pregnancy. Less than 4% reported ever running out of LPG. Complete abandonment of traditional stove cooking was observed in over 67% of the intervention households. Of the intervention households, 31.4% removed their traditional stoves upon receipt of the intervention; among those who retained traditional stoves, the majority did not use them: traditional stove use was detected via SUMs on a median (interquartile range) of 0.0% (0.0%, 1.6%) of follow-up days (median follow-up = 134 days). CONCLUSIONS The fidelity of the HAPIN intervention, as measured by stove installation, timely ongoing fuel deliveries, and behavioral reinforcement as needed, was high. Exclusive use of the intervention during pregnancy was also high.
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Affiliation(s)
- Ashlinn K. Quinn
- Fogarty International Center, National Institutes of Health, Bethesda, MD 20892, USA
- Berkeley Air Monitoring Group, Fort Collins, CO 80524, USA;
| | - Kendra N. Williams
- Division of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, MD 21287, USA; (K.N.W.); (W.C.)
- Center for Global Non-Communicable Disease Research and Training, Johns Hopkins University, Baltimore, MD 21287, USA
| | - Lisa M. Thompson
- Nell Hodgson Woodruff School of Nursing, Emory University, Atlanta, GA 30322, USA;
| | - Steven A. Harvey
- Department of International Health, Johns Hopkins Bloomberg School of Public Health, Baltimore, MD 21205, USA;
| | | | - Jiantong Wang
- Rollins School of Public Health, Emory University, Atlanta, GA 30322, USA; (J.W.); (A.P.); (T.F.C.)
| | - Casey Quinn
- Department of Mechanical Engineering, Colorado State University, Fort Collins, CO 80523, USA;
| | - Ajay Pillarisetti
- Rollins School of Public Health, Emory University, Atlanta, GA 30322, USA; (J.W.); (A.P.); (T.F.C.)
| | - John P. McCracken
- Department of Epidemiology and Biostatistics, Global Health Institute, College of Public Health, University of Georgia, Athens, GA 30606, USA;
- Center for Health Studies, Universidad del Valle de Guatemala, Guatemala City 01015, Guatemala;
| | - Joshua P. Rosenthal
- Fogarty International Center, National Institutes of Health, Bethesda, MD 20892, USA
| | - Miles A. Kirby
- Department of Global Health and Population, Harvard T.H. Chan School of Public Health, Boston, MA 02115, USA;
| | - Anaité Diaz Artiga
- Center for Health Studies, Universidad del Valle de Guatemala, Guatemala City 01015, Guatemala;
| | - Gurusamy Thangavel
- Department of Environmental Health Engineering, Faculty of Public Health, Sri Ramachandra Institute for Higher Education and Research, Porur, Chennai 600116, India;
| | - Ghislaine Rosa
- Faculty of Infectious and Tropical Diseases, London School of Hygiene and Tropical Medicine, London WC1E 7HT, UK;
| | - J. Jaime Miranda
- Department of Medicine, School of Medicine, Universidad Peruana Cayetano Heredia, Lima 15102, Peru;
- CRONICAS Center of Excellence in Chronic Diseases, Universidad Peruana Cayetano Heredia, Lima 15074, Peru
| | - William Checkley
- Division of Pulmonary and Critical Care, School of Medicine, Johns Hopkins University, Baltimore, MD 21287, USA; (K.N.W.); (W.C.)
- Center for Global Non-Communicable Disease Research and Training, Johns Hopkins University, Baltimore, MD 21287, USA
- Department of International Health, Johns Hopkins Bloomberg School of Public Health, Baltimore, MD 21205, USA;
| | - Jennifer L. Peel
- Department of Environmental & Radiological Health Sciences, Colorado State University, Fort Collins, CO 80523, USA;
| | - Thomas F. Clasen
- Rollins School of Public Health, Emory University, Atlanta, GA 30322, USA; (J.W.); (A.P.); (T.F.C.)
