2023
Wearable Passive Samplers for Assessing Environmental Exposure to Organic Chemicals: Current Approaches and Future Directions
Okeme J, Koelmel J, Johnson E, Lin E, Gao D, Pollitt K. Wearable Passive Samplers for Assessing Environmental Exposure to Organic Chemicals: Current Approaches and Future Directions. Current Environmental Health Reports 2023, 10: 84-98. PMID: 36821032, DOI: 10.1007/s40572-023-00392-w.Peer-Reviewed Original ResearchConceptsPassive samplersOrganic chemicalsExposure assessmentHigh-throughput chemical analysisSemi-volatile organic chemicalsComplex mixturesChemical analysisEnvironmental health researchEnvironmental contaminantsPopulation scaleMonitoring approachActive air samplingQuantitative exposure assessmentEvaluation of exposureCompositional diversityAnalytical challengesHundreds of chemicalsPersonal exposurePopulation levelExposure estimatesSamplerActive samplersEnvironmental chemicalsContaminantsDynamic mixture
2022
Personal air pollutant exposure monitoring in South African children in the VHEMBE birth cohort
DeLay K, Lin EZ, Koelmel JP, Bornman R, Obida M, Chevrier J, Godri Pollitt KJ. Personal air pollutant exposure monitoring in South African children in the VHEMBE birth cohort. Environment International 2022, 170: 107524. PMID: 36260950, PMCID: PMC9982749, DOI: 10.1016/j.envint.2022.107524.Peer-Reviewed Original ResearchConceptsBirth cohortMalaria controlEnvironment (MACE) birth cohortVenda Health ExaminationEnvironmental exposuresBurden of diseaseIndoor residual sprayingSouth African childrenHousehold air pollutionMiddle-income countriesHealth examinationNon-invasive methodAfrican childrenPersonal exposure assessmentResidual sprayingExposure levelsPersonal exposureExposure assessmentExposure monitoringRural regionsChildrenHigh exposureEnvironmental contaminantsCohortExposureCharacterizing the external exposome using passive samplers—comparative assessment of chemical exposures using different wearable form factors
Lin EZ, Nichols A, Zhou Y, Koelmel JP, Godri Pollitt KJ. Characterizing the external exposome using passive samplers—comparative assessment of chemical exposures using different wearable form factors. Journal Of Exposure Science & Environmental Epidemiology 2022, 33: 558-565. PMID: 35840784, DOI: 10.1038/s41370-022-00456-3.Peer-Reviewed Original ResearchConceptsPassive air samplersGas chromatography-high resolution mass spectrometryPassive samplersHigh-resolution mass spectrometryResolution mass spectrometryAirborne organic contaminantsAirborne chemical contaminantsOrganic contaminantsChemical exposureMass spectrometryAir samplerChemical contaminantsPersonal chemical exposureAirborne contaminantsActive samplersPersonal exposureContaminantsType of exposureSampler positionsEpidemiological studiesAirborne exposureExternal exposomeHousehold productsChestEnvironmental exposures
2021
Head, Shoulders, Knees, and Toes: Placement of Wearable Passive Samplers Alters Exposure Profiles Observed
Koelmel JP, Lin EZ, Nichols A, Guo P, Zhou Y, Pollitt K. Head, Shoulders, Knees, and Toes: Placement of Wearable Passive Samplers Alters Exposure Profiles Observed. Environmental Science And Technology 2021, 55: 3796-3806. PMID: 33625210, DOI: 10.1021/acs.est.0c05522.Peer-Reviewed Original ResearchConceptsSemivolatile organic compoundsOrganic compoundsGas chromatography-high resolution mass spectrometryPassive samplersHigh-resolution mass spectrometryVolatile organic compoundsPersonal exposure profilesChemicals of concernMass spectrometryChemicalsExposure dynamicsExposure profilesCompoundsMajor risk factorComprehensive characterizationPersonal exposureAirborne contaminantsContaminant exposureRisk factorsInhalation routeEpidemiological studiesChemical exposureSpectrometrySamplerParticipants' wrists