2021
Opportunities and challenges in reducing personal inhalation exposure to air pollution among electronic waste recovery workers in Ghana
Laskaris Z, Batterman S, Arko‐Mensah J, Mukherjee B, Fobil J, O'Neill M, Robins T. Opportunities and challenges in reducing personal inhalation exposure to air pollution among electronic waste recovery workers in Ghana. American Journal Of Industrial Medicine 2021, 64: 381-397. PMID: 33522624, PMCID: PMC8046737, DOI: 10.1002/ajim.23229.Peer-Reviewed Original ResearchConceptsPersonal PM<sub>2.5</sub>Burning e-wasteE-wasteHigh PM<sub>2.5</sub> concentrationsAgbogbloshie e-waste siteExposure to air pollutionExposure to particulate matterSize-specific PMInhalation exposure to particulate matterE-waste sitesE-waste workersLevels of PMPM samplesParticulate matterBurning activitiesAir pollutionTime-activityTime-activity dataElectronic wasteWorker's breathing zonePersonal samplesToxic emissionsLinear mixed modelsSite locationWind direction
2011
PM2.5-induced changes in cardiac function of hypertensive rats depend on wind direction and specific sources in Steubenville, Ohio
Kamal A, Rohr A, Mukherjee B, Morishita M, Keeler G, Harkema J, Wagner J. PM2.5-induced changes in cardiac function of hypertensive rats depend on wind direction and specific sources in Steubenville, Ohio. Inhalation Toxicology 2011, 23: 417-430. PMID: 21639710, DOI: 10.3109/08958378.2011.580387.Peer-Reviewed Original ResearchConceptsNE windsSW windsSource factorsMobile source factorsPositive matrix factorizationConcentrated ambient particlesPotential emission sourcesSources of PM(2.5Adverse health effectsPM constituentsWind directionParticulate matterMobile sourcesIndividual elemental componentsTrace elementsAmbient particlesIron/steel productionPM(2.5IncinerationAmbient PM(2.5Metal factorWindHealth effectsExposure to concentrated ambient particlesSouthwest