一组脑肿瘤质子治疗患者不同结构的线性能量传递和相对生物效应研究

Linear Energy Transfer and Relative Biological Effectiveness Investigation of Various Structures for a Cohort of Proton Patients With Brain Tumors.

作者信息

Vaniqui Ana, Vaassen Femke, Di Perri Dario, Eekers Daniëlle, Compter Inge, Rinaldi Ilaria, van Elmpt Wouter, Unipan Mirko

机构信息

Department of Radiation Oncology (MAASTRO), GROW School for Oncology, Maastricht University Medical Centre, Maastricht, The Netherlands.

出版信息

Adv Radiat Oncol. 2022 Nov 26;8(2):101128. doi: 10.1016/j.adro.2022.101128. eCollection 2023 Mar-Apr.

DOI:10.1016/j.adro.2022.101128

PMID:36632089

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9827037/

Abstract

PURPOSE

The current knowledge on biological effects associated with proton therapy is limited. Therefore, we investigated the distributions of dose, dose-averaged linear energy transfer (LET), and the product between dose and LET (DLET) for a patient cohort treated with proton therapy. Different treatment planning system features and visualization tools were explored.

METHODS AND MATERIALS

For a cohort of 24 patients with brain tumors, the LET, DLET, and dose was calculated for a fixed relative biological effectiveness value and 2 variable models: plan-based and phenomenological. Dose threshold levels of 0, 5, and 20 Gy were imposed for LET visualization. The relationship between physical dose and LET and the frequency of LET hotspots were investigated.

RESULTS

The phenomenological relative biological effectiveness model presented consistently higher dose values. For lower dose thresholds, the LET distribution was steered toward higher values related to low treatment doses. Differences up to 26.0% were found according to the threshold. Maximum LET values were identified in the brain, periventricular space, and ventricles. An inverse relationship between LET and dose was observed. Frequency information to the domain of dose and LET allowed for the identification of clusters, which steer the mean LET values, and the identification of higher, but sparse, LET values.

CONCLUSIONS

Identifying, quantifying, and recording LET distributions in a standardized fashion is necessary, because concern exists over a link between toxicity and LET hotspots. Visualizing DLET or dose × LET during treatment planning could allow for clinicians to make informed decisions.

摘要

目的

目前关于质子治疗相关生物学效应的知识有限。因此，我们研究了接受质子治疗的患者队列的剂量、剂量平均线性能量传递（LET）以及剂量与LET的乘积（DLET）的分布情况。还探索了不同的治疗计划系统特征和可视化工具。

方法和材料

对于24例脑肿瘤患者队列，针对固定的相对生物学效应值以及2种可变模型（基于计划的模型和现象学模型）计算LET、DLET和剂量。为进行LET可视化，设定了0、5和20 Gy的剂量阈值水平。研究了物理剂量与LET之间的关系以及LET热点的频率。

结果

现象学相对生物学效应模型呈现出始终较高的剂量值。对于较低的剂量阈值，LET分布倾向于与低治疗剂量相关的较高值。根据阈值发现差异高达26.0%。在脑、脑室周围间隙和脑室中确定了最大LET值。观察到LET与剂量之间呈反比关系。剂量和LET范围内的频率信息有助于识别引导平均LET值的聚类以及更高但稀疏的LET值。

结论

以标准化方式识别、量化和记录LET分布是必要的，因为人们担心毒性与LET热点之间存在联系。在治疗计划期间可视化DLET或剂量×LET可以使临床医生做出明智的决策。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6641/9827037/1db15035e9a1/gr1.jpg

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Linear Energy Transfer and Relative Biological Effectiveness Investigation of Various Structures for a Cohort of Proton Patients With Brain Tumors.一组脑肿瘤质子治疗患者不同结构的线性能量传递和相对生物效应研究

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一组脑肿瘤质子治疗患者不同结构的线性能量传递和相对生物效应研究

Linear Energy Transfer and Relative Biological Effectiveness Investigation of Various Structures for a Cohort of Proton Patients With Brain Tumors.

作者信息

机构信息

出版信息

PURPOSE

METHODS AND MATERIALS

RESULTS

CONCLUSIONS

目的

方法和材料

结果

结论

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