TY - JOUR
T1 - Urethra-sparing prostate cancer radiotherapy
T2 - Current practices and future insights from an international survey
AU - Guévelou, Jennifer Le
AU - Sargos, Paul
AU - Ost, Piet
AU - Alongi, Filippo
AU - Arcangeli, Stefano
AU - Berlin, Alejandro
AU - Blanchard, Pierre
AU - Bruynzeel, Anna
AU - Chapet, Olivier
AU - Dal Pra, Alan
AU - Dess, Robert T.
AU - Guckenberger, Matthias
AU - Loblaw, Andrew
AU - Kishan, Amar U.
AU - Jereczek-Fossa, Barbara
AU - Pasquier, David
AU - Shelan, Mohamed
AU - Siva, Shankar
AU - Tree, Alison C.
AU - Zamboglou, Costantinos
AU - Supiot, Stephane
AU - Murthy, Vedang
AU - Zilli, Thomas
N1 - Publisher Copyright:
© 2024 The Author(s)
PY - 2025/3/1
Y1 - 2025/3/1
N2 - Purpose: In prostate cancer patients, high radiation doses to the urethra have been associated with an increased risk of severe genitourinary toxicity following dose-escalated radiotherapy. Urethra-sparing techniques have emerged as a promising approach to reduce urinary toxicity. This international survey aims to evaluate current global practices in urethra-sparing and explore future directions for the implementation of this technique in external beam radiotherapy (EBRT) for prostate cancer. Methods and materials: In April 2024, a survey consisting of 20 questions was distributed to 26 international radiation oncology experts in prostate cancer EBRT, with 23 experts participating. The survey focused on clinical scenarios which might take benefit from urethra-sparing, the definition of the urethra and urinary organs-at-risk, and urethral dose constraints. Results: Magnetic resonance imaging with T2-weighted sequences is the preferred method for urethra contouring (83 % consensus). Based on the experts opinion, urethra-sparing should be considered for prostate cancer EBRT, regardless of pelvic irradiation, except in cases where the tumor is located within 2 mm of the urethra and/or transitional zone, or in T4 disease. Most experts would not apply specific dose constraints to the urethra for either conventional or moderate hypofractionation regimens. When delivering stereotactic body radiotherapy (SBRT), urethra-sparing with dose hotspot limitation (urethra steering) is recommended by 70 % of the experts, in particular when combined with focal boosting (91 %). Urethra dose-reduction is also the favored approach for salvage prostate reirradiation with SBRT (70 % agreement). Large variations exists regarding urethral dose constraints. Conclusions: Urethra-sparing is a promising technique for the mitigation of urinary toxicity in prostate cancer patients undergoing EBRT, particularly recommended for ultra-hypofractionation and reirradiation with SBRT. The lack of consensus on specific urethral dose constraints and optimal sparing techniques underscores the need for further research to standardize practices in this field.
AB - Purpose: In prostate cancer patients, high radiation doses to the urethra have been associated with an increased risk of severe genitourinary toxicity following dose-escalated radiotherapy. Urethra-sparing techniques have emerged as a promising approach to reduce urinary toxicity. This international survey aims to evaluate current global practices in urethra-sparing and explore future directions for the implementation of this technique in external beam radiotherapy (EBRT) for prostate cancer. Methods and materials: In April 2024, a survey consisting of 20 questions was distributed to 26 international radiation oncology experts in prostate cancer EBRT, with 23 experts participating. The survey focused on clinical scenarios which might take benefit from urethra-sparing, the definition of the urethra and urinary organs-at-risk, and urethral dose constraints. Results: Magnetic resonance imaging with T2-weighted sequences is the preferred method for urethra contouring (83 % consensus). Based on the experts opinion, urethra-sparing should be considered for prostate cancer EBRT, regardless of pelvic irradiation, except in cases where the tumor is located within 2 mm of the urethra and/or transitional zone, or in T4 disease. Most experts would not apply specific dose constraints to the urethra for either conventional or moderate hypofractionation regimens. When delivering stereotactic body radiotherapy (SBRT), urethra-sparing with dose hotspot limitation (urethra steering) is recommended by 70 % of the experts, in particular when combined with focal boosting (91 %). Urethra dose-reduction is also the favored approach for salvage prostate reirradiation with SBRT (70 % agreement). Large variations exists regarding urethral dose constraints. Conclusions: Urethra-sparing is a promising technique for the mitigation of urinary toxicity in prostate cancer patients undergoing EBRT, particularly recommended for ultra-hypofractionation and reirradiation with SBRT. The lack of consensus on specific urethral dose constraints and optimal sparing techniques underscores the need for further research to standardize practices in this field.
KW - Prostate cancer
KW - Radiotherapy
KW - SBRT
KW - Toxicity
KW - Urethra
UR - http://www.scopus.com/inward/record.url?scp=85213568352&partnerID=8YFLogxK
U2 - 10.1016/j.ctro.2024.100907
DO - 10.1016/j.ctro.2024.100907
M3 - Article
AN - SCOPUS:85213568352
SN - 2405-6308
VL - 51
JO - Clinical and Translational Radiation Oncology
JF - Clinical and Translational Radiation Oncology
M1 - 100907
ER -