2025
The Impact and Safety of GLP‐1 Agents and Breast Cancer
Parsons K, Montalvo M, Fischbach N, Taylor M, Alfaro S, Lustberg M. The Impact and Safety of GLP‐1 Agents and Breast Cancer. Cancer Medicine 2025, 14: e70932. PMID: 40552446, PMCID: PMC12186097, DOI: 10.1002/cam4.70932.Peer-Reviewed Original ResearchConceptsBreast cancer patientsGLP-1 receptor agonistsBreast cancerBreast cancer-specific mortalityCancer patientsBreast cancer incidenceBreast cancer ratesWeight management interventionsProportion of breast cancer patientsNon-cancer populationObese post-menopausal womenReceptor agonistsBreast cancer outcomesBreast cancer progressionWeight loss interventionWeight management strategiesEffective weight managementGLP-1Quality of lifeAll-Cause MortalityCancer-specific mortalityImprove patient outcomesObesity prevalenceWeb of ScienceCancer incidencePerinatal Exposures to Ambient Fine Particulate Matter and Outdoor Artificial Light at Night and Risk of Pediatric Papillary Thyroid Cancer
Deziel N, Wang R, Warren J, Dinauer C, Ogilvie J, Clark C, Zhong C, Wiemels J, Morimoto L, Metayer C, Ma X. Perinatal Exposures to Ambient Fine Particulate Matter and Outdoor Artificial Light at Night and Risk of Pediatric Papillary Thyroid Cancer. Environmental Health Perspectives 2025, 133: 057026. PMID: 40209106, PMCID: PMC12121722, DOI: 10.1289/ehp14849.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAir PollutantsCaliforniaCarcinoma, PapillaryCase-Control StudiesChildChild, PreschoolEnvironmental ExposureFemaleHumansInfantInfant, NewbornLightingMaleParticulate MatterPregnancyPrenatal Exposure Delayed EffectsRisk FactorsThyroid Cancer, PapillaryThyroid NeoplasmsYoung AdultConceptsThyroid cancer riskOutdoor artificial lightAmbient fine particulate matterCancer riskOdds ratioAge groupsConfidence intervalsExposure to ambient fine particulate matterIndividual-level exposuresAssociated with thyroid cancerPediatric thyroid cancer incidenceControls frequency-matchedPapillary thyroid cancer riskThyroid cancer incidenceFine particulate matterCalifornia birth cohortOutdoor air pollutionAerodynamic diameter <Case-control studyHypothesized risk factorsStatistically significant associationCancer incidenceThyroid cancerExposure tertilesFrequency-matchedState-Specific Incidence of Endometrial Cancer in the U.S. by Histologic Subtype Corrected for Hysterectomy Prevalence, 2010 to 2019.
Clarke M, Fisher J, Wentzensen N, Wijayabahu A, Arend R, Jones R, Erickson B. State-Specific Incidence of Endometrial Cancer in the U.S. by Histologic Subtype Corrected for Hysterectomy Prevalence, 2010 to 2019. Cancer Epidemiology Biomarkers & Prevention 2025, of1-of8. PMID: 40392197, DOI: 10.1158/1055-9965.epi-25-0057.Peer-Reviewed Original ResearchEndometrial cancer incidence ratesCancer incidence ratesHysterectomy prevalenceNon-endometrioid cancersIncidence rateNorth American Association of Central Cancer RegistriesBehavioral Risk Factor Surveillance SystemIncidence rates of endometrial cancerIncident endometrial cancer casesRisk Factor Surveillance SystemHysterectomy-corrected ratesCancer control effortsCentral Cancer RegistryEndometrial cancerRates of endometrial cancerEndometrial cancer incidenceNorth American AssociationEndometrial cancer ratesHysterectomy prevalence dataEndometrial cancer casesIncidence of endometrial cancerGeographic risk factorsCancer overallCancer RegistryCancer incidenceTrends in Cancer Incidence and Mortality Rates in Early-Onset and Older-Onset Age Groups in the United States, 2010-2019.
