The Estimation of Radiation Dose to Out-of-Field Points of Organs at Risk in Block and MLC Shielded Fields in Lung Cancer Radiation Therapy

Q3 Health Professions

Frontiers in Biomedical Technologies Pub Date : 2023-03-14 DOI:10.18502/fbt.v10i2.12223

Nastaran Momeni, Saeed Afraydoon, N. Hamzian, Abolfazl Nikfarjam, Mahmoud Vakili Ghasemabad, Sepideh Abdollahi-Dehkordi, M. Shabani, M. Dehestani, Adel Heidari

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Abstract

Purpose: Photon-field shaping in radiation therapy with cerrobend block or Multi-Leaf Collimator (MLC) leads to an increase in the scattered dose to the out-of-field Organ At Risk (OAR). This study aimed to measure and compare the healthy organs absorbed dose outside the cerrobend block and MLC shielded field. Materials and Methods: Computed Tomography (CT) images were taken of a heterogeneous Thorax phantom while the target volume and organ at risk, including the spinal cord, contralateral lung, and heart were contoured. Conformal Treatment planning was performed (POP fields, total dose 40 Gy, 5 fx/week, and 2 Gy/fx) on the Prowess Panter Treatment Planning System (TPS). Irradiation was performed with 6 and 18 Mv X-ray of Siemens Oncor medical linear accelerator, once for the block-shielded field and again for the MLC-shielded field. At each energy, the radiation dose to the contoured out-of-field organs was measured by an ionization chamber and compared. Results: At both 6 and 18 MV energies, the out-of-field dose in the MLC-shielded fields was significantly lower than in the block-shielded ones (P < 0.001). The out-of-filed dose for contoured organ at risk was not significantly different at 18 MV compared with 6 MV. The dose calculated by the treatment planning system showed that the healthy organs absorbed doses in all conditions were significantly lower than the dosimetry results. Conclusion: The use of MLC to shield the lung cancer treatment filed reduces the out-of-field OARs dose compared to cerrobend block. This reduction is greater at 18 MV photon beam but this difference is not statistically significant.

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肺癌放射治疗中阻断和MLC屏蔽场危及器官场外点辐射剂量的估算

目的:在cerrobend block或Multi-Leaf准直器(MLC)的放射治疗中，光子场整形会导致散射剂量增加到场外危险器官(OAR)。本研究旨在测量和比较健康器官在cerrobend block和MLC屏蔽场外的吸收剂量。材料和方法:采用计算机断层扫描(CT)对异质胸影进行扫描，同时勾画出目标体积和危险器官(包括脊髓、对侧肺和心脏)的轮廓。在治疗计划系统(TPS)上进行适形治疗计划(POP场，总剂量40 Gy, 5 Gy/周和2 Gy/周)。采用西门子Oncor医用直线加速器的6和18 Mv x射线照射，一次用于块状屏蔽场，一次用于mlc屏蔽场。在每个能量，辐射剂量的轮廓外的器官是由电离室测量和比较。结果:在6和18 MV能量下，mlc屏蔽场的场外剂量均显著低于块屏蔽场(P < 0.001)。有危险的轮廓器官的场外剂量在18 MV和6 MV时无显著差异。治疗计划系统计算的剂量显示，健康器官在所有条件下的吸收剂量均显著低于剂量测定结果。结论:与cerrobend阻滞相比，MLC对肺癌治疗场进行屏蔽可降低场外OARs剂量。在18 MV光子束下，这种减少更大，但这种差异在统计学上不显著。

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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