Dosimetric impact of voxel resolutions of computational human phantoms for external photon exposure.

Eutopia Revista de Desarrollo Economico Territorial Pub Date : 2019-10-01 Epub Date: 2019-09-23 DOI:10.1088/2057-1976/ab2850

Choonsik Lee, Andreu Badal, Yeon Soo Yeom, Keith Griffin, Dayton McMillan

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Abstract

Several research teams have developed computational phantoms in polygonal-mesh (PM) and/or Non-Uniform Rational B-Spline format, but it has not been systematically evaluated if the existing voxel phantoms are still dosimetrically valid. We created three voxel phantoms with the resolutions of 1,000, 125, and 1 mm³ and simulated the irradiation in antero-posterior geometry with photons of 0.1, 1, and 10 MeV using voxel Monte Carlo codes, and compared the energy deposition to their organs/tissues with the values from the original PM phantom using mesh Monte Carlo codes. The coefficient of variation in energy deposition overall showed about five-fold decrease as the voxel resolution increased but differences were mostly less than 5% for any voxel resolution. We conclude that PM phantoms and mesh Monte Carlo techniques may not be necessary for external photon exposure (0.1 - 10 MeV) and the existing voxel phantoms can provide enough dosimetric accuracy in those exposure conditions.

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用于外部光子照射的计算人体模型体素分辨率的剂量学影响。

一些研究团队开发了多边形网格和/或非均匀有理B-样条格式的计算模型，但尚未系统评估现有体素模型在剂量学上是否仍然有效。我们创建了分辨率分别为 1,000、125 和 1 mm3 的三个体素模型，并使用体素蒙特卡洛代码模拟了 0.1、1 和 10 MeV 光子的前后几何辐照，并使用网格蒙特卡洛代码将其器官/组织的能量沉积与原始 PM 模型的值进行了比较。随着体素分辨率的提高，能量沉积的总体变异系数下降了约五倍，但任何体素分辨率的差异大多小于 5%。我们的结论是，外部光子照射（0.1 - 10 MeV）可能不需要 PM 模型和网格蒙特卡罗技术，现有的体素模型可以在这些照射条件下提供足够的剂量测定精度。

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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Eutopia Revista de Desarrollo Economico Territorial

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20 weeks