Sir Peter MacCallum Department of Oncology - Research Publications

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Benign breast disease increases breast cancer risk independent of underlying familial risk profile: Findings from a Prospective Family Study Cohort

Zeinomar, N ; Phillips, K-A ; Daly, MB ; Milne, RL ; Dite, GS ; MacInnis, RJ ; Liao, Y ; Kehm, RD ; Knight, JA ; Southey, MC ; Chung, WK ; Giles, GG ; McLachlan, S-A ; Friedlander, ML ; Weideman, PC ; Glendon, G ; Nesci, S ; Andrulis, IL ; Buys, SS ; John, EM ; Hopper, JL ; Terry, MB (WILEY, 2019-07-15)

Benign breast disease (BBD) is an established breast cancer (BC) risk factor, but it is unclear whether the magnitude of the association applies to women at familial or genetic risk. This information is needed to improve BC risk assessment in clinical settings. Using the Prospective Family Study Cohort, we used Cox proportional hazards models to estimate hazard ratios (HRs) and 95% confidence intervals (CIs) for the association of BBD with BC risk. We also examined whether the association with BBD differed by underlying familial risk profile (FRP), calculated using absolute risk estimates from the Breast Ovarian Analysis of Disease Incidence and Carrier Estimation Algorithm (BOADICEA) model. During 176,756 person-years of follow-up (median: 10.9 years, maximum: 23.7) of 17,154 women unaffected with BC at baseline, we observed 968 incident cases of BC. A total of 4,704 (27%) women reported a history of BBD diagnosis at baseline. A history of BBD was associated with a greater risk of BC: HR = 1.31 (95% CI: 1.14-1.50), and did not differ by underlying FRP, with HRs of 1.35 (95% CI: 1.11-1.65), 1.26 (95% CI: 1.00-1.60), and 1.40 (95% CI: 1.01-1.93), for categories of full-lifetime BOADICEA score <20%, 20 to <35%, ≥35%, respectively. There was no difference in the association for women with BRCA1 mutations (HR: 1.64; 95% CI: 1.04-2.58), women with BRCA2 mutations (HR: 1.34; 95% CI: 0.78-2.3) or for women without a known BRCA1 or BRCA2 mutation (HR: 1.31; 95% CI: 1.13-1.53) (pinteraction = 0.95). Women with a history of BBD have an increased risk of BC that is independent of, and multiplies, their underlying familial and genetic risk.
Body mass index and breast cancer survival: a Mendelian randomization analysis

