2024
Genome-Wide Analysis to Assess if Heavy Alcohol Consumption Modifies the Association between SNPs and Pancreatic Cancer Risk.
Ni Z, Kundu P, McKean D, Wheeler W, Albanes D, Andreotti G, Antwi S, Arslan A, Bamlet W, Beane-Freeman L, Berndt S, Bracci P, Brennan P, Buring J, Chanock S, Gallinger S, Gaziano J, Giles G, Giovannucci E, Goggins M, Goodman P, Haiman C, Hassan M, Holly E, Hung R, Katzke V, Kooperberg C, Kraft P, LeMarchand L, Li D, McCullough M, Milne R, Moore S, Neale R, Oberg A, Patel A, Peters U, Rabe K, Risch H, Shu X, Smith-Byrne K, Visvanathan K, Wactawski-Wende J, White E, Wolpin B, Yu H, Zeleniuch-Jacquotte A, Zheng W, Zhong J, Amundadottir L, Stolzenberg-Solomon R, Klein A. Genome-Wide Analysis to Assess if Heavy Alcohol Consumption Modifies the Association between SNPs and Pancreatic Cancer Risk. Cancer Epidemiology Biomarkers & Prevention 2024, 33: 1229-1239. PMID: 38869494, DOI: 10.1158/1055-9965.epi-24-0096.Peer-Reviewed Original ResearchConceptsPancreatic cancer riskHeavy alcohol consumptionCancer riskSingle-nucleotide polymorphismsAlcohol consumptionExpression quantitative trait lociQuantitative trait lociAssociated with pancreatic cancer riskGenome-wide interaction analysisGenome-wide significant evidenceEtiology of pancreatic cancerFixed-effect meta-analysesGenomic regionsGenome-wide significant evidence of associationLead single-nucleotide polymorphismsTrait lociGenetic variantsEuropean ancestry populationsEvidence of associationGenome-wide association studiesAnalysis of single-nucleotide polymorphismsCase-control studyPancreatic cancerGenome-wide analysisAncestry populations
2023
Genetic Susceptibility to Nonalcoholic Fatty Liver Disease and Risk for Pancreatic Cancer: Mendelian Randomization.
King S, Veliginti S, Brouwers M, Ren Z, Zheng W, Setiawan V, Wilkens L, Shu X, Arslan A, Beane Freeman L, Bracci P, Canzian F, Du M, Gallinger S, Giles G, Goodman P, Haiman C, Kogevinas M, Kooperberg C, LeMarchand L, Neale R, Visvanathan K, White E, Albanes D, Andreotti G, Babic A, Berndt S, Brais L, Brennan P, Buring J, Rabe K, Bamlet W, Chanock S, Fuchs C, Gaziano J, Giovannucci E, Hackert T, Hassan M, Katzke V, Kurtz R, Lee I, Malats N, Murphy N, Oberg A, Orlow I, Porta M, Real F, Rothman N, Sesso H, Silverman D, Thompson I, Wactawski-Wende J, Wang X, Wentzensen N, Yu H, Zeleniuch-Jacquotte A, Yu K, Wolpin B, Duell E, Li D, Hung R, Perdomo S, McCullough M, Freedman N, Patel A, Peters U, Riboli E, Sund M, Tjønneland A, Zhong J, Van Den Eeden S, Kraft P, Risch H, Amundadottir L, Klein A, Stolzenberg-Solomon R, Antwi S. Genetic Susceptibility to Nonalcoholic Fatty Liver Disease and Risk for Pancreatic Cancer: Mendelian Randomization. Cancer Epidemiology Biomarkers & Prevention 2023, 32: 1265-1269. PMID: 37351909, PMCID: PMC10529823, DOI: 10.1158/1055-9965.epi-23-0453.Peer-Reviewed Original ResearchConceptsNonalcoholic fatty liver diseasePancreatic cancer riskFatty liver diseasePancreatic cancerCancer riskLiver diseaseGenetic predispositionMendelian randomizationPancreatic Cancer Case-Control ConsortiumConfidence intervalsPancreatic Cancer Cohort ConsortiumPC risk factorsMR methodsRisk factorsGenome-wide association studiesGenetic susceptibilityLogistic regressionCancerMetabolic perturbationsMetabolic conditionsRiskDiseaseGenetic variantsAssociationPredispositionRelationship between ABO Blood Group Alleles and Pancreatic Cancer Is Modulated by Secretor (FUT2) Genotype, but Not Lewis Antigen (FUT3) Genotype.
