| Title: |
Treatment Optimization in Linac-Based SBRT for Localized Prostate Cancer: A Single-Arc versus Dual-Arc Plan Comparison. |
| Authors: |
Panizza, Denis1,2 (AUTHOR) denis.panizza@irccs-sangerardo.it, Faccenda, Valeria1 (AUTHOR) elena.deponti@irccs-sangerardo.it, Arcangeli, Stefano2,3 (AUTHOR), De Ponti, Elena1,2 (AUTHOR) |
| Source: |
Cancers. Jan2024, Vol. 16 Issue 1, p13. 11p. |
| Subject Terms: |
*PROSTATE physiology, *RECTUM physiology, *BLADDER physiology, *COMPUTERS in medicine, *PARTICLE accelerators, *ORGANS (Anatomy), *TREATMENT effectiveness, *CANCER patients, *RISK assessment, *COMPARATIVE studies, *RADIATION doses, *DESCRIPTIVE statistics, *RADIOTHERAPY, *RADIOSURGERY, *PROSTATE tumors, *HEALTH planning, *PROBABILITY theory |
| Abstract: |
Simple Summary: Stereotactic body radiation therapy (SBRT) can be safely delivered for the treatment of localized prostate cancer. High-dose-per-fraction treatments require precise and rapid delivery of the radiation dose to the tumor, and any potential margin expansion must be balanced against the risk of increased toxicity. Since significant intrafraction prostate displacement can have a relevant impact on an extreme-hypofractionated regimen, real-time monitoring has emerged as a strategy to avoid the excessive exposure of healthy tissue or insufficient target coverage, but it requires continuous investment of resources and time. In real-world clinical practice, the utilization of organ motion management devices is not always feasible for all patients. Thus, our strategy has often been to mitigate the impact of intrafraction motion by shortening the delivery time without compromising the quality of the treatment. This was achieved through optimal patient preparation, flattening filter-free (FFF) beams, adequate margins, and a reduction in the number of arcs in the VMAT technique. This study aimed to comprehensively present data on treatment optimization in linac-based SBRT for localized prostate cancer at a single institution. Moreover, the dosimetric quality and treatment efficiency of single-arc (SA) versus dual-arc (DA) VMAT planning and delivery approaches were compared. Re-optimization was performed on twenty low-to-intermediate-risk- (36.25 Gy in 5 fractions) and twenty high-risk (42.7 Gy in 7 fractions) prostate plans initially administered with the DA FFF-VMAT technique in 2021. An SA approach was adopted, incorporating new optimization parameters based on increased planning and clinical experience. Analysis included target coverage, organ-at-risk (OAR) sparing, treatment delivery time, and the pre-treatment verification's gamma analysis-passing ratio. The SA optimization technique has consistently produced superior plans. Rectum and bladder mean doses were significantly reduced, and comparable target coverage and homogeneity were achieved in order to maintain a urethra protection strategy. The mean SA treatment delivery time was reduced by 22%; the mean monitor units increased due to higher plan complexity; and dose measurements demonstrated optimal agreement with calculations. The substantial reduction in treatment delivery time decreased the probability of prostate motion beyond the applied margins, suggesting potential decrease in treatment-related toxicity and improved target coverage in prostate SBRT. Further investigations are warranted to assess the long-term clinical outcomes. [ABSTRACT FROM AUTHOR] |
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