Guo, Q ; Burgess, S ; Turman, C ; Bolla, MK ; Wang, Q ; Lush, M ; Abraham, J ; Aittomaki, K ; Andrulis, IL ; Apicella, C ; Arndt, V ; Barrdahl, M ; Benitez, J ; Berg, CD ; Blomqvist, C ; Bojesen, SE ; Bonanni, B ; Brand, JS ; Brenner, H ; Broeks, A ; Burwinkel, B ; Caldas, C ; Campa, D ; Canzian, F ; Chang-Claude, J ; Chanock, SJ ; Chin, S-F ; Couch, FJ ; Cox, A ; Cross, SS ; Cybulski, C ; Czene, K ; Darabi, H ; Devilee, P ; Diver, WR ; Dunning, AM ; Earl, HM ; Eccles, DM ; Ekici, AB ; Eriksson, M ; Evans, DG ; Fasching, PA ; Figueroa, J ; Flesch-Janys, D ; Flyger, H ; Gapstur, SM ; Gaudet, MM ; Giles, GG ; Glendon, G ; Grip, M ; Gronwald, J ; Haeberle, L ; Haiman, CA ; Hall, P ; Hamann, U ; Hankinson, S ; Hartikainen, JM ; Hein, A ; Hiller, L ; Hogervorst, FB ; Holleczek, B ; Hooning, MJ ; Hoover, RN ; Humphreys, K ; Hunter, DJ ; Husing, A ; Jakubowska, A ; Jukkola-Vuorinen, A ; Kaaks, R ; Kabisch, M ; Kataja, V ; Knight, JA ; Koppert, LB ; Kosma, V-M ; Kristensen, VN ; Lambrechts, D ; Le Marchand, L ; Li, J ; Lindblom, A ; Lindstrom, S ; Lissowska, J ; Lubinski, J ; Machiela, MJ ; Mannermaa, A ; Manoukian, S ; Margolin, S ; Marme, F ; Martens, JWM ; McLean, C ; Menendez, P ; Milne, RL ; Mulligan, AM ; Muranen, TA ; Nevanlinna, H ; Neven, P ; Nielsen, SF ; Nordestgaard, BG ; Olson, JE ; Perez, JIA ; Peterlongo, P ; Phillips, K-A ; Poole, CJ ; Pylkas, K ; Radice, P ; Rahman, N ; Rudiger, T ; Rudolph, A ; Sawyer, EJ ; Schumacher, F ; Seibold, P ; Seynaeve, C ; Shah, M ; Smeets, A ; Southey, MC ; Tollenaar, RAEM ; Tomlinson, I ; Tsimiklis, H ; Ulmer, H-U ; Vachon, C ; van den Ouweland, AMW ; Van't Veer, LJ ; Wildiers, H ; Willett, W ; Winqvist, R ; Zamora, MP ; Chenevix-Trench, G ; Dork, T ; Easton, DF ; Garcia-Closas, M ; Kraft, P ; Hopper, JL ; Zheng, W ; Schmidt, MK ; Pharoah, PDP (OXFORD UNIV PRESS, 2017-12)

BACKGROUND: There is increasing evidence that elevated body mass index (BMI) is associated with reduced survival for women with breast cancer. However, the underlying reasons remain unclear. We conducted a Mendelian randomization analysis to investigate a possible causal role of BMI in survival from breast cancer. METHODS: We used individual-level data from six large breast cancer case-cohorts including a total of 36 210 individuals (2475 events) of European ancestry. We created a BMI genetic risk score (GRS) based on genotypes at 94 known BMI-associated genetic variants. Association between the BMI genetic score and breast cancer survival was analysed by Cox regression for each study separately. Study-specific hazard ratios were pooled using fixed-effect meta-analysis. RESULTS: BMI genetic score was found to be associated with reduced breast cancer-specific survival for estrogen receptor (ER)-positive cases [hazard ratio (HR) = 1.11, per one-unit increment of GRS, 95% confidence interval (CI) 1.01-1.22, P = 0.03). We observed no association for ER-negative cases (HR = 1.00, per one-unit increment of GRS, 95% CI 0.89-1.13, P = 0.95). CONCLUSIONS: Our findings suggest a causal effect of increased BMI on reduced breast cancer survival for ER-positive breast cancer. There is no evidence of a causal effect of higher BMI on survival for ER-negative breast cancer cases.
Breast cancer risk prediction using a polygenic risk score in the familial setting: a prospective study from the Breast Cancer Family Registry and kConFab

Li, H ; Feng, B ; Miron, A ; Chen, X ; Beesley, J ; Bimeh, E ; Barrowdale, D ; John, EM ; Daly, MB ; Andrulis, IL ; Buys, SS ; Kraft, P ; Thorne, H ; Chenevix-Trench, G ; Southey, MC ; Antoniou, AC ; James, PA ; Terry, MB ; Phillips, K-A ; Hopper, JL ; Mitchell, G ; Goldgar, DE (NATURE PUBLISHING GROUP, 2017-01)