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Kinney PL, Asante KP, Lee AG, Ae-Ngibise KA, Burkart K, Boamah-Kaali E, Twumasi M, Gyaase S, Quinn A, Oppong FB, Wylie BJ, Kaali S, Chillrud S, Yawson A, Jack DW, Owusu-Agyei S. Prenatal and Postnatal Household Air Pollution Exposures and Pneumonia Risk: Evidence From the Ghana Randomized Air Pollution and Health Study. Chest 2021; 160:1634-1644. [PMID: 34298005 PMCID: PMC8628168 DOI: 10.1016/j.chest.2021.06.080] [Citation(s) in RCA: 18] [Impact Index Per Article: 6.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/23/2021] [Revised: 06/14/2021] [Accepted: 06/16/2021] [Indexed: 11/24/2022] Open
Abstract
BACKGROUND Nearly 40% of the world's population is exposed daily to household air pollution. The relative impact of prenatal and postnatal household air pollution exposure on early childhood pneumonia, a leading cause of mortality, is unknown. RESEARCH QUESTION Are prenatal or postnatal household air pollution, or both, associated with pneumonia risk in the first year of life? STUDY DESIGN AND METHODS The Ghana Randomized Air Pollution and Health Study enrolled 1,414 nonsmoking, pregnant women before 24 weeks' gestation with prospective follow-up to the child's age of 1 year. We measured 72-h personal household air pollution exposures, indexed by carbon monoxide (CO), four times prenatally and three times postnatally. Weekly fieldworker surveillance identified ill-appearing children for physician pneumonia assessment. We used quasi-Poisson models to examine associations between prenatal and postnatal CO and physician-diagnosed pneumonia and severe pneumonia. Sex-specific effects were examined. RESULTS Of the 1,306 live births, 1,141 infants were followed up with 55,605 child-weeks of fieldworker surveillance. The estimated risk for pneumonia and severe pneumonia in the first year of life increased by 10% (relative risk [RR], 1.10; 95% CI, 1.04-1.16) and 15% (RR, 1.15; 95% CI, 1.03-1.28), respectively, per 1-part per million (ppm) increase in average prenatal CO exposure and by 6% (RR, 1.06; 95% CI, 0.99-1.13) per 1-ppm increase in average postnatal CO exposure. Sex-stratified analyses suggest that in girls, higher prenatal CO exposure was associated with pneumonia risk, while no association was seen in boys. INTERPRETATION Prenatal household air pollution exposure increased risk of pneumonia and severe pneumonia in the first year of life. Clean-burning interventions may be most effective when begun prenatally. TRIAL REGISTRY ClinicalTrials.gov; No.: NCT01335490; URL: www.clinicaltrials.gov.
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Affiliation(s)
- Patrick L Kinney
- Department of Environmental Health, Boston University School of Public Health, Boston, MA.
| | - Kwaku-Poku Asante
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Alison G Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, NY
| | - Kenneth A Ae-Ngibise
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Katrin Burkart
- Institute for Health Metrics and Evaluation, University of Washington, Seattle, WA
| | - Ellen Boamah-Kaali
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Mieks Twumasi
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Stephaney Gyaase
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Ashlinn Quinn
- Fogarty International Center, National Institutes of Health, Bethesda, MD
| | - Felix B Oppong
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Blair J Wylie
- Division of Maternal-Fetal Medicine, Department of Obstetrics and Gynecology, Beth Israel Deaconess Medical Center, Boston, MA
| | - Seyram Kaali
