Effect of age on breast cancer outcomes in women with human epidermal growth factor receptor 2-positive breast cancer: results from a herceptin adjuvant trial.

PURPOSE Previous research has suggested that young age at diagnosis is an independent risk factor for breast cancer recurrence and death. No prior studies have adequately controlled for human epidermal growth factor receptor 2 (HER2) status or anti-HER2 treatment. We sought to evaluate whether age was a prognostic or predictive factor in the HERA trial. PATIENTS AND METHODS We used 2-year median follow-up data and dichotomized age at 40 years to evaluate its prognostic effect on outcomes for women assigned to trastuzumab for 1 year or observation. RESULTS Of the 1,703 women randomly assigned to 1 year of trastuzumab and 1,698 to observation, 722 (21%) were age ≤ 40 years at study entry. In separate Cox models, controlling for relevant prognostic and predictive factors, disease-free (DFS) and overall survival (OS) hazard ratios (HRs) were consistent for women age ≤ 40 versus > 40 years, regardless of treatment assignment (observation group: DFS HR age ≤ 40 v > 40 years, 1.18; 95% CI, 0.90 to 1.54; OS HR age ≤ 40 v > 40 years, 1.01; 95% CI, 0.60 to 1.69; trastuzumab group: DFS HR age ≤ 40 v > 40 years, 1.11; 95% CI, 0.81 to 1.51; OS HR age ≤ 40 v > 40 years, 1.18; 95% CI, 0.66 to 2.09). Interaction between age group and treatment effect was not statistically significant (DFS P = .89; OS P = .55). CONCLUSION In a retrospective analysis of a large randomized controlled trial of women with early-stage HER2-positive breast cancer, age was not strongly associated with risk of early recurrence or prediction of benefit from trastuzumab therapy. Future research should investigate whether age is a predictor of later recurrence and evaluate the impact of age within groups with other tumor subtypes.

[1]  R. Gopal Age, Breast Cancer Subtype Approximation, and Local Recurrence After Breast-Conserving Therapy: Arvold ND, Taghian AG, Niemierko A, et al (Harvard Med School, Boston, MA; Massachusetts General Hosp, Boston; et al) J Clin Oncol 29:3885-3891, 2011§ , 2012 .

[2]  L. Collins,et al.  Pathologic features and molecular phenotype by patient age in a large cohort of young women with breast cancer , 2012, Breast Cancer Research and Treatment.

[3]  S. Cnattingius,et al.  P1-08-09: Increased Mortality in Swedish Women Diagnosed with Breast Cancer during and Shortly after Pregnancy. , 2011 .

[4]  A. Tan,et al.  BS3-2: Mammary Stroma as an NSAID Target; Implications for Pregnancy-Associated Breast Cancer. , 2011 .

[5]  E. Winer,et al.  P4-11-12: Molecular Phenotype of Breast Cancers in a Large Cohort of Young Women According to Time Interval Since Pregnancy. , 2011 .

[6]  Barbara L. Smith,et al.  Age, breast cancer subtype approximation, and local recurrence after breast-conserving therapy. , 2011, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[7]  Kevin W Eliceiri,et al.  Postpartum mammary gland involution drives progression of ductal carcinoma in situ through collagen and COX-2 , 2011, Nature Medicine.

[8]  Charles M Perou,et al.  Breast carcinomas arising at a young age: unique biology or a surrogate for aggressive intrinsic subtypes? , 2011, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[9]  M. Bonetti,et al.  Evaluation of treatment-effect heterogeneity using biomarkers measured on a continuous scale: subpopulation treatment effect pattern plot. , 2010, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[10]  A. Luini,et al.  Prognosis and adjuvant treatment effects in selected breast cancer subtypes of very young women (<35 years) with operable breast cancer. , 2010, Annals of oncology : official journal of the European Society for Medical Oncology.

[11]  A. Jemal,et al.  Cancer Statistics, 2010 , 2010, CA: a cancer journal for clinicians.