Shiels M, Haque A, Berrington de González A, Camargo M, Clarke M, Davis Lynn B, Engels E, Freedman N, Gierach G, Hofmann J, Jones R, Loftfield E, Sinha R, Morton L, Chanock S. Trends in Cancer Incidence and Mortality Rates in Early-Onset and Older-Onset Age Groups in the United States, 2010-2019. Cancer Discovery 2025, of1-of14. PMID: 40338148, DOI: 10.1158/2159-8290.cd-24-1678.Peer-Reviewed Original ResearchCost-effectiveness of Lynch syndrome screening in colorectal cancer: universal germline vs sequential screening
Ito S, Xicola R, Sra M, Potnis K, Singh V, Gershkovich P, Stites E, Gibson J, Krumholz H, Llor X, Goshua G. Cost-effectiveness of Lynch syndrome screening in colorectal cancer: universal germline vs sequential screening. Clinical Gastroenterology And Hepatology 2025 PMID: 40315972, DOI: 10.1016/j.cgh.2025.03.006.Peer-Reviewed Original ResearchLynch syndromeIncremental cost-effectiveness ratioGermline testingColorectal cancerProspective Lynch Syndrome DatabaseColorectal cancer probandsNational Cancer Institute's SurveillancePre-/post-interventionPreventing cancer incidenceLynch syndrome screeningEnd Results ProgramCost-effective interventionHealth system perspectiveCost-effectiveCancer incidenceQuality-adjusted life expectancyInstitute's SurveillanceResults ProgramProspective interventionStandard-of-careCost-effectiveness ratioLS testingCohort studyGenetic testingPrimary outcomeThe associations between dairy intake and chronic liver disease mortality and liver cancer incidence: a prospective cohort study
Liu X, Zhang X, Zhao L, Petrick J, Liao L, Wang W, He N, Giovannucci E, Zhang Z, McGlynn K, Zhang X. The associations between dairy intake and chronic liver disease mortality and liver cancer incidence: a prospective cohort study. American Journal Of Clinical Nutrition 2025, 122: 263-273. PMID: 40306387, PMCID: PMC12308092, DOI: 10.1016/j.ajcnut.2025.04.028.Peer-Reviewed Original ResearchConceptsChronic liver disease mortalityHigh-fat dairyLiver cancer incidenceTotal dairy intakeLow-fat dairyAssociated with intakeAssociated with riskDairy intakeCancer incidenceIncident liver cancer casesIntakes of high-fat dairyHigh-fat dairy intakeHealth Study cohortLiver disease mortalitySelf-administered validated questionnairePre-existing cancer diagnosisIntake of dairy productsLiver cancer riskLow-fat dairy productsChronic liver diseaseHigh-fat milkAssociated with liver cancerLow-fat milkProspective cohort studyCox proportional hazards modelsEstimation of Cancer Deaths Averted From Prevention, Screening, and Treatment Efforts, 1975-2020
Goddard K, Feuer E, Mandelblatt J, Meza R, Holford T, Jeon J, Lansdorp-Vogelaar I, Gulati R, Stout N, Howlader N, Knudsen A, Miller D, Caswell-Jin J, Schechter C, Etzioni R, Trentham-Dietz A, Kurian A, Plevritis S, Hampton J, Stein S, Sun L, Umar A, Castle P. Estimation of Cancer Deaths Averted From Prevention, Screening, and Treatment Efforts, 1975-2020. JAMA Oncology 2025, 11: 162-167. PMID: 39636625, PMCID: PMC11622066, DOI: 10.1001/jamaoncol.2024.5381.Peer-Reviewed Original ResearchCancer mortality dataCancer sitesCancer deathMortality dataCancer preventionRemoval of precancerous polypsSmoking reductionCancer control continuumColorectal cancer deathsSurveillance Modeling NetworkBreast cancer deathsLung cancer deathsCervical cancer deathsContribution of preventionScreening uptakeEffectiveness of preventionPrecancerous polypsControl continuumCancer incidenceMultiple birth cohortsCancer mortalityCancer burdenDissemination of effective interventionsCancer survivalMain OutcomesIndustrial Air Emissions and Breast Cancer Incidence in a United States-wide Prospective Cohort
Ish J, Madrigal J, Pearce J, Keil A, Fisher J, Jones R, Sandler D, White A. Industrial Air Emissions and Breast Cancer Incidence in a United States-wide Prospective Cohort. Epidemiology 2025, 36: 391-400. PMID: 39855262, DOI: 10.1097/ede.0000000000001837.Peer-Reviewed Original ResearchBreast cancer incidenceCancer incidenceBreast cancerIncidence of breast cancerEstimate adjusted hazard ratiosHazard ratioAssociated with breast cancerIncident breast cancerConfidence intervalsBreast cancer casesAdjusted hazard ratiosCox proportional hazards regressionProportional hazards regressionParticipating residentsCancer casesHazards regressionProspective cohortStudy enrollmentElevated associationIndustrial air emissionsIndustrial carcinogensCharacterized associationsBreastFollow-upPollutant mixturesSleep Duration, Dietary Inflammatory Potential, and Obesity in Relation to Colorectal Cancer Incidence in the Multiethnic Cohort
