使用平板头部模体评估质子治疗脑部时的能量沉积和次级粒子产生。

Evaluation of energy deposition and secondary particle production in proton therapy of brain using a slab head phantom.

作者信息

Jia Sayyed Bijan, Hadizadeh Mohammad Hadi, Mowlavi Ali Asghar, Loushab Mahdy Ebrahimi

机构信息

Physics Department, School of Sciences, Ferdowsi University of Mashhad, P.O. Box 91775-1436, Mashhad, Iran.

Physics Department, School of Sciences, Hakim Sabzevari University, P.O. Box 397, Sabzevar, Iran.

出版信息

Rep Pract Oncol Radiother. 2014 May 1;19(6):376-84. doi: 10.1016/j.rpor.2014.04.008. eCollection 2014 Nov.

DOI:10.1016/j.rpor.2014.04.008

PMID:25337410

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4201772/

Abstract

AIM

Evaluation of energy deposition of protons in human brain and calculation of the secondary neutrons and photons produced by protons in proton therapy.

BACKGROUND

Radiation therapy is one of the main methods of treating localized cancer tumors. The use of high energy proton beam in radiotherapy was proposed almost 60 years ago. In recent years, there has been a revival of interest in this subject in the context of radiation therapy. High energy protons suffer little angular deflection and have a well-defined penetration range, with a sharp increase in the energy loss at the end of their trajectories, namely the Bragg peak.

MATERIALS AND METHODS

A slab head phantom was used for the purpose of simulating proton therapy in brain tissue. In this study simulation was carried out using the Monte Carlo MCNPX code.

RESULTS

By using mono energetic proton pencil beams, energy depositions in tissues, especially inside the brain, as well as estimating the neutron and photon production as a result of proton interactions in the body, together with their energy spectra, were calculated or obtained. The amount of energy escaped from the head by secondary neutrons and photons was determined.

CONCLUSIONS

It was found that for high energy proton beams the amount of escaped energy by neutrons is almost 10 times larger than that by photons. We estimated that at 110 MeV beam energy, the overall proton energy "leaked" from the head by secondary photons and neutrons to be around 1%.

摘要

目的

评估质子在人脑内的能量沉积，并计算质子治疗中质子产生的次级中子和光子。

背景

放射治疗是治疗局部癌症肿瘤的主要方法之一。大约60年前就有人提出在放射治疗中使用高能质子束。近年来，在放射治疗的背景下，人们对这一主题的兴趣再度兴起。高能质子的角偏转很小，穿透范围明确，在其轨迹末端能量损失急剧增加，即布拉格峰。

材料与方法

使用平板头部模型模拟脑组织中的质子治疗。本研究使用蒙特卡罗MCNPX代码进行模拟。

结果

通过使用单能质子笔形束，计算或获得了组织中的能量沉积，特别是脑内的能量沉积，以及估计了质子在体内相互作用产生的中子和光子及其能谱。确定了次级中子和光子从头部逸出的能量量。

结论

发现对于高能质子束，中子逸出的能量量几乎比光子大10倍。我们估计，在110 MeV束能量下，次级光子和中子从头部“泄漏”的总质子能量约为1%。

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