2016
Household concentrations and personal exposure of PM2.5 among urban residents using different cooking fuels
Li T, Cao S, Fan D, Zhang Y, Wang B, Zhao X, Leaderer BP, Shen G, Zhang Y, Duan X. Household concentrations and personal exposure of PM2.5 among urban residents using different cooking fuels. The Science Of The Total Environment 2016, 548: 6-12. PMID: 26799802, PMCID: PMC4760902, DOI: 10.1016/j.scitotenv.2016.01.038.Peer-Reviewed Original ResearchConceptsInhalation exposure levelsExposure levelsEnvironmental risk factorsTotal PM2.5 exposuresDifferent cooking fuelsDifferent age groupsRisk factorsPM2.5 exposureAge groupsPremature deathHousehold concentrationsPersonal exposureIndoor combustion sourcesHigher indoor concentrationsCooking fuelExposureOutdoor PM2.5 concentrationsNon-heating seasonLevelsIndoor concentrationsDisease
2001
Carbon Monoxide As a Tracer for Assessing Exposures to Particulate Matter in Wood and Gas Cookstove Households of Highland Guatemala
Naeher L, Smith K, Leaderer B, Neufeld L, Mage D. Carbon Monoxide As a Tracer for Assessing Exposures to Particulate Matter in Wood and Gas Cookstove Households of Highland Guatemala. Environmental Science And Technology 2001, 35: 575-581. PMID: 11351731, DOI: 10.1021/es991225g.Peer-Reviewed Original ResearchRisk Factors for Asthma Prevalence Among Urban and Nonurban African American Children
von Maffei J, Beckett W, Belanger K, Triche E, Zhang H, Machung J, Leaderer B. Risk Factors for Asthma Prevalence Among Urban and Nonurban African American Children. Journal Of Asthma 2001, 38: 555-564. PMID: 11714078, DOI: 10.1081/jas-100107120.Peer-Reviewed Original ResearchConceptsRisk factorsUrban residenceAfrican American childrenMaternal cigarette smokingPhysician-diagnosed asthmaMultiple risk factorsYears of ageMaternal asthmaAsthmatic childrenAsthma prevalenceCigarette smokingAsthmaAmerican childrenAfrican American mothersIdentifiable factorsChildrenAmerican mothersResidenceFactorsSmokingAllergyNewbornsPrevalence
2000
Indoor and outdoor PM2.5 and CO in high- and low-density Guatemalan villages
NAEHER L, SMITH K, LEADERER B, MAGE D, GRAJEDA R. Indoor and outdoor PM2.5 and CO in high- and low-density Guatemalan villages. Journal Of Exposure Science & Environmental Epidemiology 2000, 10: 544-551. PMID: 11140438, DOI: 10.1038/sj.jea.7500113.Peer-Reviewed Original ResearchParticulate Matter and Carbon Monoxide in Highland Guatemala: Indoor and Outdoor Levels from Traditional and Improved Wood Stoves and Gas Stoves
Naeher L, Leaderer B, Smith K. Particulate Matter and Carbon Monoxide in Highland Guatemala: Indoor and Outdoor Levels from Traditional and Improved Wood Stoves and Gas Stoves. Indoor Air 2000, 10: 200-205. PMID: 10979201, DOI: 10.1034/j.1600-0668.2000.010003200.x.Peer-Reviewed Original Research
1986
ASSESSMENT OF EXPOSURE TO INDOOR AIR CONTAMINANTS FROM COMBUSTION SOURCES: METHODOLOGY AND APPLICATION
LEADERER B, ZAGRANISKI R, BERWICK M, STOLWIJK J. ASSESSMENT OF EXPOSURE TO INDOOR AIR CONTAMINANTS FROM COMBUSTION SOURCES: METHODOLOGY AND APPLICATION. American Journal Of Epidemiology 1986, 124: 275-289. PMID: 3088984, DOI: 10.1093/oxfordjournals.aje.a114386.Peer-Reviewed Original ResearchConceptsAcute respiratory illnessIndoor air pollutant exposuresPersonal NO2 exposuresAir pollutant exposureIndoor NO2 levelsUnvented kerosene space heatersTobacco smokersIndoor air contaminant levelsRespiratory illnessAssessment of exposureIndoor NO2Health effectsEnvironmental exposuresLevels of NO2Unvented combustionNO2 exposureExposure assessmentNational health standardsGas cooking stovesKerosene space heatersPollutant exposureNO2 levelsKerosene heatersExcellent predictorExposure