Kim J, Yuan C, Amundadottir L, Wolpin B, Klein A, Risch H, Kraft P. Relationship between ABO Blood Group Alleles and Pancreatic Cancer Is Modulated by Secretor (FUT2) Genotype, but Not Lewis Antigen (FUT3) Genotype. Cancer Epidemiology Biomarkers & Prevention 2023, 32: 1242-1248. PMID: 37342060, PMCID: PMC10527950, DOI: 10.1158/1055-9965.epi-23-0009.Peer-Reviewed Original ResearchConceptsNon-O blood typeABO blood groupSecretor statusBlood typeBlood groupNon-O blood groupMultivariable logistic regressionConfidence intervalsPancreatic cancer riskO blood typeABO blood typeABO blood group allelesPancreatic ductal adenocarcinoma (PDAC) riskAdenocarcinoma riskAntigen genotypesPancreatic cancerEffect modificationSecretor genotypesCancer riskPDAC riskCancer ConsortiumBlood group allelesLogistic regressionLewis antigensWestern populations
2022
The age-dependent association of risk factors with pancreatic cancer
Yuan C, Kim J, Wang QL, Lee AA, Babic A, Consortium P, Amundadottir LT, Ardanaz E, Arslan A, Beane-Freeman L, Bracci P, Bueno-de-Mesquita B, Du M, Gallinger S, Giles G, Goodman P, Katzke V, Klein A, Kooperberg C, Kraft P, Li D, Malats N, Marchand L, McCullough M, Milne R, Neoptolemos J, Perdomo S, Petersen G, Risch H, Shu X, Stolzenberg-Solomon R, Van Den Eeden S, Visvanathan K, White E, Wolpin B, Zheng W, Amundadottir L, Klein A, Li D, McCullough M, Petersen G, Risch H, Stolzenberg-Solomon R, Perez K, Ng K, Giovannucci E, Stampfer M, Kraft P, Wolpin B. The age-dependent association of risk factors with pancreatic cancer. Annals Of Oncology 2022, 33: 693-701. PMID: 35398288, PMCID: PMC9233063, DOI: 10.1016/j.annonc.2022.03.276.Peer-Reviewed Original ResearchConceptsPancreatic cancer casesRisk factorsPancreatic cancerProspective cohortMale sexBlack raceSEER programCancer casesPolygenic risk scoresRisk scoreProspective US cohort studyNon-modifiable risk factorsNon-O blood groupIncident pancreatic cancerUS cohort studyEnd Results ProgramPancreatic cancer riskAge-specific associationsEarly detection strategiesAge-dependent associationGenome-wide association studiesAdvanced diseaseCancer presentsCohort studyUS Surveillance
2020
Associations between Genetically Predicted Blood Protein Biomarkers and Pancreatic Cancer Risk
Zhu J, Shu X, Guo X, Liu D, Bao J, Milne RL, Giles GG, Wu C, Du M, White E, Risch HA, Malats N, Duell EJ, Goodman PJ, Li D, Bracci P, Katzke V, Neale RE, Gallinger S, Van Den Eeden SK, Arslan AA, Canzian F, Kooperberg C, Freeman L, Scelo G, Visvanathan K, Haiman CA, Le Marchand L, Yu H, Petersen GM, Stolzenberg-Solomon R, Klein AP, Cai Q, Long J, Shu XO, Zheng W, Wu L. Associations between Genetically Predicted Blood Protein Biomarkers and Pancreatic Cancer Risk. Cancer Epidemiology Biomarkers & Prevention 2020, 29: 1501-1508. PMID: 32439797, PMCID: PMC7334065, DOI: 10.1158/1055-9965.epi-20-0091.Peer-Reviewed Original ResearchConceptsPancreatic ductal adenocarcinomaProtein quantitative trait lociQuantitative trait lociRisk variantsBlood protein biomarkersPathway enrichment analysisPotential target genesCancer-related pathwaysPDAC riskProtein biomarkersTrait lociTarget genesPancreatic Cancer Case-Control ConsortiumPancreatic Cancer Cohort ConsortiumEnrichment analysisProteinGenetic instrumentsPancreatic cancer riskProtein levelsGenesPDAC developmentProtein biomarker candidatesRisk factorsDuctal adenocarcinomaLethal malignancy