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Steven Chillrud
- Lamont-Doherty Earth Observatory, Columbia University, Palisades, NY
| | - Abena Yawson
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
| | - Darby W Jack
- Department of Environmental Health Sciences, Mailman School of Public Health at Columbia University, New York, NY
| | - Seth Owusu-Agyei
- Kintampo Health Research Centre, Ghana Health Service, Brong Ahafo Region, Kintampo, Ghana
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Boamah-Kaali E, Jack DW, Ae-Ngibise KA, Quinn A, Kaali S, Dubowski K, Oppong FB, Wylie BJ, Mujtaba MN, Gould CF, Gyaase S, Chillrud S, Owusu-Agyei S, Kinney PL, Asante KP, Lee AG. Prenatal and Postnatal Household Air Pollution Exposure and Infant Growth Trajectories: Evidence from a Rural Ghanaian Pregnancy Cohort. ENVIRONMENTAL HEALTH PERSPECTIVES 2021; 129:117009. [PMID: 34842444 PMCID: PMC8629028 DOI: 10.1289/ehp8109] [Citation(s) in RCA: 23] [Impact Index Per Article: 7.7] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 08/18/2020] [Revised: 10/19/2021] [Accepted: 10/22/2021] [Indexed: 05/26/2023]
Abstract
BACKGROUND The exposure-response association between prenatal and postnatal household air pollution (HAP) and infant growth trajectories is unknown. OBJECTIVES To evaluate associations between prenatal and postnatal HAP exposure and stove interventions on growth trajectories over the first year of life. METHODS The Ghana Randomized Air Pollution and Health Study enrolled n=1,414 pregnant women at ≤24wk gestation from Kintampo, Ghana, and randomized them to liquefied petroleum gas (LPG), improved biomass, or open fire (control) stoves. We quantified HAP exposure by repeated, personal prenatal and postnatal carbon monoxide (CO) and, in a subset, fine particulate matter [PM with an aerodynamic diameter of ≤2.5μm (PM2.5)] assessments. Length, weight, mid-upper arm circumference (MUAC) and head circumference (HC) were measured at birth, 3, 6, 9, and 12 months; weight-for-age, length-for-age (LAZ), and weight-for-length z (WLZ)-scores were calculated. For each anthropometric measure, we employed latent class growth analysis to generate growth trajectories over the first year of life and assigned each child to a trajectory group. We then employed ordinal logistic regression to determine associations between HAP exposures and growth trajectory assignments. Associations with stove intervention arm were also considered. RESULTS Of the 1,306 live births, 1,144 had valid CO data and anthropometric variables measured at least once. Prenatal HAP exposure increased risk for lower length [CO odds ratio (OR)= 1.17, 95% CI: 1.01, 1.35 per 1-ppm increase; PM2.5 OR= 1.07, 95% CI: 1.02, 1.13 per 10-μg/m3 increase], lower LAZ z-score (CO OR= 1.15, 95% CI: 1.01, 1.32 per 1-ppm increase) and stunting (CO OR= 1.25, 95% CI: 1.08, 1.45) trajectories. Postnatal HAP exposure increased risk for smaller HC (CO OR= 1.09, 95% CI: 1.04, 1.13 per 1-ppm increase), smaller MUAC and lower WLZ-score (PM2.5 OR= 1.07, 95% CI: 1.00, 1.14 and OR= 1.09, 95% CI: 1.01, 1.19 per 10-μg/m3 increase, respectively) trajectories. Infants in the LPG arm had decreased odds of having smaller HC and MUAC trajectories as compared with those in the open fire stove arm (OR= 0.58, 95% CI: 0.37, 0.92 and OR= 0.45, 95% CI: 0.22, 0.90, respectively). DISCUSSION Higher early life HAP exposure (during pregnancy and through the first year of life) was associated with poorer infant growth trajectories among children in rural Ghana. A cleaner-burning stove intervention may have improved some growth trajectories. https://doi.org/10.1289/EHP8109.
