PURPOSE: We and other investigators have previously shown that postmenopausal combined estrogen and progestin replacement therapy (EPRT) increases the risk of breast cancer and that the risk associated with EPRT is substantially higher than for estrogen replacement therapy (ERT) alone. The present study was conducted to determine whether any particular subgroup of women are at particularly high risk of breast cancer if they use EPRT and whether tumor characteristics in women who develop cancer while on ERT or EPRT are different from those in women not using ERT or EPRT. PATIENTS AND METHODS: We conducted a population-based case-control study in Los Angeles, CA, with patients diagnosed with breast cancer in the late 1980s and early 1990s. Control subjects were matched to patients on age, ethnicity, and neighborhood of residence. We present data on 1,897 postmenopausal patients and 1,637 controls aged 55 to 72 years who had not undergone a simple hysterectomy. RESULTS: Relative risk of breast cancer associated with EPRT use did not vary with body mass index (body mass index at or below v above median [24.6 kg/m(2)]; P =.98), alcohol intake (> or + one v < one drink per week; P =.16), parity (nulliparous v parous; P =.45), history of benign breast disease (yes v no; P =.99), or family history of breast cancer (first degree v none; P =.57). All of these results were compatible with our previously reported estimate of an increased risk of breast cancer of 5% per year of use of EPRT. Hormone users, principally EPRT users, were more likely to have hormone receptor--positive, especially progesterone-positive, tumors. CONCLUSION: We found no evidence that the risk of breast cancer associated with EPRT is limited to subgroups of women with specific cofactors. Tumors in EPRT users are more often hormone receptor--positive, indicating that they may have a better prognosis than breast cancer overall.
PURPOSE: We and other investigators have previously shown that postmenopausal combined estrogen and progestin replacement therapy (EPRT) increases the risk of breast cancer and that the risk associated with EPRT is substantially higher than for estrogen replacement therapy (ERT) alone. The present study was conducted to determine whether any particular subgroup of women are at particularly high risk of breast cancer if they use EPRT and whether tumor characteristics in women who develop cancer while on ERT or EPRT are different from those in women not using ERT or EPRT. PATIENTS AND METHODS: We conducted a population-based case-control study in Los Angeles, CA, with patients diagnosed with breast cancer in the late 1980s and early 1990s. Control subjects were matched to patients on age, ethnicity, and neighborhood of residence. We present data on 1,897 postmenopausal patients and 1,637 controls aged 55 to 72 years who had not undergone a simple hysterectomy. RESULTS: Relative risk of breast cancer associated with EPRT use did not vary with body mass index (body mass index at or below v above median [24.6 kg/m(2)]; P =.98), alcohol intake (> or + one v < one drink per week; P =.16), parity (nulliparous v parous; P =.45), history of benign breast disease (yes v no; P =.99), or family history of breast cancer (first degree v none; P =.57). All of these results were compatible with our previously reported estimate of an increased risk of breast cancer of 5% per year of use of EPRT. Hormone users, principally EPRT users, were more likely to have hormone receptor--positive, especially progesterone-positive, tumors. CONCLUSION: We found no evidence that the risk of breast cancer associated with EPRT is limited to subgroups of women with specific cofactors. Tumors in EPRT users are more often hormone receptor--positive, indicating that they may have a better prognosis than breast cancer overall.
Authors: Gaia Pocobelli; Polly A Newcomb; Christopher I Li; Linda S Cook; William E Barlow; Noel S Weiss Journal: Breast Cancer Res Treat Date: 2014-03-27 Impact factor: 4.872
Authors: Christopher I Li; Rowan T Chlebowski; Matthew Freiberg; Karen C Johnson; Lewis Kuller; Dorothy Lane; Lawrence Lessin; Mary Jo O'Sullivan; Jean Wactawski-Wende; Shagufta Yasmeen; Ross Prentice Journal: J Natl Cancer Inst Date: 2010-08-23 Impact factor: 13.506
Authors: Louise A Brinton; Douglas Richesson; Michael F Leitzmann; Gretchen L Gierach; Arthur Schatzkin; Traci Mouw; Albert R Hollenbeck; James V Lacey Journal: Cancer Epidemiol Biomarkers Prev Date: 2008-11 Impact factor: 4.254
Authors: Robert Gramling; Charles B Eaton; Kenneth J Rothman; Howard Cabral; Rebecca A Silliman; Timothy L Lash Journal: Epidemiology Date: 2009-09 Impact factor: 4.822
Authors: Christopher I Li; Janet R Daling; Kara L Haugen; Mei Tzu Chen Tang; Peggy L Porter; Kathleen E Malone Journal: Breast Cancer Res Treat Date: 2014-04-20 Impact factor: 4.872