2025
Global Excess Deaths Associated with Heatwaves in 2023 and the Contribution of Human-Induced Climate Change
Hundessa S, Huang W, Xu R, Yang Z, Zhao Q, Gasparrini A, Armstrong B, Bell M, Huber V, Urban A, Coelho M, Sera F, Tong S, Royé D, Kyselý J, de'Donato F, Mistry M, Tobias A, Íñiguez C, Ragettli M, Hales S, Achilleos S, Klompmaker J, Li S, Guo Y, Network M. Global Excess Deaths Associated with Heatwaves in 2023 and the Contribution of Human-Induced Climate Change. The Innovation 2025, 101110. DOI: 10.1016/j.xinn.2025.101110.Peer-Reviewed Original ResearchHuman-induced climate changeExcess deathsWithin-week variationsQuasi-Poisson regression modelPublic health interventionsClimate changeHealth interventionsMortality dataMortality burdenDeath ratioClimate mitigation strategiesHigh-resolution climateAssociated with heatwavesMeta-RegressionHealth impactsDeath rateGlobal deathsRegression modelsHigher mortality rateSpatial heterogeneityClimate scenariosMortality rateHeatwavesMortalityComprehensive assessmentEffect modification by cardiovascular and metabolic disease onset on long-term PM2.5 exposure and mortality: a nationwide cohort study
Jang H, Park J, Lee E, Kang D, Moon J, Song I, Ahn S, Kim A, Kang C, Oh J, Kwon D, Min J, Kim E, Bell M, Kim H, Lee W. Effect modification by cardiovascular and metabolic disease onset on long-term PM2.5 exposure and mortality: a nationwide cohort study. Scientific Reports 2025, 15: 19570. PMID: 40467860, PMCID: PMC12137577, DOI: 10.1038/s41598-025-04498-z.Peer-Reviewed Original ResearchConceptsLong-term PM2.5 exposureEffect modificationPM2.5 exposureEstimate effect modificationPM2.5-mortality associationsPopulation-representative cohortTarget specific interventionsMyocardial infarctionNationwide cohort studyNon-accidental deathsEffects of PM2.5PM2.5-mortalityRisk of PM2.5Preemptive careCox regression modelsHTN/DMCohort studyHazard ratioDisease onsetCerebrovascular diseaseRegression modelsMetabolic disease onsetCohortRenal diseaseMortality
2016
Exposure to coarse particulate matter during gestation and birth weight in the U.S.
Ebisu K, Berman JD, Bell ML. Exposure to coarse particulate matter during gestation and birth weight in the U.S. Environment International 2016, 94: 519-524. PMID: 27324566, PMCID: PMC4980266, DOI: 10.1016/j.envint.2016.06.011.Peer-Reviewed Original ResearchConceptsBirth weightResidential countyGestational exposureLow birth weightAdverse birth outcomesInterquartile range increaseImportant health effectsTrimester exposureBirth outcomesPotential confoundersU.S. birthsDifferent exposure methodsHealth effectsPM10-2.5Population-weighted centroidsLinear regression modelsExposureAssociationRegression modelsBirthRange increaseExposure methodTrimesterConfoundersGestation
2004
Time-Series Studies of Particulate Matter
Bell M, Samet J, Dominici F. Time-Series Studies of Particulate Matter. Annual Review Of Public Health 2004, 25: 247-280. PMID: 15015920, DOI: 10.1146/annurev.publhealth.25.102802.124329.Peer-Reviewed Original Research
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