2018
Pancreatic cancer risk is modulated by inflammatory potential of diet and ABO genotype: a consortia-based evaluation and replication study
Antwi SO, Bamlet WR, Pedersen KS, Chaffee KG, Risch HA, Shivappa N, Steck SE, Anderson KE, Bracci PM, Polesel J, Serraino D, La Vecchia C, Bosetti C, Li D, Oberg AL, Arslan AA, Albanes D, Duell EJ, Huybrechts I, Amundadottir LT, Hoover R, Mannisto S, Chanock S, Zheng W, Shu XO, Stepien M, Canzian F, Bueno-de-Mesquita B, Quirós JR, Zeleniuch-Jacquotte A, Bruinsma F, Milne RL, Giles GG, Hébert JR, Stolzenberg-Solomon RZ, Petersen GM. Pancreatic cancer risk is modulated by inflammatory potential of diet and ABO genotype: a consortia-based evaluation and replication study. Carcinogenesis 2018, 39: 1056-1067. PMID: 29800239, PMCID: PMC6067129, DOI: 10.1093/carcin/bgy072.Peer-Reviewed Original ResearchConceptsNon-O blood typeCase-control studyABO blood typePancreatic cancerPC riskInflammatory potentialBlood typeOdds ratioEnergy-adjusted dietary inflammatory index (E-DII) scoreDietary Inflammatory Index scoresNutrient/food intakeMultivariable-adjusted logistic regressionHigher E-DII scoresInflammatory index scorePro-inflammatory dietE-DII scoresPancreatic Cancer Case-Control ConsortiumConfidence intervalsPancreatic cancer riskPooled odds ratioGreater inflammatory potentialPancreatic Cancer Cohort ConsortiumHigh inflammatory potentialDII quintilesPooled analysis
2016
Nonsteroidal anti-inflammatory drugs, statins, and pancreatic cancer risk: a population-based case–control study
Kho PF, Fawcett J, Fritschi L, Risch H, Webb PM, Whiteman DC, Neale RE. Nonsteroidal anti-inflammatory drugs, statins, and pancreatic cancer risk: a population-based case–control study. Cancer Causes & Control 2016, 27: 1457-1464. PMID: 27817122, DOI: 10.1007/s10552-016-0824-4.Peer-Reviewed Original ResearchConceptsNonsteroidal anti-inflammatory drugsUse of NSAIDsPopulation-based case-control studyCase-control studyAnti-inflammatory drugsPancreatic cancerProtective effectHistory of NSAIDsUnconditional multivariable logistic regressionSelective COX-2 inhibitorsMultivariable logistic regressionPancreatic cancer riskSex-matched controlsCOX-2 inhibitorsPancreatic cancer studiesStatin useMedication useSmoking statusCancer riskMedication sectionStatinsCancerLogistic regressionMore frequent usersCancer studiesAssociation between family cancer history and risk of pancreatic cancer
Schulte A, Pandeya N, Fawcett J, Fritschi L, Klein K, Risch HA, Webb PM, Whiteman DC, Neale RE. Association between family cancer history and risk of pancreatic cancer. Cancer Epidemiology 2016, 45: 145-150. PMID: 27810486, DOI: 10.1016/j.canep.2016.10.005.Peer-Reviewed Original ResearchConceptsPancreatic cancerFamily historyOdds ratioAustralian population-based case-control studyPopulation-based case-control studyLaird random-effects modelHistory of cancerAdjusted odds ratioPancreatic cancer patientsConfidence intervalsFamily cancer historyCase-control studyPancreatic cancer riskFirst-degree relativesRandom-effects modelMelanoma family historyPancreatic cancer studiesCancer historyCancer patientsRisk factorsPancreatic adenocarcinomaProstate cancerCancer riskMEDLINE databaseCancerThree new pancreatic cancer susceptibility signals identified on chromosomes 1q32.1, 5p15.33 and 8q24.21
