1 WHO (World Health Organization). Ambient air pollution: a global assessment of exposure and burden of disease. World Health Organization. World Health Organization, 2016 http://www.who.int/phe/publications/air-pollution-global-assessment/en/ (accessed Oct 4, 2018).
2 Stanaway JD, Afshin A, Gakidou E, et al. Global, regional, and national comparative risk assessment of 84 behavioural, environmental and occupational, and metabolic risks or clusters of risks for 195 countries and territories, 1990-2017: A systematic analysis for the Global Burden of Disease Stu. Lancet 2018; 392: 1923–94.
3 EPA (Environmental Protection Agency). An Introduction to Indoor Air Quality (IAQ): Improving Indoor Air Quality. 2013. https://www.epa.gov/indoor-air-quality-iaq/introduction-indoor-air-quality (accessed Feb 18, 2019).
4 Desai MA, Mehta S, Smith KR. Indoor Smoke from solid fuels. Assessing the environmental burden of disease at national and local levels. Geneva: Protection of the Human Environment, World Health Organization, 2004 http://apps.who.int/iris/bitstream/10665/42885/1/9241591358.pdf (accessed Oct 4, 2018).
5 Zuk M, Rojas L, Blanco S, et al. The impact of improved wood-burning stoves on fine particulate matter concentrations in rural Mexican homes. J Expo Sci Environ Epidemiol 2007; 17: 224–32.
6 Smith KR. Fuel Combustion, Air Pollution Exposure, and Health: The Situation in Developing Countries. Annu Rev Energy Environ 1993; 18: 529–66.
7 Clark ML, Peel JL, Balakrishnan K, et al. Health and household air pollution from solid fuel use: The need for improved exposure assessment. Environ Health Perspect 2013; 121: 1120–8.
8 Burnett RT, Arden Pope C, Ezzati M, et al. An integrated risk function for estimating the global burden of disease attributable to ambient fine particulate matter exposure. Environ Health Perspect 2014; 122: 397–403.
9 Bonjour S, Adair-Rohani H, Wolf J, et al. Solid fuel use for household cooking: Country and regional estimates for 1980-2010. Environ Health Perspect 2013; 121: 784–90.
10 Pollard SL, Williams DLDL, Breysse PN, et al. A cross-sectional study of determinants of indoor environmental exposures in households with and without chronic exposure to biomass fuel smoke. Environ Heal 2014; 13: 21.
11 Sidhu MK, Ravindra K, Mor S, John S. Household air pollution from various types of rural kitchens and its exposure assessment. Sci Total Environ 2017; 586: 419–29.
12 Bruce N, Smith KR, Balmes J, et al. WHO Indoor Air Quality Guidelines: Household Fuel Combustion - Review 4: Health effects of household air pollution (HAP) exposure. Geneva, 2014 http://www.who.int/indoorair/guidelines/hhfc.
13 Brook RD, Rajagopalan S, Pope CA, et al. Particulate Matter Air Pollution and Cardiovascular Disease. Circulation 2010; 121: 2331–78.
14 Miller KA, Siscovick DS, Sheppard L, et al. Long-Term Exposure to Air Pollution and Incidence of Cardiovascular Events in Women. N Engl J Med 2007; 356: 447–58.
15 Newby DE, Mannucci PM, Tell GS, et al. Expert position paper on air pollution and cardiovascular disease. Eur. Heart J. 2015; 36: 83–93.
16 Shah AS V, Langrish JP, Nair H, et al. Global association of air pollution and heart failure: A systematic review and meta-analysis. Lancet 2013; 382: 1039–48.
17 Yang BY, Qian Z, Howard SW, et al. Global association between ambient air pollution and blood pressure: A systematic review and meta-analysis. Environ Pollut 2018; 235: 576–88.
18 Liang R, Zhang B, Zhao X, Ruan Y, Lian H, Fan Z. Effect of exposure to PM2.5 on blood pressure: A systematic review and meta-analysis. J Hypertens 2014; 32: 2130–41.
19 Brook RD, Rajagopalan S. Particulate matter, air pollution, and blood pressure. J. Am. Soc. Hypertens. 2009; 3: 332–50.
20 Pearson JF, Bachireddy C, Shyamprasad S, Goldfine AB, Brownstein JS. Association between fine particulate matter and diabetes prevalence in the U.S. Diabetes Care 2010; 33: 2196–201.
