PURPOSE: To report the clinical feasibility of a trial of accelerated whole-breast intensity modulated radiotherapy, with the patient in prone position, optimally to spare the heart and lung. PATIENTS AND METHODS: Patients with stages I or II breast cancer, excised by breast conserving surgery with negative margins, were eligible for this institutional review board-approved prospective trial. Computed tomography simulation was performed with the patient prone on a dedicated breast board, in the exact position used for treatment. A dose of 40.5 Gy, delivered at 2.7 Gy in 15 fractions, was prescribed to the index breast with an additional concomitant boost of 0.5 Gy delivered to the tumor bed, for a total dose of 48 Gy to the lumpectomy site. Physics constraints consisted of limiting 5% of the heart volume to receive > or = 18 Gy and < or = 10% of the ipsilateral lung volume to receive > or = 20 Gy. RESULTS: Between September 2003 and August 2005, 91 patients were enrolled on the study. Median length of follow-up was 12 months (range, 1 to 28 months). In all patients the technique was feasible and heart and lung sparing was achieved as prescribed by the protocol. Acute toxicities consisting mostly of reversible grades 1-2 skin dermatitis (67%) and fatigue (18%) occurred in 75 patients. One patient sustained a regional recurrence rapidly followed by distant metastases. CONCLUSION: Accelerated whole breast intensity modulated radiotherapy in the prone position is feasible and it permits a drastic reduction in the volume of lung and heart tissue exposed to significant radiation.
PURPOSE: To report the clinical feasibility of a trial of accelerated whole-breast intensity modulated radiotherapy, with the patient in prone position, optimally to spare the heart and lung. PATIENTS AND METHODS: Patients with stages I or II breast cancer, excised by breast conserving surgery with negative margins, were eligible for this institutional review board-approved prospective trial. Computed tomography simulation was performed with the patient prone on a dedicated breast board, in the exact position used for treatment. A dose of 40.5 Gy, delivered at 2.7 Gy in 15 fractions, was prescribed to the index breast with an additional concomitant boost of 0.5 Gy delivered to the tumor bed, for a total dose of 48 Gy to the lumpectomy site. Physics constraints consisted of limiting 5% of the heart volume to receive > or = 18 Gy and < or = 10% of the ipsilateral lung volume to receive > or = 20 Gy. RESULTS: Between September 2003 and August 2005, 91 patients were enrolled on the study. Median length of follow-up was 12 months (range, 1 to 28 months). In all patients the technique was feasible and heart and lung sparing was achieved as prescribed by the protocol. Acute toxicities consisting mostly of reversible grades 1-2 skin dermatitis (67%) and fatigue (18%) occurred in 75 patients. One patient sustained a regional recurrence rapidly followed by distant metastases. CONCLUSION: Accelerated whole breast intensity modulated radiotherapy in the prone position is feasible and it permits a drastic reduction in the volume of lung and heart tissue exposed to significant radiation.
Authors: Guang-Pei Chen; Feng Liu; Julia White; Frank A Vicini; Gary M Freedman; Douglas W Arthur; X Allen Li Journal: Med Dosim Date: 2014-08-22 Impact factor: 1.482
Authors: Pierfrancesco Franco; Domenico Cante; Piera Sciacero; Giuseppe Girelli; Maria Rosa La Porta; Umberto Ricardi Journal: Breast Care (Basel) Date: 2015-02 Impact factor: 2.860
Authors: John Ng; Igor Shuryak; Yanguang Xu; K S Clifford Chao; David J Brenner; Ryan J Burri Journal: Int J Radiat Oncol Biol Phys Date: 2012-01-13 Impact factor: 7.038
Authors: Meena S Moran; Stuart J Schnitt; Armando E Giuliano; Jay R Harris; Seema A Khan; Janet Horton; Suzanne Klimberg; Mariana Chavez-MacGregor; Gary Freedman; Nehmat Houssami; Peggy L Johnson; Monica Morrow Journal: Int J Radiat Oncol Biol Phys Date: 2014-03-01 Impact factor: 7.038