研究容积重绘以减轻笔形束扫描质子治疗中4D稳健优化肺癌计划的相互作用效应。

Investigating volumetric repainting to mitigate interplay effect on 4D robustly optimized lung cancer plans in pencil beam scanning proton therapy.

作者信息

Rana Suresh, Rosenfeld Anatoly B

机构信息

Department of Medical Physics, The Oklahoma Proton Center, Oklahoma City, Oklahoma, USA.

Department of Radiation Oncology, Miami Cancer Institute, Baptist Health South Florida, Miami, FL, USA.

出版信息

J Appl Clin Med Phys. 2021 Mar;22(3):107-118. doi: 10.1002/acm2.13183. Epub 2021 Feb 18.

DOI:10.1002/acm2.13183

PMID:33599391

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7984493/

Abstract

PURPOSE

The interplay effect between dynamic pencil proton beams and motion of the lung tumor presents a challenge in treating lung cancer patients in pencil beam scanning (PBS) proton therapy. The main purpose of the current study was to investigate the interplay effect on the volumetric repainting lung plans with beam delivery in alternating order ("down" and "up" directions), and explore the number of volumetric repaintings needed to achieve acceptable lung cancer PBS proton plan.

METHOD

The current retrospective study included ten lung cancer patients. The total dose prescription to the clinical target volume (CTV) was 70 Gy(RBE) with a fractional dose of 2 Gy(RBE). All treatment plans were robustly optimized on all ten phases in the 4DCT data set. The Monte Carlo algorithm was used for the 4D robust optimization, as well as for the final dose calculation. The interplay effect was evaluated for both the nominal (i.e., without repainting) as well as volumetric repainting plans. The interplay evaluation was carried out for each of the ten different phases as the starting phases. Several dosimetric metrics were included to evaluate the worst-case scenario (WCS) and bandwidth based on the results obtained from treatment delivery starting in ten different breathing phases.

RESULTS

The number of repaintings needed to meet the criteria 1 (CR1) of target coverage (D ≥ 98% and D ≥ 97%) ranged from 2 to 10. The number of repaintings needed to meet the CR1 of maximum dose (ΔD < 1.5%) ranged from 2 to 7. Similarly, the number of repaintings needed to meet CR1 of homogeneity index (ΔHI < 0.03) ranged from 3 to 10. For the target coverage region, the number of repaintings needed to meet CR1 of bandwidth (<100 cGy) ranged from 3 to 10, whereas for the high-dose region, the number of repaintings needed to meet CR1 of bandwidth (<100 cGy) ranged from 1 to 7. Based on the overall plan evaluation criteria proposed in the current study, acceptable plans were achieved for nine patients, whereas one patient had acceptable plan with a minor deviation.

CONCLUSION

The number of repaintings required to mitigate the interplay effect in PBS lung cancer (tumor motion < 15 mm) was found to be highly patient dependent. For the volumetric repainting with an alternating order, a patient-specific interplay evaluation strategy must be adopted. Determining the optimal number of repaintings based on the bandwidth and WCS approach could mitigate the interplay effect in PBS lung cancer treatment.

摘要

目的

在笔形束扫描（PBS）质子治疗中，动态笔形质子束与肺肿瘤运动之间的相互作用效应给肺癌患者的治疗带来了挑战。本研究的主要目的是研究按交替顺序（“向下”和“向上”方向）进行束流输送时对肺部计划进行容积重绘的相互作用效应，并探索实现可接受的肺癌PBS质子计划所需的容积重绘次数。

方法

本项回顾性研究纳入了10例肺癌患者。临床靶区（CTV）的总剂量处方为70 Gy（相对生物效应），分次剂量为2 Gy（相对生物效应）。所有治疗计划均在4DCT数据集中的所有十个时相上进行了稳健优化。蒙特卡罗算法用于4D稳健优化以及最终剂量计算。对名义计划（即不进行重绘）和容积重绘计划均评估了相互作用效应。以十个不同时相中的每一个作为起始时相进行相互作用评估。基于从十个不同呼吸时相开始的治疗输送所获得的结果，纳入了几个剂量学指标来评估最坏情况场景（WCS）和带宽。

结果

满足靶区覆盖标准1（CR1）（D≥98%且D≥97%）所需的重绘次数范围为2至10次。满足最大剂量CR1（ΔD<1.5%）所需的重绘次数范围为2至7次。同样，满足均匀性指数CR1（ΔHI<0.03）所需的重绘次数范围为3至10次。对于靶区覆盖区域，满足带宽CR1（<100 cGy）所需的重绘次数范围为3至10次，而对于高剂量区域，满足带宽CR1（<100 cGy）所需的重绘次数范围为1至7次。根据本研究提出的总体计划评估标准，9例患者实现了可接受的计划，而1例患者的计划有轻微偏差但仍可接受。

结论

发现在PBS肺癌（肿瘤运动<15 mm）中减轻相互作用效应所需的重绘次数高度依赖于患者。对于按交替顺序进行的容积重绘，必须采用针对患者的相互作用评估策略。基于带宽和WCS方法确定最佳重绘次数可以减轻PBS肺癌治疗中的相互作用效应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee5d/7984493/4c4d912cdaca/ACM2-22-107-g001.jpg

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研究容积重绘以减轻笔形束扫描质子治疗中4D稳健优化肺癌计划的相互作用效应。

Investigating volumetric repainting to mitigate interplay effect on 4D robustly optimized lung cancer plans in pencil beam scanning proton therapy.

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