PURPOSE: Several accelerated partial-breast irradiation (APBI) techniques are being investigated in patients with early-stage breast cancer. We present our initial experience using three-dimensional conformal radiation therapy (3D-CRT). METHODS AND MATERIALS: Sixty-one patients with tumors of 2 cm or less and negative axillary nodes were treated with 3D-CRT accelerated partial-breast irradiation (APBI) between August 2003 and March 2005. The prescribed radiation dose was 32 Gy in 4-Gy fractions given twice daily. Efforts were made to minimize the number of beams required to achieve adequate planning target volume (PTV) coverage. RESULTS: A combination of photons and electrons was used in 85% of patients. A three-field technique that consisted of opposed, conformal tangential photons and enface electrons was employed in 43 patients (70%). Nine patients (15%) were treated with a four-field arrangement, which consisted of three photon fields and enface electrons. Mean PTV volumes that received 100%, 95%, and 90% of the prescribed dose were 93% +/- 7%, 97% +/- 4%, and 98% +/- 2%, respectively. Dose inhomogeneity exceeded 10% in only 7 patients (11%). Mean doses to the ipsilateral lung and heart were 1.8 Gy and 0.8 Gy, respectively. CONCLUSIONS: Simple 3D-CRT techniques of APBI can achieve appropriate PTV coverage while offering significant normal-tissue sparing. Therefore, this noninvasive approach may increase the availability of APBI to patients with early-stage breast cancer.
PURPOSE: Several accelerated partial-breast irradiation (APBI) techniques are being investigated in patients with early-stage breast cancer. We present our initial experience using three-dimensional conformal radiation therapy (3D-CRT). METHODS AND MATERIALS: Sixty-one patients with tumors of 2 cm or less and negative axillary nodes were treated with 3D-CRT accelerated partial-breast irradiation (APBI) between August 2003 and March 2005. The prescribed radiation dose was 32 Gy in 4-Gy fractions given twice daily. Efforts were made to minimize the number of beams required to achieve adequate planning target volume (PTV) coverage. RESULTS: A combination of photons and electrons was used in 85% of patients. A three-field technique that consisted of opposed, conformal tangential photons and enface electrons was employed in 43 patients (70%). Nine patients (15%) were treated with a four-field arrangement, which consisted of three photon fields and enface electrons. Mean PTV volumes that received 100%, 95%, and 90% of the prescribed dose were 93% +/- 7%, 97% +/- 4%, and 98% +/- 2%, respectively. Dose inhomogeneity exceeded 10% in only 7 patients (11%). Mean doses to the ipsilateral lung and heart were 1.8 Gy and 0.8 Gy, respectively. CONCLUSIONS: Simple 3D-CRT techniques of APBI can achieve appropriate PTV coverage while offering significant normal-tissue sparing. Therefore, this noninvasive approach may increase the availability of APBI to patients with early-stage breast cancer.
Authors: Xiaochun Wang; Richard A Amos; Xiaodong Zhang; Phillip J Taddei; Wendy A Woodward; Karen E Hoffman; Tse Kuan Yu; Welela Tereffe; Julia Oh; George H Perkins; Mohammad Salehpour; Sean X Zhang; Tzou Liang Sun; Michael Gillin; Thomas A Buchholz; Eric A Strom Journal: Int J Radiat Oncol Biol Phys Date: 2010-08-12 Impact factor: 7.038
Authors: Douglas W Arthur; Kathryn Winter; Robert R Kuske; John Bolton; Rachel Rabinovitch; Julia White; William F Hanson; Raymond M Wilenzick; Beryl McCormick Journal: Int J Radiat Oncol Biol Phys Date: 2008-03-04 Impact factor: 7.038
Authors: X Wang; X Zhang; X Li; R A Amos; S F Shaitelman; K Hoffman; R Howell; M Salehpour; S X Zhang; T L Sun; B Smith; W Tereffe; G H Perkins; T A Buchholz; E A Strom; W A Woodward Journal: Br J Radiol Date: 2013-05-31 Impact factor: 3.039