Matthew Eckelman
Associate Professor AdjunctCards
About
Research
Publications
2026
Computational optimization for low-carbon and circular pavement management at the network level
Wang Z, Yang L, Ranyal E, Briessinck M, Eckelman M, Cao Z, Hernando D. Computational optimization for low-carbon and circular pavement management at the network level. Resources Conservation And Recycling 2026, 225: 108636. DOI: 10.1016/j.resconrec.2025.108636.Peer-Reviewed Original ResearchPavement management systemPavement conditionPMS frameworkLower life cycle emissionsGreenhouse gasesLife cycle emissionsRoad maintenance planningGreenhouse gas emissionsPavement performancePavement managementSkid resistanceAsphalt pavementInfrastructure planningCycle emissionsLow-carbonMaintenance planningMulti-objective optimizationBudget constraintsMaintenance strategyBudget allocationNetwork levelComputational optimizationManagement systemPlanningBalance goals
2025
The Lancet Commission on Sustainable Health Care measurement framework for advancing sustainable health care transformation
Singh H, Weisz U, Andrew T, Blom I, Kittipongvises S, Nansai K, Ouanhnon S, Rasheed F, Loop S, Yu J, MacNeill A, Sherman J, Eckelman M. The Lancet Commission on Sustainable Health Care measurement framework for advancing sustainable health care transformation. The Lancet Planetary Health 2025, 101398. PMID: 41391475, DOI: 10.1016/j.lanplh.2025.101398.Peer-Reviewed Original ResearchSustainable health careHealth careLancet CommissionHealth promotion theoryHealth-care qualityHealth care transformationHealth-care organisationsHealth-care performanceHealth-care systemEvidence-based indicationsCare transformationEvidence-based policyWorking GroupPromotion theoryDiverse geographic settingsClinical careCareStandardised approachProgramme domainsHealthHealth effectsOutcome dimensionsPhysical domainMeasurement frameworkLancetUse of a multihazard sensor system for understanding rider experience and environmental conditions on urban rail
Castro E, Eckelman M, Mueller A. Use of a multihazard sensor system for understanding rider experience and environmental conditions on urban rail. Environmental Research Infrastructure And Sustainability 2025, 5: 045009. DOI: 10.1088/2634-4505/ae1e9b.Peer-Reviewed Original ResearchRider experienceTransition systemsUrban rapid transit systemsPublic transit ridersPublic transit systemRapid transit systemTransit ridersUrban railTransit networkAir pollutionMultihazard approachInfrastructure improvementsRidersManagement expertsSystem improvementInfrastructureSystem managementMultihazardAir pollution levelsSystem characteristicsSemi-automated approachRailGranularity levelsAirEnvironmental hazardsThe Lancet MedZero: carbon analytics for health care, by health care, at scale
Watts N, Andrew T, Bagenal J, Eckelman M, Fry J, Henson A, Horton R, Isaranuwatchai W, Jankin S, Kc S, Lee J, McAlister S, McGain F, Nansai K, O'Shea C, Tang L, Hua M, Rizan C. The Lancet MedZero: carbon analytics for health care, by health care, at scale. The Lancet 2025 PMID: 41242334, DOI: 10.1016/s0140-6736(25)02280-9.Peer-Reviewed Original ResearchThe 2025 report of the Lancet Countdown on health and climate change: climate change action offers a lifeline
Romanello M, Walawender M, Hsu S, Moskeland A, Palmeiro-Silva Y, Scamman D, Smallcombe J, Abdullah S, Ades M, Al-Maruf A, Ameli N, Angelova D, Ayeb-Karlsson S, Ballester J, Basagaña X, Bechara H, Beggs P, Cai W, Campbell-Lendrum D, Charnley G, Courtenay O, Cross T, Dalin C, Dasandi N, Dasgupta S, Davies M, Eckelman M, Freyberg C, Corral P, Gasparyan O, Giguere J, Gordon-Strachan G, Gumy S, Gunther S, Hamilton I, Hang Y, Hänninen R, Hartinger S, He K, Heidecke J, Hess J, Jankin S, Jay O, Pantera D, Kelman I, Kennard H, Kiesewetter G, Kinney P, Kniveton D, Koubi V, Kouznetsov R, Lampard P, Lee J, Lemke B, Li B, Linke A, Liu Y, Liu Z, Lowe R, Ma S, Mabhaudhi T, Maia C, Markandya A, Martin G, Martinez-Urtaza J, Maslin M, McAllister L, McMichael C, Mi Z, Milner J, Minor K, Minx J, Mohajeri N, Momen N, Moradi-Lakeh M, Morrisey K, Munzert S, Murray K, Obradovich N, Orgen P, Otto M, Owfi F, Pearman O, Pega F, Pershing A, Pinho-Gomes A, Ponmattam J, Rabbaniha M, Repke T, Roa J, Robinson E, Rocklöv J, Rojas-Rueda D, Ruiz-Cabrejos J, Rusticucci M, Salas R, Plana A, Semenza J, Sherman J, Shumake-Guillemot J, Singh P, Sjödin H, Smith M, Sofiev M, Sorensen C, Springmann M, Stowell J, Tabatabaei M, Tartarini F, Taylor J, Tonne C, Treskova M, Trinanes J, Uppstu A, Valdes-Ortega N, Wagner F, Watts N, Whitcombe H, Wood R, Yang P, Zhang Y, Zhang S, Zhang C, Zhang S, Zhu Q, Gong P, Montgomery H, Costello A. The 2025 report of the Lancet Countdown on health and climate change: climate change action offers a lifeline. The Lancet 2025, 406: 2804-2857. PMID: 41175887, DOI: 10.1016/s0140-6736(25)01919-1.Peer-Reviewed Original ResearchThe Environmental Impact of Short-Stay Total Shoulder Arthroplasty
