FORWARD INTENSITY-MODULATED RADIOTHERAPY PLANNING IN BREAST CANCER TO IMPROVE DOSE HOMOGENEITY: FEASIBILITY OF CLASS SOLUTIONS

To explore forward planning methods for breast cancer treatment to obtain homogeneous dose distributions (using International Commission on Radiation Units and Measurements criteria) within normal tissue constraints and to determine the feasibility of class solutions.Treatment plans were optimized in a stepwise procedure for 60 patients referred for postlumpectomy irradiation using strict dose constraints: planning target volume (PTV)(95%) of99%; V(107%) of1.8 cc; heart V(5 Gy) of10% and V(10 Gy) of5%; and mean lung dose of7 Gy. Treatment planning started with classic tangential beams. Optimization was done by adding a maximum of four segments before adding beams, in a second step. A breath-hold technique was used for heart sparing if necessary.Dose constraints were met for all 60 patients. The classic tangential beam setup was not sufficient for any of the patients; in one-third of patients, additional segments were required (3), and in two-thirds of patients, additional beams (2) were required. Logistic regression analyses revealed central breast diameter (CD) and central lung distance as independent predictors for transition from additional segments to additional beams, with a CD cut-off point at 23.6 cm.Treatment plans fulfilling strict dose homogeneity criteria and normal tissue constraints could be obtained for all patients by stepwise dose intensity modification using limited numbers of segments and additional beams. In patients with a CD of23.6 cm, additional beams were always required.