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

Pollard, Suzanne L.; Williams, D’Ann L.; Breysse, Patrick N.; Baron, Patrick; Grajeda, Laura M.; Gilman, Robert H.; Miranda, J. Jaime; Checkley, William

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

Cited by 62 publications

(72 citation statements)

References 33 publications

(19 reference statements)

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“…Moreover, the median indoor 24-hour PM 2.5 -equivalent concentrations were similar in magnitude to values reported in other studies in Guatemala and China [44, 45]. Maximum concentrations of biomass fuel smoke during cooking in rural households, however, can exceed 1000 μg/m 3 [23], a gross environmental exposure by any standard. Third, we do not have information on personal exposure concentrations; however, we sought to compare to subpopulations with distinct levels of exposure and our indoor measurements supported this claim.…”

Section: Discussionsupporting

confidence: 81%

“…We also obtained a subsample of gravimetric measurements of PM 2.5 concentrations concurrently using the DataRAM pDR-1000 fitted with the PCXR4 universal sampling pump (SKC Inc., Eighty Four, PA) set to a flow rate of 4 L/min. We then applied a locally-derived correction factor to relative-humidity adjusted PM to calculate PM 2.5 -equivalent concentrations [23]. Indoor CO was measured using the EasyLog USB CO Monitor (Lascar Electronics, Erie, PA) over a 24-hour period.…”

Section: Methodsmentioning

confidence: 99%

“…Indoor CO was measured using the EasyLog USB CO Monitor (Lascar Electronics, Erie, PA) over a 24-hour period. We also measured outdoor PM 2.5 concentrations between March 2011 and November 2011 as previously explained [23]. …”

Section: Methodsmentioning

confidence: 99%

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Lack of association between chronic exposure to biomass fuel smoke and markers of right ventricular pressure overload at high altitude

Caravedo

Painschab

Dávila‐Román³

et al. 2014

American Heart Journal

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Background Chronic exposure to biomass fuel smoke has been implicated in the development of pulmonary hypertension and right ventricular pressure/volume overload through activation of inflammation, increase in vascular resistance and endothelial dysfunction. We sought to compare N-terminal pro-B-type natriuretic peptide (NT-pro-BNP) and echocardiography-derived pulmonary artery systolic pressure (PASP) levels in a high-altitude population-based study in Peru with and without chronic exposure to biomass fuel smoke. Methods NT-pro-BNP levels were measured in 519 adults (275 with and 244 without chronic exposure to biomass fuel smoke). Participants answered sociodemographics and clinical history questionnaires, underwent a clinical examination and blood testing for cardiopulmonary biomarkers. PASP was measured in a subgroup of 153 (31%) subjects. Results The study group consisted of 280 men (54%) and 239 women (46%). Average age was 56 years and average body mass index was 27 kg/m2. In multivariable analysis, there was no association between chronic exposure to biomass fuel smoke and NT-pro-BNP (p=0.31) or PASP (p=0.31). In the subgroup in which both NT-pro-BNP levels and PASP were measured, there was strong evidence of an association between these two variables (ρ=0.24, 95% CI 0.09-0.39; p=0.003). We found that age, high sensitivity C-reactive protein, being male and systolic blood pressure were positively associated with NT-pro-BNP levels whereas body mass index, LDL/HDL ratio and HOMA-IR were negatively associated (all p<0.01). Conclusions In this population-based study in a high-altitude setting, neither NT-pro-BNP levels nor echocardiography-derived PASP were associated with chronic exposure to biomass fuel smoke.

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Section: Discussionsupporting

confidence: 81%

Section: Methodsmentioning

confidence: 99%

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Lack of association between chronic exposure to biomass fuel smoke and markers of right ventricular pressure overload at high altitude

Caravedo

Painschab

Dávila‐Román³

et al. 2014

American Heart Journal

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“…A recent report showed higher FVC values in Lima subjects, compared to individuals from lowland rural towns, even if these rural towns had lower levels of pollution than Lima (Robinson et al, 2011). Moreover, even if air pollution tends to be higher in urban settings, highlanders could also be exposed to household air pollution, given the common practice of burning biomass fuel to cook in Andean towns (Pollard et al, 2014).…”

Section: Limitations Of the Studymentioning

confidence: 99%

Developmental Effects Determine Submaximal Arterial Oxygen Saturation in Peruvian Quechua

Kiyamu

León‐Velarde

Rivera-Chira

et al. 2015

High Altitude Medicine & Biology

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Kiyamu, Melisa, Fabiola León-Velarde, María Rivera-Chira, Gianpietro Elías, and Tom D. Brutsaert. Developmental effects determine submaximal arterial oxygen saturation in Peruvian Quechua. High Alt Med Biol 16:138-146, 2015.-Andean high altitude natives show higher arterial oxygen saturation (Sao 2 ) during exercise in hypoxia, compared to acclimatized sojourners. In order to evaluate the effects of life-long exposure to high altitude on Sao 2 , we studied two groups of well-matched, self-identified Peruvian Quechua natives who differed in their developmental exposure to hypoxia before and after a 2-month training period. Male and female volunteers (18-35 years) were recruited in Lima, Peru (150 m). The two groups were: a) Individuals who were born and raised at sea-level (BSL, n = 34) and b) Individuals who were born and raised at high altitude (BHA, n = 32), but who migrated to sea-level as adults ( > 16 years old). Exercise testing was conducted using a submaximal exercise protocol in normobaric hypoxia in Lima (BP = 750 mmHg, Fio 2 = 0.12), in order to measure Sao 2 (%), ventilation (VE L/min) and oxygen consumption (Vo 2 , L/min). Repeated-measures AN-OVA, controlling for VE/VO 2 (L/min) and sex during the submaximal protocol showed that BHA maintained higher Sao 2 (%) compared to BSL at all workloads before ( p = 0.005) and after training ( p = 0.017). As expected, both groups showed a decrease in Sao 2 (%) (p < 0.001), as workload increased. Resting Sao 2 levels were not found to be different between groups. The results suggest that developmental exposure to altitude contributes to the maintenance of higher Sao 2 levels during submaximal exercise at hypoxia.

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“…In Peru, 93% of people residing in rural areas use biomassfueled stoves for cooking and heating, specifically solid fuel (wood and dung) [1]. Women have the highest level of exposure due to the time spent cooking and in other household activities, and, accordingly, young children also have a high level of exposure.…”

Section: Introductionmentioning

confidence: 99%

Caregiver perception of sleep-disordered breathing-associated symptoms in children of rural Andean communities above 4000 masl with chronic exposure to biomass fuel

et al. 2015

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

Cited by 62 publications

References 33 publications

Lack of association between chronic exposure to biomass fuel smoke and markers of right ventricular pressure overload at high altitude

Lack of association between chronic exposure to biomass fuel smoke and markers of right ventricular pressure overload at high altitude

Developmental Effects Determine Submaximal Arterial Oxygen Saturation in Peruvian Quechua

Caregiver perception of sleep-disordered breathing-associated symptoms in children of rural Andean communities above 4000 masl with chronic exposure to biomass fuel

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