Improved conformality and decreased toxicity with intraoperative computer-optimized transperineal ultrasound-guided prostate brachytherapy.

Overview

PURPOSE: We have developed an intraoperative three-dimensional (3D) conformal treatment planning system for permanent prostate implantation in an effort to reduce toxicity further and improve the accuracy of this procedure. We report the preliminary outcome of patients with localized prostate cancer treated with this approach. METHODS AND MATERIALS: Two hundred forty-eight patients with clinically localized prostate cancer were treated with transperineal ultrasound-guided permanent prostate implantation using a real-time intraoperative 3D conformal technique (I-3D) between 1997 and 2001. A genetic algorithm optimization program intraoperatively evaluated the dose deposited throughout the entire 3D volume for multiple seed configurations to identify which seed-loading pattern adhered best to the predetermined target, urethral and rectal dose constraints. The median follow-up time in these patients was 27 months (range 12-51). The dosimetric outcome and acute toxicity profile of these 248 patients were compared with those of patients who were treated between 1988 and 1996 at our institution with a preplanned transperineal implantation technique (PP). RESULTS: Postimplantation dosimetric analysis of the I-3D group demonstrated that the median value of the percentage of the target volume treated to at least the prescription dose (V(100)) was 96%, and the target coverage with the prescription dose (PD) was