PURPOSE: This study examined the utility of sets of single-nucleotide polymorphisms (SNPs) in familial but non-BRCA-associated breast cancer (BC). METHODS: We derived a polygenic risk score (PRS) based on 24 known BC risk SNPs for 4,365 women from the Breast Cancer Family Registry and Kathleen Cuningham Consortium Foundation for Research into Familial Breast Cancer familial BC cohorts. We compared scores for women based on cancer status at baseline; 2,599 women unaffected at enrollment were followed-up for an average of 7.4 years. Cox proportional hazards regression was used to analyze the association of PRS with BC risk. The BOADICEA risk prediction algorithm was used to measure risk based on family history alone. RESULTS: The mean PRS at baseline was 2.25 (SD, 0.35) for affected women and was 2.17 (SD, 0.35) for unaffected women from combined cohorts (P < 10-6). During follow-up, 205 BC cases occurred. The hazard ratios for continuous PRS (per SD) and upper versus lower quintiles were 1.38 (95% confidence interval: 1.22-1.56) and 3.18 (95% confidence interval: 1.84-5.23) respectively. Based on their PRS-based predicted risk, management for up to 23% of women could be altered. CONCLUSION: Including BC-associated SNPs in risk assessment can provide more accurate risk prediction than family history alone and can influence recommendations for cancer screening and prevention modalities for high-risk women.Genet Med 19 1, 30-35.
Morphological predictors of BRCA1 germline mutations in young women with breast cancer

Southey, MC ; Ramus, SJ ; Dowty, JG ; Smith, LD ; Tesoriero, AA ; Wong, EEM ; Dite, GS ; Jenkins, MA ; Byrnes, GB ; Winship, I ; Phillips, K-A ; Giles, GG ; Hopper, JL (NATURE PUBLISHING GROUP, 2011-03-15)

BACKGROUND: Knowing a young woman with newly diagnosed breast cancer has a germline BRCA1 mutation informs her clinical management and that of her relatives. We sought an optimal strategy for identifying carriers using family history, breast cancer morphology and hormone receptor status data. METHODS: We studied a population-based sample of 452 Australian women with invasive breast cancer diagnosed before age 40 years for whom we conducted extensive germline mutation testing (29 carried a BRCA1 mutation) and a systematic pathology review, and collected three-generational family history and tumour ER and PR status. Predictors of mutation status were identified using multiple logistic regression. Areas under receiver operator characteristic (ROC) curves were estimated using five-fold stratified cross-validation. RESULTS: The probability of being a BRCA1 mutation carrier increased with number of selected histology features even after adjusting for family history and ER and PR status (P<0.0001). From the most parsimonious multivariate model, the odds ratio for being a carrier were: 9.7 (95% confidence interval: 2.6-47.0) for trabecular growth pattern (P=0.001); 7.8 (2.7-25.7) for mitotic index over 50 mitoses per 10 high-powered field (P=0.0003); and 2.7 (1.3-5.9) for each first-degree relative with breast cancer diagnosed before age 60 years (P=0.01).The area under the ROC curve was 0.87 (0.83-0.90). CONCLUSION: Pathology review, with attention to a few specific morphological features of invasive breast cancers, can identify almost all BRCA1 germline mutation carriers among women with early-onset breast cancer without taking into account family history.
2q36.3 is associated with prognosis for oestrogen receptor-negative breast cancer patients treated with chemotherapy