Woolley K, Wang K, Niknam K, Wague A, Marino M, Feeley B, Ma C, Eckelman M, Gandhi S, Lansdown D. The Environmental Impact of Short-Stay Total Shoulder Arthroplasty. JBJS Open Access 2025, 10: e25.00097. PMID: 41112700, PMCID: PMC12533998, DOI: 10.2106/jbjs.oa.25.00097.Peer-Reviewed Original ResearchLife cycle analysisEnvironmental impactEnvironmental implicationsPostanesthesia care unitOutpatient total shoulder arthroplastyPhase of careWaste auditDescription of levels of evidenceLevel of evidenceGasoline-powered vehiclesPatient careTotal shoulder arthroplastyEnvironmental sustainabilityWastePublic healthChart reviewLevel IVHealthcare sectorCare unitCareNonresidential buildingsPatient demographicsOR#148 Impact of targeted screening in high-risk individuals and guideline-directed medical therapy on CKD burden in Europe: projections from IMPACT CKD
Tangri N, Habib J, Rao N, Robson B, Guldemond N, Eckelman M, Moura A, Audehm R, Adshead F, Zhao M, Wanner C, Chadban S. #148 Impact of targeted screening in high-risk individuals and guideline-directed medical therapy on CKD burden in Europe: projections from IMPACT CKD. Nephrology Dialysis Transplantation 2025, 40: gfaf116.047. DOI: 10.1093/ndt/gfaf116.047.Peer-Reviewed Original ResearchGuideline-directed medical therapyChronic kidney disease burdenEstimated glomerular filtration rateChronic kidney diseaseTargeted screeningChronic kidney disease progressionAlbumin-creatinine ratio testingAdherence to guideline-directed medical therapyGDMT adherenceChronic kidney disease screeningCumulative prevalenceCV eventsImpact of screeningFull-time equivalentCurrent practicesMedical therapyHigh-risk individualsPrevalence of chronic kidney diseaseAll-Cause MortalityDiabetes mellitusUndiagnosed CKDAcute kidney injury eventsHigh-risk populationEstimated glomerular filtration rate declineHigh-risk population screeningEnergy-saving radiotherapy paths: Cost-effectiveness analysis of environmental health co-benefits.
Silva G, Anand C, McSween Z, Thiel C, Eckelman M, Matous A, Grover S, Lichter K. Energy-saving radiotherapy paths: Cost-effectiveness analysis of environmental health co-benefits. JCO Oncology Practice 2025, 21: 15-15. DOI: 10.1200/op.2025.21.10_suppl.15.Peer-Reviewed Original ResearchDisability-adjusted life yearsPer-patient savingsConventional RTProstate cancerEligible patientsCost-effectiveness analysisClinically eligible patientsRadiation therapyCo-benefitsHigh-value careClinical outcomesBreast cancerTreatment volumeLife cycle assessment dataCancer careCancerPatientsEnvironmental co-benefitsHealth Co-BenefitsLife yearsProstateHealthcare systemAnnual national savingsEvidence-basedPollution burdenInternational environmental impact of chronic kidney disease care
Barraclough K, Cases A, Eckelman M, Germond-Duret C, Zoccali C, Embleton N, Wright A, Hubbert L, Nicholson L, Barone S, Cabrera C, Sanchez J, Selvarajah V, Pecoits-Filho R. International environmental impact of chronic kidney disease care. Kidney International Reports 2025, 103662. DOI: 10.1016/j.ekir.2025.10.019.Peer-Reviewed Original ResearchLife cycle assessmentEnvironmental impactGreenhouse gasesGHG emissionsReCiPe impact assessment methodImpact assessment methodsAnnual GHG emissionsCarbon dioxide equivalentAnnual environmental impactGreenhouse gas emissionsEnvironmental burdenEnvironmental effectsDevelopment of targeted interventionsChronic kidney diseaseAssessment methodsEmissionIn-centre haemodialysisModel inputsCKD populationCO2eUK populationImpactKidney replacement therapyTonnesHotspotsThe climate and health impact of U.S. radiation therapy: estimating greenhouse gas emissions, DALYs, and potential of hypofractionation
Lichter K, Asaro A, Qureshi M, Truong M, Parekh A, Witztum A, Anand C, Silva G, Royce T, Zaorsky N, Grover S, Abdel-Wahab M, Kouzi Z, Gadoue S, Thiel C, Eckelman M, Prionas N, Yom S, Mohamad O. The climate and health impact of U.S. radiation therapy: estimating greenhouse gas emissions, DALYs, and potential of hypofractionation. Radiotherapy And Oncology 2025, 214: 111161. PMID: 40983187, DOI: 10.1016/j.radonc.2025.111161.Peer-Reviewed Original ResearchExternal beam radiation therapyEarly-stage breast cancerNational Cancer DatabaseDisability-adjusted life yearsRadiation therapyBreast cancerExternal beam radiation therapy treatmentAdoption of hypofractionationBeam radiation therapyPatient transportBreast cancer treatmentFractionation schedulesCancer DatabaseRadiation oncologyHypofractionationTreatment guidelinesRetrospective analysisCancer treatmentPatientsCancer typesLife cycle assessmentClinical practiceCancerLife yearsTherapy
News
News
- August 12, 2024Source: Yale News
Insights & Outcomes: Sea scorpions, delusions, and forensics-related stress
- May 27, 2022Source: Yale Planetary Solutions Project
From carbon capture to infectious disease: Planetary Solutions Project seed grants span disciplines to address global environmental challenges
- December 08, 2020
YSPH Researchers Contribute to New Lancet Countdown Report