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用于放射色胶片剂量测定的质子束质量的单参数描述符,应该是剂量而非注量平均线性能量传递(LET)。

Dose- rather than fluence-averaged LET should be used as a single-parameter descriptor of proton beam quality for radiochromic film dosimetry.

机构信息

Division Medical Radiation Physics, Department of Radiotherapy, Christian Doppler Laboratory for Medical Radiation Research for Radiation Oncology, Medical University of Vienna/AKH Wien, Währinger Gürtel 18-20, 1090, Vienna, Austria.

Medical Radiation Physics, Department of Physics, Stockholm University, Stockholm, Sweden.

出版信息

Med Phys. 2020 Jun;47(5):2289-2299. doi: 10.1002/mp.14097. Epub 2020 Mar 13.

DOI:10.1002/mp.14097
PMID:32166764
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7318138/
Abstract

PURPOSE

The dose response of Gafchromic EBT3 films exposed to proton beams depends on the dose, and additionally on the beam quality, which is often quantified with the linear energy transfer (LET) and, hence, also referred to as LET quenching. Fundamentally different methods to determine correction factors for this LET quenching effect have been reported in literature and a new method using the local proton fluence distribution differential in LET is presented. This method was exploited to investigate whether a more practical correction based on the dose- or fluence-averaged LET is feasible in a variety of clinically possible beam arrangements.

METHODS

The relative effectiveness (RE) was characterized within a high LET spread-out Bragg peak (SOBP) in water made up by the six lowest available energies (62.4-67.5 MeV, configuration " ") resulting in one of the highest clinically feasible dose-averaged LET distributions. Additionally, two beams were measured where a low LET proton beam (252.7 MeV) was superimposed on " ", which contributed either 50% of the initial particle fluence or 50% of the dose in the SOBP, referred to as configuration " " and " ," respectively. The proton LET spectrum was simulated with GATE/Geant4 at all measurement positions. The net optical density change differential in LET was integrated over the local proton spectrum to calculate the net optical density and therefrom the beam quality correction factor. The LET dependence of the film response was accounted for by an LET dependence of one of the three parameters in the calibration function and was determined from inverse optimization using measurement " ." This method was then validated on the measurements of " " and " " and subsequently used to calculate the RE at 900 positions in nine clinically relevant beams. The extrapolated RE set was used to derive a simple linear correction function based on dose-averaged LET ( ) and verify the validity in all points of the comprehensive RE set.

RESULTS

The uncorrected film dose deviated up to 26% from the reference dose, whereas the corrected film dose agreed within 3% in all three beams in water (" ", " " and " "). The LET dependence of the calibration function started to strongly increase around 5 keV/μm and flatten out around 30 keV/μm. All REs calculated from the proton fluence in the nine simulated beams could be approximated with a linear function of dose-averaged LET (RE = 1.0258-0.0211 μm/keV ). However, no functional relationship of RE- and fluence-averaged LET could be found encompassing all beam energies and modulations.

CONCLUSIONS

The film quenching was found to be nonlinear as a function of proton LET as well as of the dose-averaged LET. However, the linear relation of RE on dose-averaged LET was a good approximation in all cases. In contrast to dose-averaged LET, fluence-averaged LET could not describe the RE when multiple beams were applied.

摘要

目的

受质子束照射的 Gafchromic EBT3 胶片的剂量响应取决于剂量,此外还取决于束质,束质通常用量子转移比(LET)来量化,因此也称为 LET 淬灭。文献中报道了用于确定这种 LET 淬灭效应校正因子的基本不同方法,本文提出了一种使用 LET 局部质子通量分布差异的新方法。该方法用于研究基于剂量或通量平均 LET 的更实用的校正方法在各种临床可能的光束排列中是否可行。

方法

在由六个最低可用能量(62.4-67.5 MeV,配置“ ”)组成的高 LET 扩展布拉格峰(SOBP)中,通过测量相对有效性(RE)来描述在水中的相对有效性,从而产生了一种最高的临床可行剂量平均 LET 分布之一。此外,还测量了两个光束,其中一个低 LET 质子束(252.7 MeV)叠加在“ ”上,其贡献初始粒子通量的 50%或 SOBP 中的 50%剂量,分别称为配置“ ”和“ ”。在所有测量位置,使用 GATE/Geant4 模拟质子 LET 光谱。通过在局部质子光谱中积分 LET 微分的净光密度变化,计算净光密度,从而计算出束质校正因子。通过在测量“ ”中使用逆优化,将胶片响应的 LET 依赖性归因于校准函数中的三个参数之一的 LET 依赖性来确定胶片响应的 LET 依赖性。该方法随后在“ ”和“ ”的测量中进行了验证,并随后用于计算九个临床相关光束中的 900 个位置的 RE。扩展的 RE 集用于基于剂量平均 LET( )导出一个简单的线性校正函数,并在所有综合 RE 集点验证其有效性。

结果

未经校正的胶片剂量与参考剂量相差高达 26%,而在所有三个水射流中的校正后胶片剂量相差在 3%以内(“ ”,“ ”和“ ”)。校准函数的 LET 依赖性在大约 5 keV/μm 时开始急剧增加,并在大约 30 keV/μm 时趋于平稳。从九个模拟射束中的质子通量计算得出的所有 RE 都可以用剂量平均 LET 的线性函数近似(RE=1.0258-0.0211μm/keV)。然而,无法找到涵盖所有束能和调制的 RE-和通量平均 LET 的功能关系。

结论

发现胶片淬灭是质子 LET 和剂量平均 LET 的非线性函数。然而,在所有情况下,RE 与剂量平均 LET 的线性关系都是一个很好的近似。与剂量平均 LET 不同,当应用多个射束时,通量平均 LET 不能描述 RE。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fc0/7318138/156cf7e3402a/MP-47-2289-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fc0/7318138/3ea8ade294e6/MP-47-2289-g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fc0/7318138/2e0668807858/MP-47-2289-g003.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fc0/7318138/9be2373b5fc9/MP-47-2289-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fc0/7318138/156cf7e3402a/MP-47-2289-g009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fc0/7318138/43fb010d7d17/MP-47-2289-g005.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fc0/7318138/a082e9db79a3/MP-47-2289-g007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fc0/7318138/156cf7e3402a/MP-47-2289-g009.jpg

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