休斯顿成像与放射肿瘤学核心机构用于质子治疗临床试验资格认证的人体模型的结果。

Results From the Imaging and Radiation Oncology Core Houston's Anthropomorphic Phantoms Used for Proton Therapy Clinical Trial Credentialing.

作者信息

Taylor Paige A, Kry Stephen F, Alvarez Paola, Keith Tyler, Lujano Carrie, Hernandez Nadia, Followill David S

机构信息

Department of Radiation Physics, University of Texas MD Anderson Cancer Center, Houston, Texas.

出版信息

Int J Radiat Oncol Biol Phys. 2016 May 1;95(1):242-248. doi: 10.1016/j.ijrobp.2016.01.061. Epub 2016 Feb 10.

DOI:10.1016/j.ijrobp.2016.01.061

PMID:27084644

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4834872/

Abstract

PURPOSE

The purpose of this study was to summarize the findings of anthropomorphic proton phantom irradiations analyzed by the Imaging and Radiation Oncology Core Houston QA Center (IROC Houston).

METHODS AND MATERIALS

A total of 103 phantoms were irradiated by proton therapy centers participating in clinical trials. The anthropomorphic phantoms simulated heterogeneous anatomy of a head, liver, lung, prostate, and spine. Treatment plans included those for scattered, uniform scanning, and pencil beam scanning beam delivery modalities using 5 different treatment planning systems. For every phantom irradiation, point doses and planar doses were measured using thermoluminescent dosimeters (TLD) and film, respectively. Differences between measured and planned doses were studied as a function of phantom, beam delivery modality, motion, repeat attempt, treatment planning system, and date of irradiation.

RESULTS

The phantom pass rate (overall, 79%) was high for simple phantoms and lower for phantoms that introduced higher levels of difficulty, such as motion, multiple targets, or increased heterogeneity. All treatment planning systems overestimated dose to the target, compared to TLD measurements. Errors in range calculation resulted in several failed phantoms. There was no correlation between treatment planning system and pass rate. The pass rates for each individual phantom are not improving over time, but when individual institutions received feedback about failed phantom irradiations, pass rates did improve.

CONCLUSIONS

The proton phantom pass rates are not as high as desired and emphasize potential deficiencies in proton therapy planning and/or delivery. There are many areas for improvement with the proton phantom irradiations, such as treatment planning system dose agreement, range calculations, accounting for motion, and irradiation of multiple targets.

摘要

目的

本研究的目的是总结由休斯顿影像与放射肿瘤学核心质量保证中心（IROC休斯顿）分析的人体模型质子照射的结果。

方法和材料

共有103个模型接受了参与临床试验的质子治疗中心的照射。人体模型模拟了头部、肝脏、肺部、前列腺和脊柱的异质解剖结构。治疗计划包括使用5种不同治疗计划系统的散射、均匀扫描和笔形束扫描束传输方式的计划。对于每次模型照射，分别使用热释光剂量计（TLD）和胶片测量点剂量和平面剂量。研究测量剂量与计划剂量之间的差异，作为模型、束传输方式、运动、重复尝试、治疗计划系统和照射日期的函数。

结果

简单模型的模型通过率（总体为79%）较高，而引入更高难度水平（如运动、多个靶区或增加的异质性）的模型通过率较低。与TLD测量相比，所有治疗计划系统都高估了靶区剂量。射程计算误差导致几个模型照射失败。治疗计划系统与通过率之间没有相关性。每个单独模型的通过率并没有随着时间的推移而提高，但当个别机构收到关于模型照射失败的反馈时，通过率确实提高了。

结论

质子模型通过率不如预期高，这突出了质子治疗计划和/或传输中的潜在缺陷。质子模型照射有许多需要改进的地方，如治疗计划系统剂量一致性、射程计算、考虑运动以及多个靶区的照射。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/91ae/4834872/b4271a5029ea/nihms759031f1.jpg

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