Tembo P, Zhao L, Le Marchand L, Wilkens L, Park S, Haiman C, Wirth M, Hébert J. Sleep Duration, Dietary Inflammatory Potential, and Obesity in Relation to Colorectal Cancer Incidence in the Multiethnic Cohort. Nutrients 2025, 17: 370. PMID: 39940229, PMCID: PMC11820058, DOI: 10.3390/nu17030370.Peer-Reviewed Original ResearchConceptsColorectal cancer incidenceColorectal cancer riskEnergy-adjusted dietary inflammatory indexColorectal cancer casesPro-inflammatory dietLong sleep durationMultiethnic cohortSleep durationColorectal cancerSelf-ReportHazard ratioInflammatory potentialPro-inflammatory dietary patternModifiable risk factorsSuboptimal sleep durationDietary inflammatory indexDietary inflammatory potentialYears of follow-upProspective cohort studyCox proportional hazards modelsNon-obese individualsCancer-related morbidityCRC riskCancer RegistryCancer incidence
2024
Updated CP*Trends: An Online Tool to Compare Cohort and Period Trends across Cancer Sites
Holford T, Chen H, Kane M, Krapcho M, Annett D, Esclamado L, Melkonyan A, Feuer E. Updated CP*Trends: An Online Tool to Compare Cohort and Period Trends across Cancer Sites. American Journal Of Epidemiology 2024, kwae398. PMID: 39475089, DOI: 10.1093/aje/kwae398.Peer-Reviewed Original ResearchCancer sitesAfrican AmericansCervical cancer incidence trendsCancer incidence trendsMortality trendsCancer incidenceIncidence trendsEffect of cohortConfidence intervalsPeriod effectsInteractive websiteCohortAmericanSample sizeScoresWhiteEffects of periodMortalityCancerC-P scoreBootstrap confidence intervalsIncidenceSEERWebsitesTrendsThyroid Cancer Incidence During 2020 to 2021 COVID-19 Variant Waves
Bell R, Weinberger D, Venkatesh M, Fernandes-Taylor S, Francis D, Davies L. Thyroid Cancer Incidence During 2020 to 2021 COVID-19 Variant Waves. JAMA Otolaryngology - Head & Neck Surgery 2024, 150: 969-977. PMID: 39388144, PMCID: PMC11581733, DOI: 10.1001/jamaoto.2024.3146.Peer-Reviewed Original ResearchThyroid cancer incidenceThyroid cancer diagnosisCancer incidenceUS adultsCancer diagnosisRates of thyroid cancer diagnosisUndiagnosed casesThyroid cancer casesIncidence of thyroid cancerCases of thyroid cancerAdvanced stage cancerMain OutcomesCancer casesUS populationHistological typeIncidence rateThyroid cancerPopulation morbiditySize of cancerStudy analyzed trendsQuarterly ratesFollicular cancerMedullary cancerPapillary cancerAnaplastic cancerAssociation between family history with lung cancer incidence and mortality risk in the Asia Cohort Consortium
Kishida R, Yin X, Abe S, Rahman S, Saito E, Islam R, Lan Q, Blechter B, Rothman N, Sawada N, Tamakoshi A, Shu X, Hozawa A, Kanemura S, Kim J, Sugawara Y, Park S, Kweon S, Ahsan H, Boffetta P, Chia K, Matsuo K, Qiao Y, Zheng W, Inoue M, Kang D, Seow W. Association between family history with lung cancer incidence and mortality risk in the Asia Cohort Consortium. International Journal Of Cancer 2024, 156: 723-733. PMID: 39361428, PMCID: PMC11661513, DOI: 10.1002/ijc.35191.Peer-Reviewed Original ResearchFamily history of lung cancerAsia Cohort ConsortiumCohort ConsortiumLC incidenceSmoking statusFamily historyHazard ratioRisk of lung cancerIncreased risk of lung adenocarcinomaHistory of lung cancerConfidence intervalsLung cancer incidenceSignificant effect modificationEstimate hazard ratiosIncreased riskPopulation-based cohortCox proportional hazards regression modelsRisk of lung adenocarcinomaProspective cohort studyAssociated with increased riskLung cancerProportional hazards regression modelsEthnic groupsHazards regression modelsCancer incidenceOutdoor Air Pollution Exposure and Ovarian Cancer Incidence in a United States–Wide Prospective Cohort Study
Ish J, Chang C, Bookwalter D, Jones R, O’Brien K, Kaufman J, Sandler D, White A. Outdoor Air Pollution Exposure and Ovarian Cancer Incidence in a United States–Wide Prospective Cohort Study. Environmental Health Perspectives 2024, 132: 107701. PMID: 39352804, PMCID: PMC11444316, DOI: 10.1289/ehp14729.Peer-Reviewed Original ResearchRobotic-Assisted Microsurgery in Lymphatic Reconstruction
Stögner V, Pucciarelli D, Pomahac B, Ayyala H. Robotic-Assisted Microsurgery in Lymphatic Reconstruction. Journal Of Craniofacial Surgery 2024, 36: 359-362. PMID: 39283135, DOI: 10.1097/scs.0000000000010608.Peer-Reviewed Original ResearchLymphatic reconstructionRobotic-assisted microsurgeryBreast cancer-related lymphedemaCancer-related lymphedemaSurgical outcomesYears of clinical experienceMicrosurgical reconstructionPatient groupLymphatic flowCancer incidenceSurvival rateLymphatic anastomosisMicrosurgical performanceClinical experienceMicrosurgeryLower extremitiesHuman vesselsLymphatic microsurgeryPatientsMicrosurgical robotPhysiological tremorEpigenome-wide association study of household air pollution exposure in an area with high lung cancer incidence.
