PurposeUltra-hypofractionated (UHF) radiation therapy (RT) has become a treatment alternative for patients with localized prostate cancer. In more advanced cases, seminal vesicles (SV) are routinely included in the target volume. The Scandinavian HYPO-RT-PC trial, which compared 42.7Gy in 7 fractions (fr) to conventional fractionation (CF), did not include SV in the CTV. The primary objective of the present work is to implement a UHF simultaneous integrated boost (SIB) for prostate cancer RT, incorporating SV into the target volume based on this fractionation schedule. A secondary objective is to analyze the unintentional dose coverage of SV from state-of-the-art VMAT treatments to the prostate gland only. Material and MethodsTwo different equi-effective UHF-SIB treatment schedules to SV were derived based on the CF clinical schedule (50.0Gy/25fr to elective SV and 70.0Gy/35fr to verified SV-invasion (SVI)) using the linear quadric model with α/β=2Gy and 3Gy. The dose to the prostate was 42.7Gy/7fr in both schedules with 31.2Gy/37.8Gy (α/β=2Gy) and 32.7Gy/40.1Gy (α/β=3Gy) to elective SV/verified SVI. VMAT plans to the proximal 10mm and 20mm were optimized and dose-volume-metrics for target volumes and organs at risk (OAR) evaluated. ResultsDose metrics were overall lower for UHF-SIB compared to CF. QUANTEC based volume-criteria are 2-7% lower for rectum and 2-4% lower for bladder in the UHF-SIB. D98% to elective SV were 7-12Gy3 lower with UHF-SIB and the corresponding data for verified SVI were about 2-3Gy3. The SV(10mm) V90%/(29.5Gy) for prostate only treatments (42.7Gy) were in median (IQR) 99% (87-100)/ 78% (58-99) for CTV/PTV. ConclusionUHF RT, based on the HYPO-RT-PC fractionation schedule, with a SIB technique to the prostate and the base of the SV can be planned with lower doses (EQD2) to OARs compared to CF. Unintentional dose to the proximal parts of SV in prostate only treatment can be substantial.
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