[12]  Päivi Heikkilä,et al.  Subtyping of Breast Cancer by Immunohistochemistry to Investigate a Relationship between Subtype and Short and Long Term Survival: A Collaborative Analysis of Data for 10,159 Cases from 12 Studies , 2010, PLoS medicine.

[13]  R. Tamimi,et al.  Pathologic Features and Biomarker Expression among Young Women with Breast Cancer: Results from the Young Women's Breast Cancer Study. , 2009 .

[14]  Marco Bonetti,et al.  A small sample study of the STEPP approach to assessing treatment–covariate interactions in survival data , 2009, Statistics in medicine.

[15]  J. Niland,et al.  Chemotherapy use for hormone receptor-positive, lymph node-negative breast cancer. , 2008, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[16]  J. Marks,et al.  Young age at diagnosis correlates with worse prognosis and defines a subset of breast cancers with shared patterns of gene expression. , 2008, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[17]  A. Culhane,et al.  Molecular profiling of breast cancer: transcriptomic studies and beyond. , 2007, Cellular and molecular life sciences : CMLS.

[18]  R. Millikan,et al.  Common Molecular Mechanisms of Mammary Gland Development and Breast Cancer , 2007, Cellular and Molecular Life Sciences.

[19]  W. Han,et al.  Poor outcome of hormone receptor-positive breast cancer at very young age is due to tamoxifen resistance: nationwide survival data in Korea--a report from the Korean Breast Cancer Society. , 2007, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[20]  David Cameron,et al.  2-year follow-up of trastuzumab after adjuvant chemotherapy in HER2-positive breast cancer: a randomised controlled trial , 2007, The Lancet.

[21]  J. Heck,et al.  Delays in breast cancer diagnosis and treatment by racial/ethnic group. , 2006, Archives of internal medicine.

[22]  A. Luini,et al.  Role of endocrine responsiveness and adjuvant therapy in very young women (below 35 years) with operable breast cancer and node negative disease. , 2006, Annals of oncology : official journal of the European Society for Medical Oncology.

[23]  Barbara L. Smith,et al.  Breast Cancer Diagnosis in Women ≤ 40 versus 50 to 60 Years: Increasing Size and Stage Disparity Compared With Older Women Over Time , 2006, Annals of Surgical Oncology.

[24]  R. Elledge,et al.  Medical and Psychosocial Predictors of Delay in Seeking Medical Consultation for Breast Symptoms in Women in a Public Sector Setting , 2006, Journal of Behavioral Medicine.

[25]  C. Perou,et al.  Race, breast cancer subtypes, and survival in the Carolina Breast Cancer Study. , 2006, JAMA.

[26]  M. Dowsett,et al.  Trastuzumab after adjuvant chemotherapy in HER2-positive breast cancer. , 2005, The New England journal of medicine.

[27]  Richard J. K. Taylor,et al.  Is age at diagnosis an independent prognostic factor for survival following breast cancer? , 2005, ANZ journal of surgery.

[28]  V. Allgar,et al.  Sociodemographic factors and delays in the diagnosis of six cancers: analysis of data from the ‘National Survey of NHS Patients: Cancer’ , 2005, British Journal of Cancer.

[29]  Richard R. Love,et al.  Duration of Signs and Survival in Premenopausal Women with Breast Cancer , 2004, Breast Cancer Research and Treatment.

[30]  W. Han,et al.  Young age: an independent risk factor for disease-free survival in women with operable breast cancer , 2004, BMC Cancer.

[31]  A. Luini,et al.  Very young women (<35 years) with operable breast cancer: features of disease at presentation. , 2002, Annals of oncology : official journal of the European Society for Medical Oncology.

[32]  R. Love,et al.  Young age as an adverse prognostic factor in premenopausal women with operable breast cancer. , 2002, Clinical breast cancer.

[33]  Christian A. Rees,et al.  Molecular portraits of human breast tumours , 2000, Nature.

[34]  I Persson,et al.  The relation between survival and age at diagnosis in breast cancer. , 1986, The New England journal of medicine.