Zhang M, Wang Z, Obazee O, Jia J, Childs EJ, Hoskins J, Figlioli G, Mocci E, Collins I, Chung CC, Hautman C, Arslan AA, Beane-Freeman L, Bracci PM, Buring J, Duell EJ, Gallinger S, Giles GG, Goodman GE, Goodman PJ, Kamineni A, Kolonel LN, Kulke MH, Malats N, Olson SH, Sesso HD, Visvanathan K, White E, Zheng W, Abnet CC, Albanes D, Andreotti G, Brais L, Bueno-de-Mesquita HB, Basso D, Berndt SI, Boutron-Ruault MC, Bijlsma MF, Brenner H, Burdette L, Campa D, Caporaso NE, Capurso G, Cavestro GM, Cotterchio M, Costello E, Elena J, Boggi U, Gaziano JM, Gazouli M, Giovannucci EL, Goggins M, Gross M, Haiman CA, Hassan M, Helzlsouer KJ, Hu N, Hunter DJ, Iskierka-Jazdzewska E, Jenab M, Kaaks R, Key TJ, Khaw KT, Klein EA, Kogevinas M, Krogh V, Kupcinskas J, Kurtz RC, Landi MT, Landi S, Marchand L, Mambrini A, Mannisto S, Milne RL, Neale RE, Oberg AL, Panico S, Patel AV, Peeters PH, Peters U, Pezzilli R, Porta M, Purdue M, Quiros JR, Riboli E, Rothman N, Scarpa A, Scelo G, Shu XO, Silverman DT, Soucek P, Strobel O, Sund M, Małecka-Panas E, Taylor PR, Tavano F, Travis RC, Thornquist M, Tjønneland A, Tobias GS, Trichopoulos D, Vashist Y, Vodicka P, Wactawski-Wende J, Wentzensen N, Yu H, Yu K, Zeleniuch-Jacquotte A, Kooperberg C, Risch HA, Jacobs EJ, Li D, Fuchs C, Hoover R, Hartge P, Chanock SJ, Petersen GM, Stolzenberg-Solomon RS, Wolpin BM, Kraft P, Klein AP, Canzian F, Amundadottir LT. Three new pancreatic cancer susceptibility signals identified on chromosomes 1q32.1, 5p15.33 and 8q24.21. Oncotarget 2016, 7: 66328-66343. PMID: 27579533, PMCID: PMC5340084, DOI: 10.18632/oncotarget.11041.Peer-Reviewed Original ResearchConceptsPancreatic tissue samplesControl subjectsSingle nucleotide polymorphismsTissue samplesPancreatic Cancer Case-Control ConsortiumCase-control studyPancreatic cancer riskSusceptibility variantsGenome-wide association studiesChromosome 1q32.1Risk lociCancer riskNew susceptibility variantsNR5A2 expressionCancer susceptibility variantsIndependent risk variantsMarked reductionTumorsEuropean descentRisk variantsDisease researchNucleotide polymorphismsCancer risk lociTarget genesSubjects
2015
TERT gene harbors multiple variants associated with pancreatic cancer susceptibility
Campa D, Rizzato C, Stolzenberg-Solomon R, Pacetti P, Vodicka P, Cleary SP, Capurso G, Bueno-de-Mesquita HB, Werner J, Gazouli M, Butterbach K, Ivanauskas A, Giese N, Petersen GM, Fogar P, Wang Z, Bassi C, Ryska M, Theodoropoulos GE, Kooperberg C, Li D, Greenhalf W, Pasquali C, Hackert T, Fuchs CS, Mohelnikova-Duchonova B, Sperti C, Funel N, Dieffenbach AK, Wareham NJ, Buring J, Holcátová I, Costello E, Zambon CF, Kupcinskas J, Risch HA, Kraft P, Bracci PM, Pezzilli R, Olson SH, Sesso HD, Hartge P, Strobel O, Małecka-Panas E, Visvanathan K, Arslan AA, Pedrazzoli S, Souček P, Gioffreda D, Key TJ, Talar-Wojnarowska R, Scarpa A, Mambrini A, Jacobs EJ, Jamroziak K, Klein A, Tavano F, Bambi F, Landi S, Austin MA, Vodickova L, Brenner H, Chanock SJ, Delle Fave G, Piepoli A, Cantore M, Zheng W, Wolpin BM, Amundadottir LT, Canzian F. TERT gene harbors multiple variants associated with pancreatic cancer susceptibility. International Journal Of Cancer 2015, 137: 2175-2183. PMID: 25940397, PMCID: PMC4548797, DOI: 10.1002/ijc.29590.Peer-Reviewed Original ResearchConceptsPancreatic cancer riskCancer riskTelomerase reverse transcriptasePancreatic cancerSingle nucleotide polymorphismsAdditional single nucleotide polymorphismsTelomerase RNA component genePancreatic cancer susceptibilitySignificant associationCommon susceptibility lociCancer susceptibilityStatistical significanceRs401681RiskReverse transcriptaseTERT locusCancerDisease researchMultiple testingNucleotide polymorphismsLinkage disequilibriumIndependent variantsSusceptibility lociAssociation between Helicobacter pylori and pancreatic cancer risk: a meta-analysis
