Developing A Method for Inter-Seed Effect Correction in 125I Interstitial Brachytherapy Using Artificial Neural Network

Q3 Health Professions

Iranian Journal of Medical Physics Pub Date : 2021-01-05 DOI:10.22038/IJMP.2021.50066.1814

Kheibar Bayati, S. Sina, R. Faghihi, Vahed Moharram Zadeh, M. Papie

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引用次数: 0

Abstract

Introduction: Treatment planning systems use TG-43 dose calculation protocol for brachytherapy sources. Dose calculations based on TG-43 formalism do not correct the perturbations due to the presence of tissue inhomogeneity, applicators, and inter-seed effects. Inter-seed attenuation has an important effect on dosimetry in permanent implant brachytherapy. The aim of this study is to evaluate the inter-seed attenuation effect for I-125 permanent implants. Then, a software was developed to find the real dose distribution for different combinations of sources. Materials and methods: In the first step, a hypothetical generic source model was designed based on the configurations of different commercial source types. MCNP5 Monte Carlo code was utilized to simulate the single active generic source at the center of the phantom, and an inactive placed at various positions inside the phantom. An algorithm was introduced using artificial neural network models that can estimate the dose distribution in presence of inactive sources. Results: The Monte Carlo calculation results showed that the dose distribution is clearly affected by the inter-seed attenuation effect. Comparison of the artificial neural network results with the Monte Carlo simulation results show that the artificial neural networks can predict the inter-seed attenuation with acceptable accuracy, and with not much greater than 3% deviation.Discussion and conclusions: Inter-seed effect is dependent on the distance between the seeds. Decreasing distances would cause more effect. According to the results, it seems that the artificial neural network can be used as a tool for correction of inter-seed attenuation effect in treatment planning systems.

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利用人工神经网络建立125I间质近距离治疗种子间效应校正方法

简介：治疗计划系统使用TG-43近距离放射治疗源剂量计算协议。由于存在组织不均匀性、施加器和种子间效应，基于TG-43形式的剂量计算无法校正扰动。种子间衰减对永久植入物近距离放射治疗中的剂量测定有重要影响。本研究的目的是评估I-125永久性植入物的种子间衰减效果。然后，开发了一个软件来找到不同来源组合的真实剂量分布。材料和方法：第一步，根据不同商业来源类型的配置，设计了一个假设的通用来源模型。MCNP5蒙特卡罗代码用于模拟位于体模中心的单个活动通用源和位于体模内部不同位置的非活动通用源。介绍了一种使用人工神经网络模型的算法，该算法可以估计存在非活性源时的剂量分布。结果：蒙特卡罗计算结果表明，种子间衰减效应明显影响剂量分布。人工神经网络的结果与蒙特卡罗模拟结果的比较表明，人工神经网络可以以可接受的精度预测种子间衰减，并且偏差不大于3%。讨论和结论：种子间效应取决于种子之间的距离。减少距离会产生更大的影响。根据研究结果，人工神经网络似乎可以作为治疗计划系统中种子间衰减效应的校正工具。

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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来源期刊

Iranian Journal of Medical Physics Health Professions-Radiological and Ultrasound Technology

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： Iranian Journal of Medical Physics (IJMP) is the official scientific bimonthly publication of the Iranian Association of Medical Physicists. IJMP is an international and multidisciplinary journal, peer review, free of charge publication and open access. This journal devoted to publish Original Papers, Review Articles, Short Communications, Technical Notes, Editorial and Letters to the Editor in the field of “Medical Physics” involving both basic and clinical research. Submissions of manuscript from all countries are welcome and will be reviewed by at least two expert reviewers.