Li, J ; Lindstroem, LS ; Foo, JN ; Rafiq, S ; Schmidt, MK ; Pharoah, PDP ; Michailidou, K ; Dennis, J ; Bolla, MK ; Wang, Q ; Van't Veer, LJ ; Cornelissen, S ; Rutgers, E ; Southey, MC ; Apicella, C ; Dite, GS ; Hopper, JL ; Fasching, PA ; Haeberle, L ; Ekici, AB ; Beckmann, MW ; Blomqvist, C ; Muranen, TA ; Aittomaeki, K ; Lindblom, A ; Margolin, S ; Mannermaa, A ; Kosma, V-M ; Hartikainen, JM ; Kataja, V ; Chenevix-Trench, G ; Phillips, K-A ; McLachlan, S-A ; Lambrechts, D ; Thienpont, B ; Smeets, A ; Wildiers, H ; Chang-Claude, J ; Flesch-Janys, D ; Seibold, P ; Rudolph, A ; Giles, GG ; Baglietto, L ; Severi, G ; Haiman, CA ; Henderson, BE ; Schumacher, F ; Le Marchand, L ; Kristensen, V ; Alnaes, GIG ; Borresen-Dale, A-L ; Nord, S ; Winqvist, R ; Pylkas, K ; Jukkola-Vuorinen, A ; Grip, M ; Andrulis, IL ; Knight, JA ; Glendon, G ; Tchatchou, S ; Devilee, P ; Tollenaar, R ; Seynaeve, C ; Hooning, M ; Kriege, M ; Hollestelle, A ; Van den Ouweland, A ; Li, Y ; Hamann, U ; Torres, D ; Ulmer, HU ; Rudiger, T ; Shen, C-Y ; Hsiung, C-N ; Wu, P-E ; Chen, S-T ; Teo, SH ; Taib, NAM ; Yip, CH ; Ho, GF ; Matsuo, K ; Ito, H ; Iwata, H ; Tajima, K ; Kang, D ; Choi, J-Y ; Park, SK ; Yoo, K-Y ; Maishman, T ; Tapper, WJ ; Dunning, A ; Shah, M ; Luben, R ; Brown, J ; Khor, CC ; Eccles, DM ; Nevanlinna, H ; Easton, D ; Humphreys, K ; Liu, J ; Hall, P ; Czene, K (NATURE PORTFOLIO, 2014-06)

Large population-based registry studies have shown that breast cancer prognosis is inherited. Here we analyse single-nucleotide polymorphisms (SNPs) of genes implicated in human immunology and inflammation as candidates for prognostic markers of breast cancer survival involving 1,804 oestrogen receptor (ER)-negative patients treated with chemotherapy (279 events) from 14 European studies in a prior large-scale genotyping experiment, which is part of the Collaborative Oncological Gene-environment Study (COGS) initiative. We carry out replication using Asian COGS samples (n=522, 53 events) and the Prospective Study of Outcomes in Sporadic versus Hereditary breast cancer (POSH) study (n=315, 108 events). Rs4458204_A near CCL20 (2q36.3) is found to be associated with breast cancer-specific death at a genome-wide significant level (n=2,641, 440 events, combined allelic hazard ratio (HR)=1.81 (1.49-2.19); P for trend=1.90 × 10(-9)). Such survival-associated variants can represent ideal targets for tailored therapeutics, and may also enhance our current prognostic prediction capabilities.
Common germline polymorphisms associated with breast cancer-specific survival