Schulte A, Pandeya N, Fawcett J, Fritschi L, Risch HA, Webb PM, Whiteman DC, Neale RE. Association between Helicobacter pylori and pancreatic cancer risk: a meta-analysis. Cancer Causes & Control 2015, 26: 1027-1035. PMID: 25951801, DOI: 10.1007/s10552-015-0595-3.Peer-Reviewed Original ResearchConceptsH. pylori seropositivityPancreatic cancer riskPylori seropositivityPancreatic cancerOdds ratioCancer riskAustralian population-based case-control studyConfidence intervalsH. pyloriPopulation-based case-control studyHelicobacter pyloriOverall associationStrain-specific associationsLaird random-effects modelAdjusted odds ratioCase-control studyCytotoxin-associated geneSignificant overall associationRandom-effects modelEnzyme-linked immunosorbentPancreatic cancer studiesCagA seropositivityMethodsBlood samplesEpidemiological studiesSeropositivityVitamin D Metabolic Pathway Genes and Pancreatic Cancer Risk
Arem H, Yu K, Xiong X, Moy K, Freedman ND, Mayne ST, Albanes D, Arslan AA, Austin M, Bamlet WR, Beane-Freeman L, Bracci P, Canzian F, Cotterchio M, Duell EJ, Gallinger S, Giles GG, Goggins M, Goodman PJ, Hartge P, Hassan M, Helzlsouer K, Henderson B, Holly EA, Hoover R, Jacobs EJ, Kamineni A, Klein A, Klein E, Kolonel LN, Li D, Malats N, Männistö S, McCullough ML, Olson SH, Orlow I, Peters U, Petersen GM, Porta M, Severi G, Shu XO, Visvanathan K, White E, Yu H, Zeleniuch-Jacquotte A, Zheng W, Tobias GS, Maeder D, Brotzman M, Risch H, Sampson JN, Stolzenberg-Solomon RZ. Vitamin D Metabolic Pathway Genes and Pancreatic Cancer Risk. PLOS ONE 2015, 10: e0117574. PMID: 25799011, PMCID: PMC4370655, DOI: 10.1371/journal.pone.0117574.Peer-Reviewed Original ResearchConceptsPancreatic cancer riskVitamin D statusCancer riskD statusSingle nucleotide polymorphismsVitamin DPancreatic cancerVitamin D metabolic pathway genesVitamin D metabolic pathwayVitamin D concentrationsUnconditional logistic regressionPancreatic cancer casesVitamin D.Cohort casesCUBN geneEffect modificationPancreatic adenocarcinomaCancer casesD concentrationsLogistic regressionProduct StatisticsRiskTop single nucleotide polymorphismsMultiple comparisonsCancerUrinary Prostaglandin E2 Metabolite and Pancreatic Cancer Risk: Case-Control Study in Urban Shanghai
Zhao J, Wang J, Du J, Xu H, Zhang W, Ni QX, Yu H, Risch HA, Gao YT, Gao Y. Urinary Prostaglandin E2 Metabolite and Pancreatic Cancer Risk: Case-Control Study in Urban Shanghai. PLOS ONE 2015, 10: e0118004. PMID: 25679523, PMCID: PMC4332509, DOI: 10.1371/journal.pone.0118004.Peer-Reviewed Original ResearchConceptsCase-control studyPancreatic cancer riskPancreatic cancerOdds ratioCancer riskRecent population-based case-control studiesPopulation-based case-control studyUrinary PGE-M levelsUrinary prostaglandin E2 metabolitePGE-M levelsProstaglandin E2 metaboliteProstaglandin E2 metabolite levelsHigh meat intakePancreatic ductal adenocarcinoma casesUnconditional logistic regressionCOX-2 pathwayConfidence intervalsPancreatic ductal adenocarcinomaUrinary PGEDiabetes historyThird tertileE2 metaboliteDuctal adenocarcinomaMeat intakeAdenocarcinoma cases
