detalle del documento
IDENTIFICACIÓN
doi:10.1007/s00345-024-04784-x...
Autor
Poon, Darren M. C. Yuan, Jing Wong, Oi Lei Yang, Bin Tse, Mei Yan Lau, Ka Ki Chiu, Sin Ting Chiu, Peter Ka-Fung Ng, Chi Fai Chui, Ka Lun Kwong, Yiu Ming Ma, Wai Kit Cheung, Kin Yin Chiu, George Yu, Siu KiLangue
enEditor
Springer
Categoría
Urology
Año
2024
fecha de cotización
28/2/2024
Palabras clave
prostate cancer (pc) rectal spacer magnetic resonance-guided stereota... toxicity patient-reported outcomes (pros) toxicities cancer based patients pc outcomes localized range prostate [range median rectal spacerResumen
Background and purpose This prospective study aimed to investigate adaptive magnetic resonance (MR)-guided stereotactic body radiation therapy (MRgSBRT) with rectal spacer for localized prostate cancer (PC) and report 1-year clinical outcomes.
Materials and methods Thirty-four consecutive patients with low- to high-risk localized PC that underwent 5-fraction adaptive MRgSBRT with rectal spacer were enrolled.
The dosimetric comparison was performed on a risk- and age-matched cohort treated with MRgSBRT but without a spacer at a similar timepoint.
Clinician-reported outcomes were based on Common Terminology Criteria for Adverse Events.
Patient-reported outcomes were based on the Expanded Prostate Cancer Index Composite (EPIC) questionnaire at baseline, acute (1–3 months), subacute (4–12 months), and late (> 12 months) phases.
Results The median follow-up was 390 days (range 28–823) and the median age was 70 years (range 58–82).
One patient experienced rectal bleeding soon after spacer insertion that subsided before MRgSBRT.
The median distance between the midline of the prostate midgland and the rectum after spacer insertion measured 7.8 mm (range 2.6–15.3), and the median length of the spacer was 45.9 mm (range 16.8–62.9) based on T2-weighted MR imaging.
The use of spacer resulted in significant improvements in target coverage (V100% > 95% = 98.6% [range 93.4–99.8] for spacer vs. 97.8% [range 69.6–99.7] for non-spacer) and rectal sparing (V95% < 3 cc = 0.7 cc [range 0–4.6] for spacer vs. 4.9 cc [range 0–12.5] for non-spacer).
Nine patients (26.5%) experienced grade 1 gastrointestinal toxicities, and no grade ≥ 2 toxicities were observed.
During the 1-year follow-up period, EPIC scores for the bowel domain remained stable and were the highest among all other domains.
Conclusions MRgSBRT with rectal spacer for localized PC showed exceptional tolerability with minimal gastrointestinal toxicities and satisfactory patient-reported outcomes.
Improvements in dosimetry, rectal sparing, and target coverage were achieved with a rectal spacer.
Randomized trials are warranted for further validation.
Poon, Darren M. C.,Yuan, Jing,Wong, Oi Lei,Yang, Bin,Tse, Mei Yan,Lau, Ka Ki,Chiu, Sin Ting,Chiu, Peter Ka-Fung,Ng, Chi Fai,Chui, Ka Lun,Kwong, Yiu Ming,Ma, Wai Kit,Cheung, Kin Yin,Chiu, George,Yu, Siu Ki, 2024, One-year clinical outcomes of MR-guided stereotactic body radiation therapy with rectal spacer for patients with localized prostate cancer, Springer
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