Pirie, A ; Guo, Q ; Kraft, P ; Canisius, S ; Eccles, DM ; Rahman, N ; Nevanlinna, H ; Chen, C ; Khan, S ; Tyrer, J ; Bolla, MK ; Wang, Q ; Dennis, J ; Michailidou, K ; Lush, M ; Dunning, AM ; Shah, M ; Czene, K ; Darabi, H ; Eriksson, M ; Lambrechts, D ; Weltens, C ; Leunen, K ; van Ongeval, C ; Nordestgaard, BG ; Nielsen, SF ; Flyger, H ; Rudolph, A ; Seibold, P ; Flesch-Janys, D ; Blomqvist, C ; Aittomaki, K ; Fagerholm, R ; Muranen, TA ; Olsen, JE ; Hallberg, E ; Vachon, C ; Knight, JA ; Glendon, G ; Mulligan, AM ; Broeks, A ; Cornelissen, S ; Haiman, CA ; Henderson, BE ; Schumacher, F ; Le Marchand, L ; Hopper, JL ; Tsimiklis, H ; Apicella, C ; Southey, MC ; Cross, SS ; Reed, MWR ; Giles, GG ; Milne, RL ; McLean, C ; Winqvist, R ; Pylkas, K ; Jukkola-Vuorinen, A ; Grip, M ; Hooning, MJ ; Hollestelle, A ; Martens, JWM ; van den Ouweland, AMW ; Marme, F ; Schneeweiss, A ; Yang, R ; Burwinkel, B ; Figueroa, J ; Chanock, SJ ; Lissowska, J ; Sawyer, EJ ; Tomlinson, I ; Kerin, MJ ; Miller, N ; Brenner, H ; Butterbach, K ; Holleczek, B ; Kataja, V ; Kosma, V-M ; Hartikainen, JM ; Li, J ; Brand, JS ; Humphreys, K ; Devilee, P ; Tollenaar, RAEM ; Seynaeve, C ; Radice, P ; Peterlongo, P ; Manoukian, S ; Ficarazzi, F ; Beckmann, MW ; Hein, A ; Ekici, AB ; Balleine, R ; Phillips, K-A ; Benitez, J ; Zamora, MP ; Perez, JIA ; Menendez, P ; Jakubowska, A ; Lubinski, J ; Gronwald, J ; Durda, K ; Hamann, U ; Kabisch, M ; Ulmer, HU ; Ruediger, T ; Margolin, S ; Kristensen, V ; Nord, S ; Evans, DG ; Abraham, J ; Earl, H ; Poole, CJ ; Hiller, L ; Dunn, JA ; Bowden, S ; Yang, R ; Campa, D ; Diver, WR ; Gapstur, SM ; Gaudet, MM ; Hankinson, S ; Hoover, RN ; Husing, A ; Kaaks, R ; Machiela, MJ ; Willett, W ; Barrdahl, M ; Canzian, F ; Chin, S-F ; Caldas, C ; Hunter, DJ ; Lindstrom, S ; Garcia-Closas, M ; Couch, FJ ; Chenevix-Trench, G ; Mannermaa, A ; Andrulis, IL ; Hall, P ; Chang-Claude, J ; Easton, DF ; Bojesen, SE ; Cox, A ; Fasching, PA ; Pharoah, PDP ; Schmidt, MK (BMC, 2015-04-22)

INTRODUCTION: Previous studies have identified common germline variants nominally associated with breast cancer survival. These associations have not been widely replicated in further studies. The purpose of this study was to evaluate the association of previously reported SNPs with breast cancer-specific survival using data from a pooled analysis of eight breast cancer survival genome-wide association studies (GWAS) from the Breast Cancer Association Consortium. METHODS: A literature review was conducted of all previously published associations between common germline variants and three survival outcomes: breast cancer-specific survival, overall survival and disease-free survival. All associations that reached the nominal significance level of P value <0.05 were included. Single nucleotide polymorphisms that had been previously reported as nominally associated with at least one survival outcome were evaluated in the pooled analysis of over 37,000 breast cancer cases for association with breast cancer-specific survival. Previous associations were evaluated using a one-sided test based on the reported direction of effect. RESULTS: Fifty-six variants from 45 previous publications were evaluated in the meta-analysis. Fifty-four of these were evaluated in the full set of 37,954 breast cancer cases with 2,900 events and the two additional variants were evaluated in a reduced sample size of 30,000 samples in order to ensure independence from the previously published studies. Five variants reached nominal significance (P <0.05) in the pooled GWAS data compared to 2.8 expected under the null hypothesis. Seven additional variants were associated (P <0.05) with ER-positive disease. CONCLUSIONS: Although no variants reached genome-wide significance (P <5 x 10(-8)), these results suggest that there is some evidence of association between candidate common germline variants and breast cancer prognosis. Larger studies from multinational collaborations are necessary to increase the power to detect associations, between common variants and prognosis, at more stringent significance levels.
Identification of Novel Genetic Markers of Breast Cancer Survival