2014
Cigarette smoking and pancreatic cancer risk: More to the story than just pack-years
Schulte A, Pandeya N, Tran B, Fawcett J, Fritschi L, Risch HA, Webb PM, Whiteman DC, Neale RE, Group Q. Cigarette smoking and pancreatic cancer risk: More to the story than just pack-years. European Journal Of Cancer 2014, 50: 997-1003. PMID: 24461200, DOI: 10.1016/j.ejca.2013.12.014.Peer-Reviewed Original ResearchConceptsPancreatic cancer riskCigarette smokingOdds ratioPancreatic adenocarcinomaCancer riskAustralian population-based case-control studyPopulation-based case-control studyLogistic regressionPancreatic cancer patientsConfidence intervalsCase-control studyPancreatic cancer studiesCurrent smokersAlcohol intakeSmoking patternsCancer patientsPancreatic cancerRisk factorsSmoking componentSmokingDisease riskRisk estimatesCancer studiesSmokersAdenocarcinomaA New Estimation Approach for Combining Epidemiological Data From Multiple Sources
Huang H, Ma X, Waagepetersen R, Holford TR, Wang R, Risch H, Mueller L, Guan Y. A New Estimation Approach for Combining Epidemiological Data From Multiple Sources. Journal Of The American Statistical Association 2014, 109: 11-23. PMID: 24683281, PMCID: PMC3964681, DOI: 10.1080/01621459.2013.870904.Peer-Reviewed Original ResearchEpidemiological dataPopulation-based case-control studyBehavioral Risk Factor Surveillance SystemRisk Factor Surveillance SystemConnecticut Tumor RegistryCase-control studyPancreatic cancer riskGroup of controlsGroup of casesTumor RegistryRisk factorsHealth SurveyCancer riskCertain diseasesSurveillance systemGenes–Environment Interactions in Obesity- and Diabetes-Associated Pancreatic Cancer: A GWAS Data Analysis
Tang H, Wei P, Duell EJ, Risch HA, Olson SH, Bueno-de-Mesquita HB, Gallinger S, Holly EA, Petersen GM, Bracci PM, McWilliams RR, Jenab M, Riboli E, Tjønneland A, Boutron-Ruault MC, Kaaks R, Trichopoulos D, Panico S, Sund M, Peeters PH, Khaw KT, Amos CI, Li D. Genes–Environment Interactions in Obesity- and Diabetes-Associated Pancreatic Cancer: A GWAS Data Analysis. Cancer Epidemiology Biomarkers & Prevention 2014, 23: 98-106. PMID: 24136929, PMCID: PMC3947145, DOI: 10.1158/1055-9965.epi-13-0437-t.Peer-Reviewed Original ResearchConceptsPancreatic cancerIngenuity Pathway AnalysisSingle nucleotide polymorphismsAssociation of obesityPancreatic Cancer Case-Control ConsortiumRisk of obesityAlterable risk factorsPancreatic cancer riskRisk factor dataLogistic regression modelsGenome-wide levelAdditional large datasetsMajor contributing genesInsulin resistanceRisk factorsInflammatory responseCancer riskGene-environment interactionsObesityGene-environment interaction analysisSignificant interactionDiabetesGWAS data analysisCancerGenetic susceptibility
2013
Ulcer, gastric surgery and pancreatic cancer risk: an analysis from the International Pancreatic Cancer Case–Control Consortium (PanC4)