21 Lee A, Sanchez TR, Shahriar MH, Eunus M, Perzanowski M, Graziano J. A cross-sectional study of exhaled carbon monoxide as a biomarker of recent household air pollution exposure. Environ Res 2015; 143: 107–11.
22 Zhang Q, Li L, Smith M, et al. Exhaled carbon monoxide and its associations with smoking, indoor household air pollution and chronic respiratory diseases among 512 000 chinese adults. Int J Epidemiol 2013; 42: 1464–75.
23 Seaton A, Soutar A, Crawford V, et al. Particulate air pollution and the blood. Thorax 1999; 54: 1027–32.
24 WHO (World Health Organization). WHO guidelines for indoor air quality: selected pollutants. 2011.
25 Delfino RJ, Staimer N, Tjoa T, et al. Circulating Biomarkers of Inflammation, Antioxidant Activity, and Platelet Activation Are Associated with Primary Combustion Aerosols in Subjects with Coronary Artery Disease. Environ Health Perspect 2008; 116: 898–906.
26 Baumgartner J, Schauer JJ, Ezzati M, et al. Indoor air pollution and blood pressure in adult women living in rural China. Environ Health Perspect 2011; 119: 1390–5.
27 Young BN, Clark ML, Rajkumar S, et al. Exposure to household air pollution from biomass cookstoves and blood pressure among women in rural honduras: a cross-sectional study. Indoor Air 2018; 29: 130–42.
28 Miranda JJ, Bernabe-Ortiz A, Smeeth L, et al. Addressing geographical variation in the progression of non-communicable diseases in Peru: The CRONICAS cohort study protocol. BMJ Open 2012; 2: e000610.
29 Quispe R, Benziger CP, Bazo-Alvarez JC, et al. The Relationship between Socioeconomic Status and CV Risk Factors: The CRONICAS Cohort Study of Peruvian Adults. Glob Heart 2016; 11: 121–30.
30 WHO (World Health Organization). WHO air quality guidelines for particulate matter, ozone, nitrogen dioxide and sulfur dioxide. World Health Organization, 2005 http://www.who.int/phe/health_topics/outdoorair/outdoorair_aqg/en/ (accessed Nov 2, 2018).
31 Ostro B. Outdoor air pollution : assessing the environmental burden of disease at national and local levels. 2004 https://apps.who.int/iris/handle/10665/42909.
32 R Core Team. R: A Language and Environment for Statistical Computing. 2018. https://www.r-project.org/.
33 Fitzgerald C, Aguilar-Villalobos M, Eppler AR, Dorner SC, Rathbun SL, Naeher LP. Testing the effectiveness of two improved cookstove interventions in the Santiago de Chuco Province of Peru. Sci Total Environ 2012; 420: 54–64.
34 McCracken JP, Smith KR, Díaz A, Mittleman MA, Schwartz J. Chimney stove intervention to reduce long-term wood smoke exposure lowers blood pressure among Guatemalan women. Environ. Health Perspect. 2007; 115: 996–1001.
35 Underhill LJ, Bose S, Williams DL, et al. Association of roadway proximity with indoor air pollution in a Peri-urban community in Lima, Peru. Int J Environ Res Public Health 2015; 12: 13466–81.
36 Robinson CL, Baumann LM, Romero K, et al. Effect of urbanisation on asthma, allergy and airways inflammation in a developing country setting. Thorax 2011; 66: 1051–7.
37 Carter E, Norris C, Dionisio KL, et al. Assessing exposure to household air pollution: A systematic review and pooled analysis of carbon monoxide as a surrogate measure of particulate matter. Environ Health Perspect 2017; 125: 76002.
38 Alexander D, Larson T, Bolton S, Vedal S. Systolic blood pressure changes in indigenous Bolivian women associated with an improved cookstove intervention. Air Qual Atmos Heal 2015; 8: 47–53.
39 Pepys MB, Hirschfield GM. C-reactive protein: a critical update. J Clin Invest 2003; 111: 1805–12.
40 Bazo-Alvarez JC, Quispe R, Pillay TD, et al. Glycated haemoglobin (HbA1c) and fasting plasma glucose relationships in sea-level and high-altitude settings. Diabet Med 2017; 34: 804–12.
41 Caravedo MA, Herrera PM, Mongilardi N, et al. Chronic exposure to biomass fuel smoke and markers of endothelial inflammation. Indoor Air 2016; 26: 768–75.