Guo, Q ; Schmidt, MK ; Kraft, P ; Canisius, S ; Chen, C ; Khan, S ; Tyrer, J ; Bolla, MK ; Wang, Q ; Dennis, J ; Michailidou, K ; Lush, M ; Kar, S ; Beesley, J ; Dunning, AM ; Shah, M ; Czene, K ; Darabi, H ; Eriksson, M ; Lambrechts, D ; Weltens, C ; Leunen, K ; Bojesen, SE ; Nordestgaard, BG ; Nielsen, SF ; Flyger, H ; Chang-Claude, J ; Rudolph, A ; Seibold, P ; Flesch-Janys, D ; Blomqvist, C ; Aittomaeki, K ; Fagerholm, R ; Muranen, TA ; Couch, FJ ; Olson, JE ; Vachon, C ; Andrulis, IL ; Knight, JA ; Glendon, G ; Mulligan, AM ; Broeks, A ; Hogervorst, FB ; Haiman, CA ; Henderson, BE ; Schumacher, F ; Le Marchand, L ; Hopper, JL ; Tsimiklis, H ; Apicella, C ; Southey, MC ; Cox, A ; Cross, SS ; Reed, MWR ; Giles, GG ; Milne, RL ; McLean, C ; Winqvist, R ; Pylkaes, K ; Jukkola-Vuorinen, A ; Grip, M ; Hooning, MJ ; Hollestelle, A ; Martens, JWM ; Van den Ouweland, AMW ; Marme, F ; Schneeweiss, A ; Yang, R ; Burwinkel, B ; Figueroa, J ; Chanock, SJ ; Lissowska, J ; Sawyer, EJ ; Tomlinson, I ; Kerin, MJ ; Miller, N ; Brenner, H ; Dieffenbach, AK ; Arndt, V ; Holleczek, B ; Mannermaa, A ; Kataja, V ; Kosma, V-M ; Hartikainen, JM ; Li, J ; Brand, JS ; Humphreys, K ; Devilee, P ; Tollenaar, RAEM ; Seynaeve, C ; Radice, P ; Peterlongo, P ; Bonanni, B ; Mariani, P ; Fasching, PA ; Beckmann, MW ; Hein, A ; Ekici, AB ; Chenevix-Trench, G ; Balleine, R ; Phillips, K-A ; Benitez, J ; Zamora, MP ; Perez, JIA ; Menendez, P ; Jakubowska, A ; Lubinski, J ; Jaworska-Bieniek, K ; Durda, K ; Hamann, U ; Kabisch, M ; Ulmer, HU ; Ruediger, T ; Margolin, S ; Kristensen, V ; Nord, S ; Evans, DG ; Abraham, JE ; Earl, HM ; Hiller, L ; Dunn, JA ; Bowden, S ; Berg, C ; Campa, D ; Diver, WR ; Gapstur, SM ; Gaudet, MM ; Hankinson, SE ; Hoover, RN ; Huesing, A ; Kaaks, R ; Machiela, MJ ; Willett, W ; Barrdahl, M ; Canzian, F ; Chin, S-F ; Caldas, C ; Hunter, DJ ; Lindstrom, S ; Garcia-Closas, M ; Hall, P ; Easton, DF ; Eccles, DM ; Rahman, N ; Nevanlinna, H ; Pharoah, PDP (OXFORD UNIV PRESS INC, 2015-05)

BACKGROUND: Survival after a diagnosis of breast cancer varies considerably between patients, and some of this variation may be because of germline genetic variation. We aimed to identify genetic markers associated with breast cancer-specific survival. METHODS: We conducted a large meta-analysis of studies in populations of European ancestry, including 37954 patients with 2900 deaths from breast cancer. Each study had been genotyped for between 200000 and 900000 single nucleotide polymorphisms (SNPs) across the genome; genotypes for nine million common variants were imputed using a common reference panel from the 1000 Genomes Project. We also carried out subtype-specific analyses based on 6881 estrogen receptor (ER)-negative patients (920 events) and 23059 ER-positive patients (1333 events). All statistical tests were two-sided. RESULTS: We identified one new locus (rs2059614 at 11q24.2) associated with survival in ER-negative breast cancer cases (hazard ratio [HR] = 1.95, 95% confidence interval [CI] = 1.55 to 2.47, P = 1.91 x 10(-8)). Genotyping a subset of 2113 case patients, of which 300 were ER negative, provided supporting evidence for the quality of the imputation. The association in this set of case patients was stronger for the observed genotypes than for the imputed genotypes. A second locus (rs148760487 at 2q24.2) was associated at genome-wide statistical significance in initial analyses; the association was similar in ER-positive and ER-negative case patients. Here the results of genotyping suggested that the finding was less robust. CONCLUSIONS: This is currently the largest study investigating genetic variation associated with breast cancer survival. Our results have potential clinical implications, as they confirm that germline genotype can provide prognostic information in addition to standard tumor prognostic factors.
Age-specific breast cancer risk by body mass index and familial risk: prospective family study cohort (ProF-SC)

