Dosimetric response of Gafchromic EBT-XD film to therapeutic protons.

Q4 Medicine
Precision Radiation Oncology Pub Date : 2023-03-01 Epub Date: 2023-03-02 DOI:10.1002/pro6.1187
Fada Guan, Xiaochun Wang, Ming Yang, Emily Draeger, Dae Han, Kiminori Iga, Fanqing Guo, Luis Perles, Yuting Li, Narayan Sahoo, Radhe Mohan, Zhe Chen
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引用次数: 0

Abstract

EBT-XD model of Gafchromic films has a broader optimal dynamic dose range, up to 40 Gy, compared to its predecessor models. This characteristic has made EBT-XD films suitable for high-dose applications such as stereotactic body radiotherapy and stereotactic radiosurgery, as well as ultra-high dose rate FLASH radiotherapy. The purpose of the current study was to characterize the dependence of EBT-XD film response on linear energy transfer (LET) and dose rate of therapeutic protons from a synchrotron. A clinical spot-scanning proton beam was used to study LET dependence at three dose-averaged LET (LETd) values of 1.0 keV/µm, 3.6 keV/µm, and 7.6 keV/µm. A research proton beamline was used to study dose rate dependence at 150 Gy/second in the FLASH mode and 0.3 Gy/second in the non-FLASH mode. Film response data from LETd values of 0.9 keV/µm and 9.0 keV/µm of the proton FLASH beam were also compared. Film response data from a clinical 6 MV photon beam were used as a reference. Both gray value method and optical density (OD) method were used in film calibration. Calibration results using a specific OD calculation method and a generic OD calculation method were compared. The four-parameter NIH Rodbard function and three-parameter rational function were compared in fitting the calibration curves. Experimental results showed that the response of EBT-XD film is proton LET dependent but independent of dose rate. Goodness-of-fit analysis showed that using the NIH Rodbard function is superior for both protons and photons. Using the "specific OD + NIH Rodbard function" method for EBT-XD film calibration is recommended.

Gafchromic的剂量反应™ EBT‐XD薄膜治疗质子
Gafchromic的EBT‐XD模型™ 与之前的模型相比,薄膜具有更宽的最佳动态剂量范围,最高可达40Gy。这一特性使EBT‐XD胶片适用于高剂量应用,如立体定向身体放射治疗和立体定向放射外科,以及超高剂量率FLASH放射治疗。本研究的目的是表征EBT‐XD膜响应对同步加速器治疗质子的线性能量转移(LET)和剂量率的依赖性。临床点扫描质子束用于研究三个剂量平均LET值为1.0 keV/μm、3.6 keV/微米和7.6 keV/微克时的LET依赖性。研究质子束线用于研究FLASH模式中150 Gy/s和非FLASH模式下0.3 Gy/s的剂量率依赖性。还比较了质子FLASH束0.9 keV/μm和9.0 keV/微米的剂量平均LET值的薄膜响应数据。临床6MV光子束的胶片响应数据用作参考。胶片校准采用灰度值法和光密度法。比较了使用特定OD计算方法和通用OD计算方法的校准结果。在拟合校准曲线时,比较了四参数NIH Rodbard函数和三参数有理函数。实验结果表明,EBT‐XD薄膜的响应是质子LET依赖性的,但与剂量率无关。拟合优度分析表明,使用NIH Rodbard函数对质子和光子都很好。建议使用“特定OD+NIH Rodbard函数”方法进行EBT‐XD胶片校准。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Precision Radiation Oncology
Precision Radiation Oncology Medicine-Oncology
CiteScore
1.20
自引率
0.00%
发文量
32
审稿时长
13 weeks
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