Physical aspects of Bragg curve of therapeutic oxygen-ion beam: Monte Carlo simulation

IF 0.7 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Polish Journal of Medical Physics and Engineering Pub Date : 2022-09-01 DOI:10.2478/pjmpe-2022-0019
N. Ounoughi, Yamina Dribi, A. Boukhellout, F. Kharfi
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Abstract

Abstract Introduction: Oxygen (16O) ion beams have been recommended for cancer treatment due to its physical Bragg curve feature and biological property. The goal of this research is to use Monte Carlo simulation to analyze the physical features of the 16O Bragg curve in water and tissue. Material and methods: In order to determine the benefits and drawbacks of ion beam therapy, Monte Carlo simulation (PHITS code) was used to investigate the interaction and dose deposition properties of oxygen ions beam in water and human tissue medium. A benchmark study for the depth–dose distribution of a 16O ion beam in a water phantom was established using the PHITS code. Bragg’s peak location of 16O ions in water was simulated using the effect of water’s mean ionization potential. The contribution of secondary particles produced by nuclear fragmentation to the total dose has been calculated. The depth and radial dose profiles of 16O, 12C, 4He, and 1H beams were compared. Results: It was shown that PHITS accurately reproduces the measured Bragg curves. The mean ionization potential of water was estimated. It has been found that secondary particles contribute 10% behind the Bragg peak for 16O energy of 300 MeV/u. The comparison of the depth and radial dose profiles of 16O, 12C, 4He, and 1H beams, shows clearly, that the oxygen beam has the greater deposited dose at Bragg peak and the minor lateral deflection. Conclusions: The combination of these physical characteristics with radio-biological ones in the case of resistant organs located behind the tumor volume, leads to the conclusion that the 16O ion beams can be used to treat deep-seated hypoxic tumors.
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治疗氧离子束布拉格曲线的物理方面:蒙特卡罗模拟
摘要导读:氧(16O)离子束由于其物理布拉格曲线特征和生物学特性而被推荐用于癌症治疗。本研究的目的是利用蒙特卡罗模拟分析16O布拉格曲线在水和组织中的物理特征。材料和方法:为了确定离子束治疗的优点和缺点,采用蒙特卡罗模拟(PHITS代码)研究了氧离子束在水和人体组织介质中的相互作用和剂量沉积特性。利用PHITS程序建立了16O离子束在水幻影中的深度-剂量分布的基准研究。利用水的平均电离势的影响,模拟了16O离子在水中的布拉格峰位置。计算了核碎裂产生的二次粒子对总剂量的贡献。比较16O、12C、4He和1H束流的深度和径向剂量分布。结果:PHITS能准确再现实测布拉格曲线。估计了水的平均电离势。在300 MeV/u的16O能量下,二次粒子对布拉格峰的贡献为10%。通过对16O、12C、4He和1H束流的深度和径向剂量谱的比较,可以清楚地看出,氧束在Bragg峰处的沉积剂量较大,侧向偏转较小。结论:将这些物理特征与肿瘤体积后方耐药器官的放射生物学特征相结合,得出16O离子束可用于治疗深部缺氧肿瘤的结论。
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来源期刊
Polish Journal of Medical Physics and Engineering
Polish Journal of Medical Physics and Engineering RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
1.30
自引率
0.00%
发文量
19
期刊介绍: Polish Journal of Medical Physics and Engineering (PJMPE) (Online ISSN: 1898-0309; Print ISSN: 1425-4689) is an official publication of the Polish Society of Medical Physics. It is a peer-reviewed, open access scientific journal with no publication fees. The issues are published quarterly online. The Journal publishes original contribution in medical physics and biomedical engineering.
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