Radiation therapy with neutrons and hydrons of the liver region using the MCNP code: المعالجة الاشعاعية بالنترونات والهدرونات لمنطقة الكبد باستخدام الكود MCNP

Journal of natural sciences, life and applied sciences Pub Date : 2021-12-27 DOI:10.26389/ajsrp.r040721

Lara Kamal Jarouj, Anis Bilal, Nikola Abo Issa Lara Kamal Jarouj, Anis Bilal, Nikola Abo Issa

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Abstract

CT images were read and a 3D model of the tumor was created in the liver area, Then the values of the radiation dose in terms of the depth resulting from (photons, neutrons and protons) were estimated and studied using the code (MCNP) after entering the data into it. The value of the radiation dose in terms of depth and curvature in photons, neutrons and protons radiation therapy was studied, from our findings in the research we note that protons are the best option for radiation therapy for high-depth liver cancer of photons and neutrons due to the lower dose at entry compared to the dose absorbed in the tumor area and its ability to deliver a greater amount of dose of neutrons and photons to the tumor area. We note that the values reached are acceptable for the treatment of tumors at a depth close to the surface. As for a large-depth tumor, it is necessary to increase high-energy radiation doses deep in the tumor area by accelerating proton therapy to protect natural organs from high-energy radiation doses.

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与质质子和质子的的的贸易:使用质mmc - np对肝脏区域进行中子和镇子辐照处理

读取CT图像并在肝脏区域创建肿瘤的三维模型，然后将数据输入代码(MCNP)后，使用代码(MCNP)估计和研究由(光子，中子和质子)产生的深度辐射剂量值。研究了光子、中子和质子放射治疗中辐射剂量在深度和曲率方面的价值，从我们的研究结果中我们注意到质子是光子和中子高深度肝癌放射治疗的最佳选择，因为质子在进入时的剂量比肿瘤区域吸收的剂量低，并且它能够向肿瘤区域提供更大剂量的中子和光子。我们注意到所达到的数值对于接近表面深度的肿瘤的治疗是可以接受的。对于深度较大的肿瘤，需要通过加速质子治疗来增加肿瘤区域深部的高能辐射剂量，以保护天然器官免受高能辐射剂量的伤害。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of natural sciences, life and applied sciences

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