2012
Methyl bromide exposure and cancer risk in the Agricultural Health Study
Barry KH, Koutros S, Lubin JH, Coble JB, Barone-Adesi F, Beane Freeman LE, Sandler DP, Hoppin JA, Ma X, Zheng T, Alavanja MC. Methyl bromide exposure and cancer risk in the Agricultural Health Study. Cancer Causes & Control 2012, 23: 807-818. PMID: 22527160, PMCID: PMC3430844, DOI: 10.1007/s10552-012-9949-2.Peer-Reviewed Original ResearchConceptsStomach cancer riskMethyl bromide exposureCancer riskProstate cancerFamily historySignificant exposure-dependent increaseNonsignificant elevated riskRate ratioAgricultural Health StudyConfidence intervalsExposure-dependent increaseResultsA totalCommon cancerLifetime daysElevated riskHealth StudyPoisson regressionIntensity scoresCancerHuman carcinogenicityPesticide applicatorsHealth effectsStatistical significanceConclusionsOur resultsHuman health effects
2011
Genetic variation in nucleotide excision repair pathway genes, pesticide exposure and prostate cancer risk
Barry KH, Koutros S, Andreotti G, Sandler DP, Burdette LA, Yeager M, Freeman L, Lubin JH, Ma X, Zheng T, Alavanja MC, Berndt SI. Genetic variation in nucleotide excision repair pathway genes, pesticide exposure and prostate cancer risk. Carcinogenesis 2011, 33: 331-337. PMID: 22102698, PMCID: PMC3271261, DOI: 10.1093/carcin/bgr258.Peer-Reviewed Original ResearchConceptsProstate cancer riskCancer riskSingle nucleotide polymorphismsPesticide exposurePesticide applicatorsPesticide manufacturing workersCase-control studyInteraction p valueProstate cancer casesNucleotide excision repair pathway genesWild-type TT genotypeLogistic regression modelsHuman biomonitoring studiesCancer casesLifetime daysTT genotypeERCC1 rs2298881Male controlsFalse discovery rate methodIntensity scoresSignificant associationNucleotide excision repair pathwayGenotype groupsManufacturing workersUnderlying mechanism