Rahman M, Portengen L, Wong J, Breeze C, Blechter B, Hu W, Downward G, Zhang Y, Cardenas A, Ning B, Li J, Yang K, Hosgood H, Silverman D, Huang Y, Rothman N, Vermeulen R, Lan Q. Epigenome-wide association study of household air pollution exposure in an area with high lung cancer incidence. ISEE Conference Abstracts 2024, 2024 DOI: 10.1289/isee.2024.1088.Peer-Reviewed Original ResearchStudy Profile of the Tsuruoka Metabolomics Cohort Study (TMCS)
Harada S, Iida M, Miyagawa N, Hirata A, Kuwabara K, Matsumoto M, Okamura T, Edagawa S, Kawada Y, Miyake A, Toki R, Akiyama M, Kawai A, Sugiyama D, Sato Y, Takemura R, Fukai K, Ishibashi Y, Kato S, Kurihara A, Sata M, Shibuki T, Takeuchi A, Kohsaka S, Sawano M, Shoji S, Izawa Y, Katsumata M, Oki K, Takahashi S, Takizawa T, Maruya H, Nishiwaki Y, Kawasaki R, Hirayama A, Ishikawa T, Saito R, Sato A, Soga T, Sugimoto M, Tomita M, Komaki S, Ohmomo H, Ono K, Otsuka-Yamasaki Y, Shimizu A, Sutoh Y, Hozawa A, Kinoshita K, Koshiba S, Kumada K, Ogishima S, Sakurai-Yageta M, Tamiya G, Takebayashi T. Study Profile of the Tsuruoka Metabolomics Cohort Study (TMCS). Journal Of Epidemiology 2024, 34: 393-401. PMID: 38191178, PMCID: PMC11230875, DOI: 10.2188/jea.je20230192.Peer-Reviewed Original ResearchTsuruoka Metabolomics Cohort StudyCohort studyOngoing population-based cohort studyPrecision preventionPopulation-based cohort studySocial health determinantsHeated tobacco productsDisease sequelaeRisk stratificationAge-associated diseasesCancer incidenceDeep molecular profilingCardiovascular diseaseFunctional declinePhenotypic probeWomen's healthOngoing followHealth determinantsHealth statusDisease pathophysiologyPotential biomarkersTobacco productsMolecular profilingDiseaseHigh participation ratesDiabetes is associated with increased liver cancer incidence and mortality in adults: A report from Asia Cohort Consortium
Ho N, Abe S, Rahman S, Islam R, Saito E, Gupta P, Pednekar M, Sawada N, Tsugane S, Tamakoshi A, Kimura T, Shu X, Gao Y, Koh W, Cai H, Wen W, Sakata R, Tsuji I, Malekzadeh R, Pourshams A, Kanemura S, Kim J, Chen Y, Ito H, Oze I, Nagata C, Wada K, Sugawara Y, Park S, Shin A, Yuan J, Wang R, Kweon S, Shin M, Poustchi H, Vardanjani H, Ahsan H, Chia K, Matsuo K, Qiao Y, Rothman N, Zheng W, Inoue M, Kang D, Boffetta P. Diabetes is associated with increased liver cancer incidence and mortality in adults: A report from Asia Cohort Consortium. International Journal Of Cancer 2024, 155: 854-870. PMID: 38661292, DOI: 10.1002/ijc.34965.Peer-Reviewed Original ResearchLiver cancer incidenceAsia Cohort ConsortiumBaseline diabetesCancer incidenceCohort ConsortiumAssociated with increased liver cancer riskMortality of liver cancerHazard ratioLiver cancer mortalityTwo-stage meta-analysisLiver cancer riskMeta-analysisCox proportional hazards modelsBody mass indexFollow-up timeProportional hazards modelCancer mortalityCancer riskTobacco smokeBaseline ageCumulative incidence of deathCancer diagnosisCohort studyMeta-analytic approachMass indexFamily history and gastric cancer incidence and mortality in Asia: a pooled analysis of more than half a million participants
