基于开源软件EGSnrcmp的锥形x射线束蒙特卡罗模拟及体素幻影剂量评分

N. Chatzisavvas, D. Nikolopoulos, G. Priniotakis, I. Valais, T. Koustas, Georgios Karpetas
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引用次数: 0

摘要

如今,辐射被用于检查、治疗、食品安全和诊断目的。我们日常生活中使用的设备包括机场扫描仪、投影放射机、CT扫描仪、治疗头、货物检查系统等。然而,这些系统非常复杂,并且需要花费大量的资金来研究、维护和进行研究。蒙特卡罗是成功模拟这类系统并获得与实验方法相当的结果的理想方法。然而,仿真软件并不总是免费的、开源的,并且每个人都可以访问。开源软件在最能代表我们所处时代的技术时代获得了普及,实际上所有重要的软件部门现在都在使用开源软件工具。借助一款名为EGSnrcmp的开源、经过彻底验证的软件,我们能够描述锥束计算机断层扫描x射线源的抽象几何模型,生成患者特定的幻影,并根据锥束源的特征对剂量值进行评分。我们概述了必要的方法,并提供了关于如何在软件生态系统中进行此类研究的有用细节。我们的研究重点是通过模拟CBCT检查,探讨锥束源视场(FOV)与其对患者剂量的影响之间的关系。为了表征我们的cbct源,我们使用不锈钢材料来构建准直器,钨(W)材料来构建阳极。进行这些测试最常见的能量是100千伏特,这是我们利用的电子的能量。我们能够在由真实患者的dicom图像产生的幻影中记录吸收剂量,证明光束的视场与吸收剂量之间的关系,并使用理论值验证cbct源。
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Monte Carlo Simulation of Cone X-ray Beam and Dose Scoring on Voxel Phantom with Open Source Software EGSnrcmp
Radiation is used nowadays for inspection, therapy, food safety, and diagnostic purposes. Our daily lives include the use of devices like airport scanners, projectional radiographers, CT scanners, treatment heads, cargo inspection systems, etc. However, these systems are extremely complicated and cost a significant amount of money to study, maintain and conduct research with. Monte Carlo is the ideal method for simulating such systems successfully and achieving findings that are remarkably comparable to experimental methods. Simulation software, however, is not always free, open source, and accessible to everyone. Open source software has gained popularity in the technological age that best represents the period we are living in, and practically all significant software sectors now use open source software tools. With the aid of an open-source, thoroughly validated software, called EGSnrcmp we were able to describe an abstract model-geometry of a cone-beam computed tomography X-rays source, produce patient-specific phantoms and score dosage values based on characteristics of the cone beam source. We outline the necessary methods and provide useful details about how to conduct such studies inside the software's ecosystem. Our study focuses on the relationship between the cone-beam source's field of view (FOV) and its impact on patient dosage, by emulating a CBCT examination. To characterize our cbct source, we employed stainless steel material to build the collimator and tungsten (W) material to build the anode. The most frequent energy at which these tests are conducted is 100 keV, which is the energy of the electrons we utilize. We were able to score absorbed dosage within a phantom produced from dicom images of a real patient, demonstrate the relationship between the FOV of the beam and the absorbed dosage and verify the cbct source using theoretical values.
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来源期刊
Annals of Emerging Technologies in Computing
Annals of Emerging Technologies in Computing Computer Science-Computer Science (all)
CiteScore
3.50
自引率
0.00%
发文量
26
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