点扫描质子治疗中重新计划率的分析。

IF 2.1 Q3 ONCOLOGY
International Journal of Particle Therapy Pub Date : 2022-06-28 eCollection Date: 2022-01-01 DOI:10.14338/IJPT-21-00043.1
Yue-Houng Hu, Riley H Harper, Noelle C Deiter, Jaden D Evans, Anita Mahajan, Jon J Kruse, Daniel W Mundy
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引用次数: 1

摘要

目的:当患者感兴趣区域的几何形状得到很好的表征时,有限的质子范围可以提高放射治疗的剂量一致性。患者解剖结构的实质性变化需要重新规划(RP)以维持有效、安全的治疗。定期计划验证扫描(VS),以确保一致的处理质量。然而,进行有效的质子计划验证程序需要大量的资源,包括但不限于额外的计算机断层扫描(CT)扫描时间和专门的人员:放射治疗师、医学物理学家、医生和医学剂量测定师。材料和方法:研究了2015年6月至2018年6月期间711例质子治疗患者的验证扫描(VSs)和重新计划(rp)。所有RP治疗都是为了保持原始计划的完整性和覆盖率而进行的。按解剖部位分类:脑、颅脊、骨、脊柱、头颈、肺或胸、乳腺、前列腺、直肠、肛门、骨盆、食道、肝脏、腹部、四肢。在每组中,收集初始模拟扫描的日期、VS的数量、VS时完成的分数数量和RP的频率。根据RP的发生率和个体RP的可能性来分析数据。结果:在所有治疗部位共进行了2196例VSs和201例RPs。在重新计划率(RoR分别为54%和58%)和每位患者RP的个体可能性(RP的可能性[RP%]分别为46%和39%)方面,H&N和肺或胸部疾病部位代表了计划修改的最大比例。这些部位在治疗4周后需要RP,这表明对于频繁、周期性VS的持续获益,骨盆下部的疾病部位显示每VS的RP发生率较低(0.01-0.02),这表明减少VS的频率,特别是在治疗后期,可能是合理的。结论:不同解剖治疗部位的RoR和个体RP%存在很大程度的差异。目前的回顾性分析提供了数据,以帮助制定基于解剖部位的VS协议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Analysis of the Rate of Re-planning in Spot-Scanning Proton Therapy.

Analysis of the Rate of Re-planning in Spot-Scanning Proton Therapy.

Analysis of the Rate of Re-planning in Spot-Scanning Proton Therapy.

Analysis of the Rate of Re-planning in Spot-Scanning Proton Therapy.

Purpose: Finite proton range affords improved dose conformality of radiation therapy when patient regions-of-interest geometries are well characterized. Substantial changes in patient anatomy necessitate re-planning (RP) to maintain effective, safe treatment. Regularly planned verification scanning (VS) is performed to ensure consistent treatment quality. Substantial resources, however, are required to conduct an effective proton plan verification program, which includes but is not limited to, additional computed tomography (CT) scanner time and dedicated personnel: radiation therapists, medical physicists, physicians, and medical dosimetrists.

Materials and methods: Verification scans (VSs) and re-plans (RPs) of 711 patients treated with proton therapy between June 2015 and June 2018 were studied. All treatment RP was performed with the intent to maintain original plan integrity and coverage. The treatments were classified by anatomic site: brain, craniospinal, bone, spine, head and neck (H&N), lung or chest, breast, prostate, rectum, anus, pelvis, esophagus, liver, abdomen, and extremity. Within each group, the dates of initial simulation scan, number of VSs, number of fractions completed at the time of VS, and the frequency of RP were collected. Data were analyzed in terms of rate of RP and individual likelihood of RP.

Results: A total of 2196 VSs and 201 RPs were performed across all treatment sites. H&N and lung or chest disease sites represented the largest proportion of plan modifications in terms of rate of re-plan (RoR: 54% and 58%, respectively) and individual likelihood of RP on a per patient basis (likelihood of RP [RP%]: 46% and 39%, respectively). These sites required RP beyond 4 weeks of treatment, suggesting continued benefit for frequent, periodic VS. Disease sites in the lower pelvis demonstrated a low yield for RP per VS (0.01-0.02), suggesting that decreasing VS frequency, particularly late in treatment, may be reasonable.

Conclusions: A large degree of variation in RoR and individual RP% was observed between anatomic treatment sites. The present retrospective analysis provides data to help develop anatomic site-based VS protocols.

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来源期刊
International Journal of Particle Therapy
International Journal of Particle Therapy Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
3.70
自引率
5.90%
发文量
23
审稿时长
20 weeks
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