18兆伏光子束下圆形射束产生的光中子剂量的蒙特卡罗计算。

Monte Carlo calculation of photo-neutron dose produced by circular cones at 18 MV photon beams.

作者信息

Hosseinzadeh Elham, Banaee Nooshin, Nedaie Hassan Ali

机构信息

Department of Medical Radiation, Engineering Faculty, Central Tehran Branch, Islamic Azad University, Tehran, Iran.

Odette Cancer Centre, University of Toronto, Toronto, Canada.

出版信息

Rep Pract Oncol Radiother. 2018 Jan-Feb;23(1):39-46. doi: 10.1016/j.rpor.2017.12.001. Epub 2018 Jan 9.

DOI:10.1016/j.rpor.2017.12.001

PMID:29348733

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5766758/

Abstract

AIM

The aim of this study is to calculate neutron contamination at the presence of circular cones irradiating by 18 MV photons using Monte Carlo code.

BACKGROUND

Small photon fields are one of the most useful methods in radiotherapy. One of the techniques for shaping small photon beams is applying circular cones made of lead. Using this method in high energy photon due to neutron contamination is a crucial issue.

MATERIALS AND METHODS

Initially, Varian linac producing 18 MV photons was simulated and after validating the code, various circular cones were also simulated. Then, the number of neutrons, neutron equivalent dose and absorbed dose per Gy of photon dose were calculated along the central axis.

RESULTS

Number of neutrons per Gy of photon dose had their maximum value at depth of 2 cm and these values for 5, 10, 15, 20 and 30 mm circular cones were 9.02, 7.76, 7.61, 6.02 and 5.08 (n cm Gy), respectively. Neutron equivalent doses per Gy of photon dose had their maximum at the surface of the phantom and these values for mentioned collimators were 1.48, 1.33, 1.31, 1.12 and 1.08 (mSv Gy), respectively. Neutron absorbed doses had their maximum at the surface of the phantom and these values for mentioned collimators sizes were 103.74, 99.71, 95.77, 81.46 and 78.20 (μGy/Gy), respectively.

CONCLUSIONS

As the field size gets smaller, number of neutrons, equivalent and absorbed dose per Gy of photon increase. Also, neutron equivalent dose and absorbed dose are maximum at the surface of phantom and then these values will be decreased.

摘要

目的

本研究的目的是使用蒙特卡罗代码计算在18兆伏光子照射下存在圆形准直器时的中子污染情况。

背景

小光子野是放射治疗中最有用的方法之一。塑造小光子束的技术之一是使用铅制的圆形准直器。由于中子污染，在高能光子中使用这种方法是一个关键问题。

材料与方法

首先，对产生18兆伏光子的瓦里安直线加速器进行模拟，在验证代码后，也对各种圆形准直器进行模拟。然后，沿中心轴计算每戈瑞光子剂量的中子数、中子当量剂量和吸收剂量。

结果

每戈瑞光子剂量的中子数在2厘米深度处达到最大值，对于5、10、15、20和30毫米的圆形准直器，这些值分别为9.02、7.76、7.61、6.02和5.08（n/cm/Gy）。每戈瑞光子剂量的中子当量剂量在模体表面达到最大值，对于上述准直器，这些值分别为1.48、1.33、1.31、1.12和1.08（mSv/Gy）。中子吸收剂量在模体表面达到最大值，对于上述准直器尺寸，这些值分别为103.74、99.71、95.77、81.46和78.20（μGy/Gy）。

结论

随着射野尺寸变小，每戈瑞光子剂量的中子数、当量剂量和吸收剂量增加。此外，中子当量剂量和吸收剂量在模体表面最大，然后这些值会降低。

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