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Affiliation(s)
- Ellen Boamah-Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Darby W. Jack
- Department of Environmental Health Sciences, Mailman School of Public Health at Columbia University, New York, New York, USA
| | - Kenneth A. Ae-Ngibise
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Ashlinn Quinn
- Fogarty International Center, National Institutes of Health, Bethesda Maryland, USA
| | - Seyram Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Kathryn Dubowski
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, New York, USA
| | - Felix B. Oppong
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Blair J Wylie
- Division of Maternal-Fetal Medicine, Department of Obstetrics and Gynecology, Beth Israel Deaconess Medical Center, Boston, Massachusetts, USA
| | - Mohammed N. Mujtaba
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Carlos F. Gould
- Department of Environmental Health Sciences, Mailman School of Public Health at Columbia University, New York, New York, USA
| | - Stephaney Gyaase
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Steven Chillrud
- Lamont-Doherty Earth Observatory at Columbia University, Palisades, New York, USA
| | - Seth Owusu-Agyei
- Institute of Health Research, University of Health and Allied Sciences, Ho, Ghana
| | - Patrick L. Kinney
- Department of Environmental Health, Boston University School of Public Health, Boston, Massachusetts, USA
| | - Kwaku Poku Asante
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Bono East Region, Ghana
| | - Alison G. Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, New York, USA
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Quinn AK, Adjei IA, Ae-Ngibise KA, Agyei O, Boamah-Kaali EA, Burkart K, Carrión D, Chillrud SN, Gould CF, Gyaase S, Jack DW, Kaali S, Kinney PL, Lee AG, Mujtaba MN, Oppong FB, Owusu-Agyei S, Yawson A, Wylie BJ, Asante KP. Prenatal household air pollutant exposure is associated with reduced size and gestational age at birth among a cohort of Ghanaian infants. ENVIRONMENT INTERNATIONAL 2021; 155:106659. [PMID: 34134048 PMCID: PMC8628363 DOI: 10.1016/j.envint.2021.106659] [Citation(s) in RCA: 15] [Impact Index Per Article: 5.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 02/08/2021] [Revised: 05/06/2021] [Accepted: 05/18/2021] [Indexed: 05/14/2023]
Abstract
BACKGROUND Low birth weight and prematurity are important risk factors for death and disability, and may be affected by prenatal exposure to household air pollution (HAP). METHODS We investigate associations between maternal exposure to carbon monoxide (CO) during pregnancy and birth outcomes (birth weight, birth length, head circumference, gestational age, low birth weight, small for gestational age, and preterm birth) among 1288 live-born infants in the Ghana Randomized Air Pollution and Health Study (GRAPHS). We evaluate whether evidence of malaria during pregnancy, as determined by placental histopathology, modifies these associations. RESULTS We observed effects of CO on birth weight, birth length, and gestational age that were modified by placental malarial status. Among infants from pregnancies without evidence of placental malaria, each 1 ppm increase in CO was associated with reduced birth weight (-53.4 g [95% CI: -84.8, -21.9 g]), birth length (-0.3 cm [-0.6, -0.1 cm]), gestational age (-1.0 days [-1.8, -0.2 days]), and weight-for-age Z score (-0.08 standard deviations [-0.16, -0.01 standard deviations]). These associations were not observed in pregnancies with evidence of placental malaria. Each 1 ppm increase in maternal exposure to CO was associated with elevated odds of low birth weight (LBW, OR 1.14 [0.97, 1.33]) and small for gestational age (SGA, OR 1.14 [0.98, 1.32]) among all infants. CONCLUSIONS Even modest reductions in exposure to HAP among pregnant women could yield substantial public health benefits, underscoring a need for interventions to effectively reduce exposure. Adverse associations with HAP were discernible only among those without evidence of placental malaria, a key driver of impaired fetal growth in this malaria-endemic area.
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Affiliation(s)
- Ashlinn K Quinn
- Fogarty International Center, National Institutes of Health, Bethesda, MD, USA
| | | | | | - Oscar Agyei
- Kintampo Health Research Centre, Kintampo, Ghana
| | | | | | - Daniel Carrión
- Icahn School of Medicine at Mount Sinai, New York, NY, USA
| | - Steven N Chillrud
- Mailman School of Public Health, Columbia University, New York, NY, USA; Lamont-Doherty Earth Observatory of Columbia University, Palisades, NY, USA
| | - Carlos F Gould
- Mailman School of Public Health, Columbia University, New York, NY, USA
| | | | - Darby W Jack
- Mailman School of Public Health, Columbia University, New York, NY, USA
| | - Seyram Kaali
- Kintampo Health Research Centre, Kintampo, Ghana
| | | | - Alison G Lee
- Icahn School of Medicine at Mount Sinai, New York, NY, USA
| | | | | | - Seth Owusu-Agyei
- Kintampo Health Research Centre, Kintampo, Ghana; Institute of Health Research, University of Health and Allied Sciences, Ho, Ghana
| | - Abena Yawson
- Kintampo Health Research Centre, Kintampo, Ghana
| | - Blair J Wylie
- Beth Israel Deaconess Medical Center, Boston, MA, USA.