Hopper, JL ; Dite, GS ; MacInnis, RJ ; Liao, Y ; Zeinomar, N ; Knight, JA ; Southey, MC ; Milne, RL ; Chung, WK ; Giles, GG ; Genkinger, JM ; McLachlan, S-A ; Friedlander, ML ; Antoniou, AC ; Weideman, PC ; Glendon, G ; Nesci, S ; Andrulis, IL ; Buys, SS ; Daly, MB ; John, EM ; Phillips, KA ; Terry, MB (BMC, 2018-11-03)

BACKGROUND: The association between body mass index (BMI) and risk of breast cancer depends on time of life, but it is unknown whether this association depends on a woman's familial risk. METHODS: We conducted a prospective study of a cohort enriched for familial risk consisting of 16,035 women from 6701 families in the Breast Cancer Family Registry and the Kathleen Cunningham Foundation Consortium for Research into Familial Breast Cancer followed for up to 20 years (mean 10.5 years). There were 896 incident breast cancers (mean age at diagnosis 55.7 years). We used Cox regression to model BMI risk associations as a function of menopausal status, age, and underlying familial risk based on pedigree data using the Breast and Ovarian Analysis of Disease Incidence and Carrier Estimation Algorithm (BOADICEA), all measured at baseline. RESULTS: The strength and direction of the BMI risk association depended on baseline menopausal status (P < 0.001); after adjusting for menopausal status, the association did not depend on age at baseline (P = 0.6). In terms of absolute risk, the negative association with BMI for premenopausal women has a much smaller influence than the positive association with BMI for postmenopausal women. Women at higher familial risk have a much larger difference in absolute risk depending on their BMI than women at lower familial risk. CONCLUSIONS: The greater a woman's familial risk, the greater the influence of BMI on her absolute postmenopausal breast cancer risk. Given that age-adjusted BMI is correlated across adulthood, maintaining a healthy weight throughout adult life is particularly important for women with a family history of breast cancer.
Regular use of aspirin and other non-steroidal anti-inflammatory drugs and breast cancer risk for women at familial or genetic risk: a cohort study

Kehm, RD ; Hopper, JL ; John, EM ; Phillips, K-A ; MacInnis, RJ ; Dite, GS ; Milne, RL ; Liao, Y ; Zeinomar, N ; Knight, JA ; Southey, MC ; Vahdat, L ; Kornhauser, N ; Cigler, T ; Chung, WK ; Giles, GG ; McLachlan, S-A ; Friedlander, ML ; Weideman, PC ; Glendon, G ; Nesci, S ; Andrulis, IL ; Buys, SS ; Daly, MB ; Terry, MB (BMC, 2019-04-18)