Bosetti C, Lucenteforte E, Bracci PM, Negri E, Neale RE, Risch HA, Olson SH, Gallinger S, Miller AB, Bueno-de-Mesquita HB, Talamini R, Polesel J, Ghadirian P, Baghurst PA, Zatonski W, Fontham E, Holly EA, Gao YT, Yu H, Kurtz RC, Cotterchio M, Maisonneuve P, Zeegers MP, Duell EJ, Boffetta P, La Vecchia C. Ulcer, gastric surgery and pancreatic cancer risk: an analysis from the International Pancreatic Cancer Case–Control Consortium (PanC4). Annals Of Oncology 2013, 24: 2903-2910. PMID: 23970016, PMCID: PMC3811904, DOI: 10.1093/annonc/mdt336.Peer-Reviewed Original ResearchConceptsPancreatic cancer riskPancreatic Cancer Case-Control ConsortiumCancer riskPeptic ulcerOdds ratioInternational Pancreatic Cancer Case-Control ConsortiumMultivariable logistic regression modelHistory of gastrectomyHistory of ulcerCancer diagnosisH2-receptor antagonistsProton pump inhibitorsCase-control studyPancreatic cancer casesSummary odds ratiosLogistic regression modelsLarge collaborative studiesGastric surgeryPharmacological treatmentExcess riskCancer surveillancePancreatic cancerCancer casesGastrectomyUlcersThe Healthy Eating Index 2005 and Risk for Pancreatic Cancer in the NIH–AARP Study
Arem H, Reedy J, Sampson J, Jiao L, Hollenbeck AR, Risch H, Mayne ST, Stolzenberg-Solomon RZ. The Healthy Eating Index 2005 and Risk for Pancreatic Cancer in the NIH–AARP Study. Journal Of The National Cancer Institute 2013, 105: 1298-1305. PMID: 23949329, PMCID: PMC3760780, DOI: 10.1093/jnci/djt185.Peer-Reviewed Original ResearchConceptsHealthy Eating Index 2005Pancreatic cancer riskPancreatic cancerHazard ratioDietary guidelinesCancer riskExocrine pancreatic cancer casesOverweight/obese menCox proportional hazards regressionHealth-American AssociationP-interaction valuesRetired Persons DietFood frequency questionnaireNormal-weight menDietary pattern analysisBody mass indexProportional hazards regressionConfidence intervalsPancreatic cancer casesNIH-AARP studyFrequency questionnaireObese menMass indexHazards regressionWeight menDietary Energy Density Is Positively Associated with Risk of Pancreatic Cancer in Urban Shanghai Chinese 1,2
Wang J, Zhang W, Sun L, Yu H, Ni QX, Risch HA, Gao YT. Dietary Energy Density Is Positively Associated with Risk of Pancreatic Cancer in Urban Shanghai Chinese 1,2. Journal Of Nutrition 2013, 143: 1626-1629. PMID: 23902959, PMCID: PMC3771813, DOI: 10.3945/jn.113.178129.Peer-Reviewed Original ResearchConceptsCase-control studyPancreatic cancerDietary energy densityRisk factorsPopulation-based case-control studyFood frequency questionnaire dataIndependent risk factorPancreatic cancer riskType 2 diabetesAdjusted analysisProspective studyHighest quintileLowest quintileCancer riskNormal controlsRegular consumptionCancerOverall dietRiskQuintileShanghai ChineseUrban ShanghaiQuestionnaire dataObesityDiabetesDietary fat intake and risk of pancreatic cancer in the Prostate, Lung, Colorectal and Ovarian Cancer Screening Trial
Arem H, Mayne ST, Sampson J, Risch H, Stolzenberg-Solomon RZ. Dietary fat intake and risk of pancreatic cancer in the Prostate, Lung, Colorectal and Ovarian Cancer Screening Trial. Annals Of Epidemiology 2013, 23: 571-575. PMID: 23890797, PMCID: PMC3752990, DOI: 10.1016/j.annepidem.2013.06.006.Peer-Reviewed Original ResearchConceptsDietary fat intakePancreatic cancer riskOvarian Cancer Screening TrialCancer Screening TrialFat intakeCancer riskInverse associationPancreatic cancerScreening TrialCox proportional hazards regressionTotal fat intakeProportional hazards regressionObserved inverse associationPancreatic cancer casesHazards regressionCancer casesRisk associationUndetected diseasePossible reverse causationDietary changesIntakeReverse causationColorectalFat typeRisk