Analisis Penggunaan Bolus Berbahan Plastisin pada Pasien Fibrosarcoma dengan Treatment Planning System (TPS)

Progressive Physics Journal Pub Date : 2022-06-30 DOI:10.30872/ppj.v3i1.818

Riska Fitriani, Kadek Subagiada, S. Muliyono, Robert Janssen Stevenly, Suryaningsih Suryaningsih

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Abstract

Bolus is a material that has properties similar to body tissues and is used to maximize the absorbed dose on the skin surface. The purpose of this research was to determine the most optimal treatment to kill fibrosarcoma on the patient’s skin surface by comparing the isodose curve and the value of the radiation absorption dose on the physical bolus (from CT-Scan) and model bolus (TPS). This study used data in the form of bolus images (with a bolus thickness of 0 cm, 0.5 cm and 1.0 cm) and phantom image. Then the data was processed with Treatment Planning System (TPS) and given energy variations in the form of electrons (10 MeV, 12 MeV, dan 15 MeV) and photons (6 MV and 10 MV). The result of this research was an isodosis curve that describes the distribution of the dose and the value of the absorbed dose of radiation received by the skin surface. The conclusion of this research is a bolus thickness of 0,5 cm and an electron energy of 15 MeV, has more even isodose curve (covering the entire tumor) and the maximum absorption dose value were 5720 cGy for physical bolus and 5710 cGy for TPS bolus.

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Bolus是一种具有类似身体组织特性的材料，用于最大限度地提高皮肤表面的吸收剂量。本研究的目的是通过比较物理丸(ct扫描)和模型丸(TPS)的等剂量曲线和辐射吸收剂量值，确定杀死患者皮肤表面纤维肉瘤的最佳治疗方法。本研究使用的数据采用丸状图像(丸状厚度分别为0 cm、0.5 cm和1.0 cm)和幻像的形式。然后用处理计划系统(TPS)对数据进行处理，并给出电子(10 MeV、12 MeV、15 MeV)和光子(6 MV和10 MV)的能量变化形式。这项研究的结果是一个isoisosis曲线，描述了剂量的分布和皮肤表面接受的辐射吸收剂量的值。本研究结论为:药丸厚度为0.05 cm，电子能量为15 MeV，等剂量曲线更为均匀(覆盖整个肿瘤)，物理药丸的最大吸收剂量值为5720 cGy, TPS药丸的最大吸收剂量值为5710 cGy。

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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Progressive Physics Journal

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