BACKGROUND: The use of aspirin and other non-steroidal anti-inflammatory drugs (NSAIDs) has been associated with reduced breast cancer risk, but it is not known if this association extends to women at familial or genetic risk. We examined the association between regular NSAID use and breast cancer risk using a large cohort of women selected for breast cancer family history, including 1054 BRCA1 or BRCA2 mutation carriers. METHODS: We analyzed a prospective cohort (N = 5606) and a larger combined, retrospective and prospective, cohort (N = 8233) of women who were aged 18 to 79 years, enrolled before June 30, 2011, with follow-up questionnaire data on medication history. The prospective cohort was further restricted to women without breast cancer when medication history was asked by questionnaire. Women were recruited from seven study centers in the United States, Canada, and Australia. Associations were estimated using multivariable Cox proportional hazards regression models adjusted for demographics, lifestyle factors, family history, and other medication use. Women were classified as regular or non-regular users of aspirin, COX-2 inhibitors, ibuprofen and other NSAIDs, and acetaminophen (control) based on self-report at follow-up of ever using the medication for at least twice a week for ≥1 month prior to breast cancer diagnosis. The main outcome was incident invasive breast cancer, based on self- or relative-report (81% confirmed pathologically). RESULTS: From fully adjusted analyses, regular aspirin use was associated with a 39% and 37% reduced risk of breast cancer in the prospective (HR = 0.61; 95% CI = 0.33-1.14) and combined cohorts (HR = 0.63; 95% CI = 0.57-0.71), respectively. Regular use of COX-2 inhibitors was associated with a 61% and 71% reduced risk of breast cancer (prospective HR = 0.39; 95% CI = 0.15-0.97; combined HR = 0.29; 95% CI = 0.23-0.38). Other NSAIDs and acetaminophen were not associated with breast cancer risk in either cohort. Associations were not modified by familial risk, and consistent patterns were found by BRCA1 and BRCA2 carrier status, estrogen receptor status, and attained age. CONCLUSION: Regular use of aspirin and COX-2 inhibitors might reduce breast cancer risk for women at familial or genetic risk.
Accuracy of Risk Estimates from the iPrevent Breast Cancer Risk Assessment and Management Tool

Phillips, K-A ; Liao, Y ; Milne, RL ; MacInnis, RJ ; Collins, IM ; Buchsbaum, R ; Weideman, PC ; Bickerstaffe, A ; Nesci, S ; Chung, WK ; Southey, MC ; Knight, JA ; Whittemore, AS ; Dite, GS ; Goldgar, D ; Giles, GG ; Glendon, G ; Cuzick, J ; Antoniou, AC ; Andrulis, IL ; John, EM ; Daly, MB ; Buys, SS ; Hopper, JL ; Terry, MB ; kConFab Investigators, (Oxford University Press, 2019-12)

Background
iPrevent is an online breast cancer (BC) risk management decision support tool. It uses an internal switching algorithm, based on a woman's risk factor data, to estimate her absolute BC risk using either the International Breast Cancer Intervention Study (IBIS) version 7.02, or Breast and Ovarian Analysis of Disease Incidence and Carrier Estimation Algorithm version 3 models, and then provides tailored risk management information. This study assessed the accuracy of the 10-year risk estimates using prospective data.
Methods
iPrevent-assigned 10-year invasive BC risk was calculated for 15 732 women aged 20-70 years and without BC at recruitment to the Prospective Family Study Cohort. Calibration, the ratio of the expected (E) number of BCs to the observed (O) number and discriminatory accuracy were assessed.
Results
During the 10 years of follow-up, 619 women (3.9%) developed BC compared with 702 expected (E/O = 1.13; 95% confidence interval [CI] =1.05 to 1.23). For women younger than 50 years, 50 years and older, and BRCA1/2-mutation carriers and noncarriers, E/O was 1.04 (95% CI = 0.93 to 1.16), 1.24 (95% CI = 1.11 to 1.39), 1.13 (95% CI = 0.96 to 1.34), and 1.13 (95% CI = 1.04 to 1.24), respectively. The C-statistic was 0.70 (95% CI = 0.68 to 0.73) overall and 0.74 (95% CI = 0.71 to 0.77), 0.63 (95% CI = 0.59 to 0.66), 0.59 (95% CI = 0.53 to 0.64), and 0.65 (95% CI = 0.63 to 0.68), respectively, for the subgroups above. Applying the newer IBIS version 8.0b in the iPrevent switching algorithm improved calibration overall (E/O = 1.06, 95% CI = 0.98 to 1.15) and in all subgroups, without changing discriminatory accuracy.
Conclusions
For 10-year BC risk, iPrevent had good discriminatory accuracy overall and was well calibrated for women aged younger than 50 years. Calibration may be improved in the future by incorporating IBIS version 8.0b.