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Balidemaj F, Isaxon C, Abera A, Malmqvist E. Indoor Air Pollution Exposure of Women in Adama, Ethiopia, and Assessment of Disease Burden Attributable to Risk Factor. INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH 2021; 18:9859. [PMID: 34574780 PMCID: PMC8472573 DOI: 10.3390/ijerph18189859] [Citation(s) in RCA: 14] [Impact Index Per Article: 4.7] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Download PDF] [Figures] [Subscribe] [Scholar Register] [Received: 07/06/2021] [Revised: 09/02/2021] [Accepted: 09/14/2021] [Indexed: 11/16/2022]
Abstract
INTRODUCTION AND AIM Air pollution, a major environmental threat to human health, contributes to the premature deaths of millions of people worldwide. Cooking with solid fuels, such as charcoal and wood, in low- and middle-income countries generates very high emissions of particulate matter within and near the household as a result of their inefficient combustion. Women are especially exposed, as they often perform the cooking. The purpose of this study was to assess the burden of disease attributable to household air pollution exposure from cooking among women in Adama, Ethiopia. METHODS AirQ+ software (WHO Regional Office for Europe, Copenhagen, Denmark) was used to assess the health impact of household air pollution by estimating the burden of disease (BoD) including Acute Lower Respiratory Infections (ALRI), Chronic Obstructive Pulmonary Disease (COPD), Ischemic Heart Disease (IHD), lung cancer, and stroke, among a cohort of women in Adama. Household air pollution exposure estimated by cooking fuel type was assessed through questionnaires. RESULTS Three-quarters (75%) of Adama's population used solid fuel for cooking; with this, the household air pollution attributable mortality was estimated to be 50% (95% CI: 38-58%) due to ALRI, 50% (95% CI: 35-61%) due to COPD, 50% (95% CI: 27-58%) due to lung cancer, (95% CI: 23-48%) due to IHD, and (95% CI: 23-51%) due to stroke. The corresponding disability-adjusted life years (DALYs) per 100,000 women ranged between 6000 and 9000 per disease. CONCLUSIONS This health impact assessment illustrates that household air pollution due to solid fuel use among women in Adama leads to premature death and a substantial quantity of DALYs. Therefore, decreasing or eliminating solid fuel use for cooking purposes could prevent deaths and improve quality of life.
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Affiliation(s)
- Festina Balidemaj
- Division of Occupational and Environmental Medicine, Department of Laboratory Medicine, Lund University, 222 42 Lund, Sweden;
| | - Christina Isaxon
- Division of Ergonomics and Aerosol Technology, Department of Design Sciences, Lund University, 223 62 Lund, Sweden;
| | - Asmamaw Abera
- Water and Public Health Department, Ethiopia Institute of Water Resources, Addis Ababa University, Addis Ababa, Ethiopia;
| | - Ebba Malmqvist
- Division of Occupational and Environmental Medicine, Department of Laboratory Medicine, Lund University, 222 42 Lund, Sweden;
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Jack DW, Ae-Ngibise KA, Gould CF, Boamah-Kaali E, Lee AG, Mujtaba MN, Chillrud S, Kaali S, Quinn AK, Gyaase S, Oppong FB, Carrión D, Agyei O, Burkhart K, Ana-Aro JA, Liu X, Berko YA, Wylie BJ, Etego SA, Whyatt R, Owusu-Agyei S, Kinney P, Asante KP. A cluster randomised trial of cookstove interventions to improve infant health in Ghana. BMJ Glob Health 2021; 6:bmjgh-2021-005599. [PMID: 34452940 PMCID: PMC8404442 DOI: 10.1136/bmjgh-2021-005599] [Citation(s) in RCA: 31] [Impact Index Per Article: 10.3] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/05/2021] [Accepted: 06/24/2021] [Indexed: 11/06/2022] Open
Abstract
