用统一的模型计算由不同材料组成的生物物体中单能电子和光子结合发射体的能量吸收分数

T. Sazykina
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引用次数: 0

摘要

发展了一种技术,将吸收分数的分析估计方法扩展到由各种材料组成的球形生物物体的情况。内部曝光源是单能量光子或电子的发射器,均匀分布在整个物体的体积上。分析结果进行测试,使用公布的蒙特卡罗数据集,由骨组织、肺组织、软肌肉组织和水组成的球体。在单能电子和光子中,重新标度吸收分数的“通用曲线”的存在,结合了各种材料的蒙特卡罗数据。每种生物材料的分析结果与蒙特卡罗数据完全一致。统一方法的优点是不需要使用复杂的蒙特卡罗代码和大量的插值程序,就可以快速计算辐射吸收分数。将该方法扩展到各种材料,为生物体的内部剂量学提供了新的机会,包括评估对不同器官和组织的剂量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using the unified model for calculating energy absorbed fractions from incorporated emitters of monoenergetic electrons and photons in bio-objects composed from various materials
A technique was developed to extending the methodology of analytical estimations of absorbed fractions to the case of spherical bio-objects composed from various materials. The internal source of exposure was emitter of monoenergetic photons or electrons uniformly distributed throughout the object’s volume. Analytical results were tested, using published sets of Monte Carlo data on spheres composed from bone tissues, lung tissues, soft muscle tissues and water. Existence of ‘universal curves’ for rescaled absorbed fractions, which combine Monte Carlo data on various materials was confirmed for monoenergetic electrons and photons. Analytical results are in adequate agreement with Monte Carlo data on each biomaterial. Advantage of the unified method is the express calculating of radiation absorbed fractions without employing complicated Monte Carlo codes, and numerous interpolating procedures. The extension of the methodology to various materials provides new opportunities for internal dosimetry of living organisms, including assessment of doses to different organs and tissues.
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