The most commonly used dose for prostate cancer stereotactic body radiotherapy (SBRT) is 5 × 7.25 Gy. The aim of this study was to evaluate the dosimetric feasibility of a 5 × 9 Gy SBRT regimen while still limiting the dose to the urethra to 5 × 7.25 Gy. This dosimetric study is part of the groundwork for a future Phase III randomized trial.
The prostate, the urethra and the tumors were delineated on 20 dosimetric CT-scans with MRI-registration. The planning target volume (PTVp) was defined as a 5 mm expansion (3 mm posteriorly) of the prostate. The planning at risk volume (PRVu) was defined as a 2 mm expansion of the urethra. The tumors were delineated on the MRI (GTVt) and a 3 mm-margin was added to create a tumoral planning target volume (PTVt). IMRT plans were optimized to deliver 5 × 9 Gy to the PTVp, limiting the dose to the PRVu to 5 × 7.25 Gy. Results are presented using average (range) values.
PTVp doses were D98% = 36.2 Gy (35.6-36.8), D2% = 46.9 Gy (46.5-47.5) and mean dose = 44.1 Gy (43.8-44.5). The dose to the PRVu was within tolerance limits for all 20 patients: V34.4Gy = 99.8% (99.2-100) and D5% = 38.7 Gy (38.6-38.8). Dose coverage of PTV-PRVu was D95% = 40.6 Gy (40.5-40.9), D5% = 46.6 Gy (46.2-47.2) and mean dose = 44.6 Gy (44.3-44.9). Dose to the PTVt reached 44.6 Gy (41.2-45.9). Doses to the OAR were respected, except V36Gy ≤1 cc for the rectum.
A SBRT dose-escalation to 5 × 9 Gy on the prostate while sparing the urethra + 2 mm at 36.25 Gy is feasible without compromising dose coverage to the tumor. This radiation regimen will be used for a Phase-III trial.
In prostate SBRT, dose optimization on the urethra is feasible and could decrease urinary toxicities.

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