PURPOSE: To determine the interval from breast-conserving surgery (BCS) to radiation therapy (RT) that affects local control or survival. PATIENTS AND METHODS: The 10-year Kaplan-Meier (KM) local recurrence-free survival (LRFS), distant recurrence-free survival (DRFS), and breast cancer-specific survival (BCSS) were computed for 6,428 women who had T1 to 2, N0 to 1, M0 breast cancer that was diagnosed in British Columbia between 1989 and 2003, and who were treated with BCS and RT without chemotherapy. Intervals from BCS to RT were grouped by weeks as follows: < or = 4 (n = 83), greater than 4 to 8 (n = 2,288; reference group); greater than 8 to 12 (n = 2,606); greater than 12 to 16 (n = 961); greater than 16 to 20 (n = 358); and greater than 20 weeks (n = 132). Cox proportional hazards models and matching were used to control for confounding variables. RESULTS: The median follow-up time was 7.5 years. The 10-year KM outcomes were as follows: LRFS, 95.4%; DRFS, 90.5%; and BCSS, 92.5%. Compared with the greater than 4 to 8 weeks group, hazard ratios (HR) were not significantly different for any outcome among patients who were treated up to 20 weeks after BCS. However, LRFS (hazard ratio [HR], 2.00; P = .15), DRFS (HR, 1.86; P = .02) and BCSS (HR, 2.15; P = .009) were inferior for women with BCS-to-RT intervals greater than 20 weeks compared with those greater than 4 to 8 weeks. The matched analysis yielded similar results. CONCLUSION: Outcomes were statistically similar for BCS-to-RT intervals up to 20 weeks, but they were inferior for intervals beyond 20 weeks. Time can be reasonably allowed for the breast to heal and for patients to consider treatment options, but RT should start within 20 weeks of BCS.
PURPOSE: To determine the interval from breast-conserving surgery (BCS) to radiation therapy (RT) that affects local control or survival. PATIENTS AND METHODS: The 10-year Kaplan-Meier (KM) local recurrence-free survival (LRFS), distant recurrence-free survival (DRFS), and breast cancer-specific survival (BCSS) were computed for 6,428 women who had T1 to 2, N0 to 1, M0 breast cancer that was diagnosed in British Columbia between 1989 and 2003, and who were treated with BCS and RT without chemotherapy. Intervals from BCS to RT were grouped by weeks as follows: < or = 4 (n = 83), greater than 4 to 8 (n = 2,288; reference group); greater than 8 to 12 (n = 2,606); greater than 12 to 16 (n = 961); greater than 16 to 20 (n = 358); and greater than 20 weeks (n = 132). Cox proportional hazards models and matching were used to control for confounding variables. RESULTS: The median follow-up time was 7.5 years. The 10-year KM outcomes were as follows: LRFS, 95.4%; DRFS, 90.5%; and BCSS, 92.5%. Compared with the greater than 4 to 8 weeks group, hazard ratios (HR) were not significantly different for any outcome among patients who were treated up to 20 weeks after BCS. However, LRFS (hazard ratio [HR], 2.00; P = .15), DRFS (HR, 1.86; P = .02) and BCSS (HR, 2.15; P = .009) were inferior for women with BCS-to-RT intervals greater than 20 weeks compared with those greater than 4 to 8 weeks. The matched analysis yielded similar results. CONCLUSION: Outcomes were statistically similar for BCS-to-RT intervals up to 20 weeks, but they were inferior for intervals beyond 20 weeks. Time can be reasonably allowed for the breast to heal and for patients to consider treatment options, but RT should start within 20 weeks of BCS.
Authors: Pelagia G Tsoutsou; Yazid Belkacemi; Joseph Gligorov; Abraham Kuten; Hamouda Boussen; Nuran Bese; Michael I Koukourakis Journal: Oncologist Date: 2010-11-01
Authors: Per Karlsson; Bernard F Cole; Marco Colleoni; Mario Roncadin; Boon H Chua; Elizabeth Murray; Karen N Price; Monica Castiglione-Gertsch; Aron Goldhirsch; Günther Gruber Journal: Int J Radiat Oncol Biol Phys Date: 2010-08-21 Impact factor: 7.038
Authors: Jennifer Y Sheng; Cesar A Santa-Maria; Neha Mangini; Haval Norman; Rima Couzi; Raquel Nunes; Mary Wilkinson; Kala Visvanathan; Roisin M Connolly; Evanthia T Roussos Torres; John H Fetting; Deborah K Armstrong; Jessica J Tao; Lisa Jacobs; Jean L Wright; Elissa D Thorner; Christine Hodgdon; Samantha Horn; Antonio C Wolff; Vered Stearns; Karen L Smith Journal: JCO Oncol Pract Date: 2020-06-30
Authors: Catherine Duggan; Allison Dvaladze; Anne F Rositch; Ophira Ginsburg; Cheng-Har Yip; Susan Horton; Rolando Camacho Rodriguez; Alexandru Eniu; Miriam Mutebi; Jean-Marc Bourque; Shahla Masood; Karla Unger-Saldaña; Anna Cabanes; Robert W Carlson; Julie R Gralow; Benjamin O Anderson Journal: Cancer Date: 2020-05-15 Impact factor: 6.860
Authors: Kristina M Blackmore; Ashini Weerasinghe; Claire M B Holloway; Vicky Majpruz; Lucia Mirea; Frances P O'Malley; Cathy Paroschy Harris; Ashley Hendry; Amanda Hey; Anat Kornecki; George Lougheed; Barbara-Anne Maier; Patricia Marchand; David McCready; Carol Rand; Simon Raphael; Roanne Segal-Nadler; Neelu Sehgal; Derek Muradali; Anna M Chiarelli Journal: Can J Public Health Date: 2019-04-29
Authors: Richard J Bleicher; Karen Ruth; Elin R Sigurdson; Eric Ross; Yu-Ning Wong; Sameer A Patel; Marcia Boraas; Neal S Topham; Brian L Egleston Journal: J Clin Oncol Date: 2012-11-19 Impact factor: 44.544
Authors: Emily L Albright; Mary C Schroeder; Kendra Foster; Sonia L Sugg; Lillian M Erdahl; Ronald J Weigel; Ingrid M Lizarraga Journal: Ann Surg Oncol Date: 2018-04-18 Impact factor: 5.344
Authors: Rachel Yung; Roberta M Ray; Joshua Roth; Lisa Johnson; Greg Warnick; Garnet L Anderson; Candyce H Kroenke; Rowan T Chlebowski; Michael S Simon; Chunkit Fung; Kathy Pan; Di Wang; Wendy E Barrington; Kerryn W Reding Journal: Breast Cancer Res Treat Date: 2020-02-15 Impact factor: 4.872
Authors: Mark Hwang; Mishel Farasatpour; Campbell D Williams; Julie A Margenthaler; Katherine S Virgo; Frank E Johnson Journal: Oncol Lett Date: 2012-01-09 Impact factor: 2.967