Dosimetric verification of radiotherapy treatment planning system at TMSS Cancer Center, Bogura, Bangladesh

World Journal of Advanced Engineering Technology and Sciences Pub Date : 2023-12-30 DOI:10.30574/wjaets.2023.10.2.0289

Mehrab Hassan Udoy, Rajada Khatun, Mokhlesur Rahman, Motiur Rahman, Fajle Rabby, Shirin Akter

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Abstract

Authentication of TPS is the component of the QA program for RTPS and planning process. So, verification of dose calculation algorithm is essential to measure the efficiency of the dose calculations. The goal is to assess how far the dosage measured deviates from the dose predicted by the treatment planning system (TPS) algorithm using a CIRS Thorax phantom. It has been done to measure the dosimetric variations of 6MV, 10MV and 15MV photon beams. The phantom was initially scanned using a CT-simulator, and the raw data from the gated scans were then exported to TPS to perform the planning. Using this planning, the phantom was irradiated for four different cases. The computed dose was then compared with the measured dose to ensure TPS validity. The findings demonstrate that the variation between the measured doses in altered holes of the CIRS thorax phantom and the calculated doses by TPS was within the allowed limit except few points of four cases. Max. and Min. deviations for 6MV were 3.87% and 0.05% respectively. On the other hand, Max. and Min. deviations for 10MV were 7.87% and 0.12% respectively and that for 15MV are 4.44% and 0.02% respectively. Satisfactory results were obtained for lung and bone substitute. The results demonstrate the accuracy of the doses determined by the treatment planning system algorithm using a thorax phantom, and they also demonstrate the competency of using the phantom for regular verification. In case of external beam radiation therapy with AAA algorithm, the CIRS Thorax Phantom is suitable for dose computation in heterogeneous medium. However it is more compatible for 6MV than 10MV and 15MV.

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孟加拉国博古拉 TMSS 癌症中心放射治疗计划系统的剂量测定验证

TPS 验证是 RTPS 质量保证计划和规划流程的组成部分。因此，剂量计算算法的验证对于衡量剂量计算的效率至关重要。我们的目标是使用 CIRS 胸腔模型来评估测量的剂量与治疗计划系统（TPS）算法预测的剂量偏差有多大。这项工作的目的是测量 6MV、10MV 和 15MV 光子束的剂量变化。首先使用 CT 模拟器对模型进行扫描，然后将选通扫描的原始数据导出到 TPS，以执行规划。利用该规划，对模型进行了四种不同情况的照射。然后将计算剂量与测量剂量进行比较，以确保 TPS 的有效性。研究结果表明，除了四个病例中的少数几个点外，CIRS 胸部模型改变孔中的测量剂量与 TPS 计算剂量之间的差异都在允许范围内。6MV 的最大和最小偏差分别为 3.87% 和 0.05%。另一方面，10MV 的最大和最小偏差分别为 7.87% 和 0.12%，15MV 的最大和最小偏差分别为 4.44% 和 0.02%。肺替代物和骨替代物的结果令人满意。这些结果表明，使用胸腔模型的治疗计划系统算法所确定的剂量是准确的，同时也证明了使用模型进行定期验证的能力。在使用 AAA 算法进行体外放射治疗时，CIRS 胸部模型适用于异质介质中的剂量计算。不过，与 10MV 和 15MV 相比，它与 6MV 更为兼容。

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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World Journal of Advanced Engineering Technology and Sciences

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