2021
Use of Untargeted Metabolomics to Explore the Air Pollution-Related Disease Continuum
Jin L, Godri Pollitt KJ, Liew Z, Rosen Vollmar AK, Vasiliou V, Johnson CH, Zhang Y. Use of Untargeted Metabolomics to Explore the Air Pollution-Related Disease Continuum. Current Environmental Health Reports 2021, 8: 7-22. PMID: 33420964, DOI: 10.1007/s40572-020-00298-x.Peer-Reviewed Original ResearchConceptsAir pollutant exposureAdverse health effectsSpecific adverse health effectsOxidative stressHealth effectsPerturbation of metabolitesAir pollution exposureUntargeted metabolomicsPollutant exposureSteroid metabolic pathwaysPregnant womenInflammatory responseDisease continuumReviewThe purposeHealth outcomesLarger sample sizeMetabolic pathwaysDisease statusPollution exposureIdentified metabolitesMetabolic perturbationsMetabolic changesSummaryOur reviewAir pollution componentsMetabolomic analysis
2019
1,4-Dioxane as an emerging water contaminant: State of the science and evaluation of research needs
Godri Pollitt K, Kim JH, Peccia J, Elimelech M, Zhang Y, Charkoftaki G, Hodges B, Zucker I, Huang H, Deziel N, Murphy K, Ishii M, Johnson CH, Boissevain A, O'Keefe E, Anastas P, Orlicky D, Thompson DC, Vasiliou V. 1,4-Dioxane as an emerging water contaminant: State of the science and evaluation of research needs. The Science Of The Total Environment 2019, 690: 853-866. PMID: 31302550, DOI: 10.1016/j.scitotenv.2019.06.443.Peer-Reviewed Original ResearchAnalytical detectionHigh priority chemicalsChemical interactionWater contaminantsEnvironmental fateChlorinated solventsDioxanePriority chemicalsMaximum contaminant levelCommon adsorptionTreatment technologiesU.S. Environmental Protection AgencyContaminantsChemical characteristicsHuman health effectsContaminant levelsProbable human carcinogenEnvironmental Protection AgencyState maximum contaminant levelWidespread contaminationHealth effectsEffective public health policiesWater supplyRoute of exposureAdsorption