Huang D, Song M, Abe S, Rahman M, Islam M, Saito E, De la Torre K, Sawada N, Tamakoshi A, Shu X, Cai H, Hozawa A, Kanemura S, Kim J, Chen Y, Ito H, Sugawara Y, Park S, Shin M, Hirabayashi M, Kimura T, Gao Y, Wen W, Oze I, Shin A, Ahn Y, Ahsan H, Boffetta P, Chia K, Matsuo K, Qiao Y, Rothman N, Zheng W, Inoue M, Kang D. Family history and gastric cancer incidence and mortality in Asia: a pooled analysis of more than half a million participants. Gastric Cancer 2024, 27: 701-713. PMID: 38649672, PMCID: PMC11193690, DOI: 10.1007/s10120-024-01499-1.Peer-Reviewed Original ResearchFamily history of gastric cancerHistory of gastric cancerGastric cancer incidenceIncident gastric cancerCancer incidenceFamily historyRisk of incident gastric cancerBurden of gastric cancerHazard ratioGastric cancer deathsAsia Cohort ConsortiumGastric cancer mortalityRisk of gastric cancerConfidence intervalsGastric cancer riskRandom-effects meta-analysesCox proportional hazards regressionProportional hazards regressionCase-control studyCohort ConsortiumCancer mortalityCancer surveillanceCancer riskTargeted educationStratified analysisOutdoor air pollution exposure and uterine cancer incidence in the Sister Study
Brown J, Ish J, Chang C, Bookwalter D, O’Brien K, Jones R, Kaufman J, Sandler D, White A. Outdoor air pollution exposure and uterine cancer incidence in the Sister Study. Journal Of The National Cancer Institute 2024, 116: 948-956. PMID: 38346713, PMCID: PMC11160506, DOI: 10.1093/jnci/djae031.Peer-Reviewed Original ResearchUterine cancer incidenceIncidence of uterine cancerCancer incidenceAir pollution exposureOutdoor air pollutionUterine cancerPollution exposureOutdoor air pollution exposureAnnual average air pollutant concentrationsHazard ratioSister Study participantsHealth effects associated with air pollutionReduce air pollution exposureConfidence intervalsVehicular traffic exposureAverage air pollutant concentrationsEstimate hazard ratiosUterine cancer casesCox proportional hazards modelsExposure to particulatesProportional hazards modelAir pollutionCancer casesStudy participantsTraffic exposureStrategies to decrease inequalities in cancer therapeutics, care and prevention
Ringborg U, von Braun J, Celis J, Baumann M, Berns A, Eggermont A, Heard E, Heitor M, Chandy M, Chen C, Costa A, De Lorenzo F, De Robertis E, Dubee F, Ernberg I, Gabriel M, Helland Å, Henrique R, Jönsson B, Kallioniemi O, Korbel J, Krause M, Lowy D, Michielin O, Nagy P, Oberst S, Paglia V, Parker M, Ryan K, Sawyers C, Schüz J, Silkaitis K, Solary E, Thomas D, Turkson P, Weiderpass E, Yang H. Strategies to decrease inequalities in cancer therapeutics, care and prevention. Molecular Oncology 2024, 18: 245-279. PMID: 38135904, PMCID: PMC10850793, DOI: 10.1002/1878-0261.13575.Peer-Reviewed Original ResearchConceptsComprehensive cancer centreEuropean Academy of Cancer SciencesEurope's Beating Cancer PlanHealthcare systemCancer research continuumPrevention modalitiesCost-effective healthcareCancer research infrastructureCancer PlanCancer incidencePatient needsPatient careResearch continuumPrevention opportunitiesPrevention programsCancer preventionCancer centreOutcomes researchHealthcareEconomic statusPontifical Academy of SciencesDecreasing inequalityState-of-the-art patient careCancer scienceResearch portfolio
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