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dc.contributor.authorCui Jen
dc.contributor.authorAntoniou ACen
dc.contributor.authorDite GSen
dc.contributor.authorSouthey MCen
dc.contributor.authorVenter DJen
dc.contributor.authorEaston DFen
dc.contributor.authorGiles GGen
dc.contributor.authorMcCredie MRen
dc.contributor.authorHopper JLen
dc.date.issued2001en
dc.date.issued2001
dc.identifier.urihttps://hdl.handle.net/2123/30326
dc.description.abstractMutations in BRCA1 and BRCA2 that cause a dominantly inherited high risk of female breast cancer seem to explain only a small proportion of the aggregation of the disease. To study the possible additional genetic components, we conducted single-locus and two-locus segregation analyses, with and without a polygenic background, using three-generation families ascertained through 858 women with breast cancer diagnosed at age <40 years, ascertained through population cancer registries in Melbourne and Sydney, Australia. Extensive testing for deleterious mutations in BRCA1 and BRCA2, to date, has identified 34 carriers. Our analysis suggested that, after other possible unmeasured familial factors are adjusted for and the known BRCA1 and BRCA2 mutation carriers are excluded, there appears to be a residual dominantly inherited risk of female breast cancer in addition to that derived from mutations in BRCA1 and BRCA2. This study also suggests that there is a substantial recessively inherited risk of early-onset breast cancer. According to the best-fitting model, after excluding known carriers of mutations in BRCA1 and BRCA2, about 1/250 (95% confidence interval [CI] 1/500 to 1/125) women have a recessive risk of 86% (95% CI 69%-100%) by age 50 years and of almost 100% by age 60 years. Possible reasons that our study has implicated a novel strong recessive effect include our inclusion of data on lineal aunts and grandmothers, study of families ascertained through women with early-onset breast cancer, allowance for multiple familial factors in the analysis, and removal of families for whom the cause (i.e., BRCA1 or BRCA2) is known. Our findings may have implications for attempts to identify new breast cancer-susceptibility genesen
dc.publisherAnnals of Oncologyen
dc.rightsOther
dc.subjectAge Factorsen
dc.subjectcancer registryen
dc.subjectCohort Studiesen
dc.subjectepidemiologyen
dc.subjectFamilyen
dc.subjectFamily Healthen
dc.subjectFemaleen
dc.subjectgeneticsen
dc.subjectHeterozygoteen
dc.subjectHumansen
dc.subjectMaleen
dc.subjectAge of Onseten
dc.subjectModels,Geneticen
dc.subjectMolecular Sequence Dataen
dc.subjectMutationen
dc.subjectNeoplasm Proteinsen
dc.subjectPedigreeen
dc.subjectProbabilityen
dc.subjectRegistriesen
dc.subjectResearch Support,Non-U.S.Gov'ten
dc.subjectResearch Support,U.S.Gov't,P.H.S.en
dc.subjectRisken
dc.subjectanalysisen
dc.subjectRisk Factorsen
dc.subjectStatisticsen
dc.subjectTranscription Factorsen
dc.subjectWomenen
dc.subjectAustraliaen
dc.subjectBRCA1 Proteinen
dc.subjectBRCA2 Proteinen
dc.subjectbreasten
dc.subjectBreast Neoplasmsen
dc.subjectcanceren
dc.subject.otherBiology – Resources and Infrastructureen
dc.titleAfter BRCA1 and BRCA2-what next? Multifactorial segregation analyses of three-generation, population-based Australian families affected by female breast canceren
dc.typeArticleen
usyd.facultySeS faculties schools::Faculty of Medicine and Healthen


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