Introduction Household air pollution from solid fuel combustion for cooking and heating is a leading cause of childhood morbidity and mortality worldwide. We hypothesised that clean cooking interventions delivered during pregnancy would improve child health. Methods We conducted a cluster randomised trial in rural Ghana to test whether providing pregnant women liquefied petroleum gas (LPG) cookstoves or improved biomass cookstoves would reduce personal carbon monoxide and fine particulate pollution exposure, increase birth weight and reduce physician-assessed severe pneumonia in the first 12 months of life, compared with control participants who continued to cook with traditional stoves. Primary analyses were intention-to-treat. The trial was registered with ClinicalTrials.gov and follow-up is complete. Results Enrolment began on 14 April 2014, and ended on 20 August 2015. We enrolled 1414 pregnant women; 361 in the LPG arm, 527 in the improved biomass cookstove arm and 526 controls. We saw no improvement in birth weight (the difference in mean birth weight for LPG arm births was 29 g lighter (95% CI −113 to 56, p=0.51) and for improved biomass arm births was 9 g heavier (95% CI −64 to 82, p=0.81), compared with control newborns) nor severe child pneumonia (the rate ratio for pneumonia in the LPG arm was 0.98 (95% CI 0.58 to 1.70; p=0.95) and for the improved biomass arm was 1.21 (95% CI 0.78 to 1.90; p=0.52), compared with the control arm). Air pollution exposures in the LPG arm remained above WHO health-based targets (LPG median particulate matter less than 2.5 microns in diameter (PM2.5) 45 µg/m³; IQR 32–65 vs control median PM2.5 67 µg/m³, IQR 46–97). Conclusions Neither prenatally-introduced LPG nor improved biomass cookstoves improved birth weight or reduced severe pneumonia risk in the first 12 months of life. We hypothesise that this is due to lower-than-expected exposure reductions in the intervention arms. Trial registration number NCT01335490.
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Affiliation(s)
- Darby W Jack
- Department of Environmental Health Sciences, Columbia University, New York, New York, USA
| | - Kenneth Ayuurebobi Ae-Ngibise
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Carlos F Gould
- Department of Environmental Health Sciences, Columbia University, New York, New York, USA
| | - Ellen Boamah-Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Alison G Lee
- Division of Pulmonary, Critical Care and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, New York, USA
| | - Mohammed Nuhu Mujtaba
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Steven Chillrud
- Lamont-Doherty Earth Observatory, Columbia University, Palisades, New York, USA
| | - Seyram Kaali
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Ashlinn K Quinn
- Fogarty International Center, National Institutes of Health, Bethesda, Maryland, USA
| | - Stephaney Gyaase
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Felix Boakye Oppong
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Daniel Carrión
- Department of Environmental Medicine and Public Health, Icahn School of Medicine at Mount Sinai, New York, New York, USA
| | - Oscar Agyei
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Katrin Burkhart
- Institute for Health Metrics and Evaluation, University of Washington, Seattle, Washington, USA
| | - Joseph A Ana-Aro
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Xinhua Liu
- Department of Biostatistics, Columbia University, New York, New York, USA
| | - Yvonne Afrah Berko
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Blair J Wylie
- Center for Maternal-Fetal Medicine, Department of Obstetrics and Gynecology, Beth Israel Deaconess Medical Center, Boston, Massachusetts, USA
| | - Seeba Amenga Etego
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
| | - Robin Whyatt
- Department of Environmental Health Sciences, Columbia University, New York, New York, USA
| | | | - Patrick Kinney
- Department of Environmental Health, Boston University, Boston, Massachusetts, USA
| | - Kwaku Poku Asante
- Kintampo Health Research Centre, Research and Development Division, Ghana Health Service, Kintampo North Municipality, Ghana
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