放射治疗用60Co远射束治疗级电离室的校正

Md. Ali Reza, Md. Rakibul Islam, Md. Shakilur Rahman, M. Shamsuzzaman, Md. Rashedur Rahman, H. R. Khan
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引用次数: 1

摘要

放射治疗光束吸收剂量对水测量的准确性和可追溯性是实现癌症患者治疗效果的关键问题。目前放疗束流TRS-398、TG-51和DIN-6800-2的剂量学方案是基于电离室对60Co束流的水吸收剂量校正因子。电离室标定因子的准确性和放射光束输出的准确性是精确给药的首要要求,是放射剂量学的质量保证部分。在本研究中,我们根据参考标准NE2571校准了60Co光束的9个不同的电离室(8个顶针和1个平行板),并与制造商的值进行了比较。采用国际原子能机构(IAEA)剂量测定方案TRS-398,用标准校准系统测量了两个钴单元的百分比深度剂量(PDD)和输出因子(OF),并与医用直线加速器的6 MV光子束进行了比较。通过参与邮政剂量国际原子能机构/世界卫生组织比对项目,验证了剂量测定的可追溯性。参与的目的是研究电离室(IC)校准和吸收剂量测量所涉及的不确定度。相对于IAEA平均剂量的偏差百分比为-0.2%(可溯源限值±5%),表明光束和电离室的校准与国际标准的一致性很好。电离室因子的测量值与出厂值的偏差在0.07 ~ 2.81%之间,不确定度为±1.5% (k=1)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Calibration of Therapy Level Ionization Chamber at 60Co Teletherapy Beam Used for Radiation Therapy
The accuracy and traceability of absorbed dose to water measurement of radiotherapy beam is a critical issue to achieve the curative outcome of cancer patients. The current dosimetry protocols for radiotherapy beams TRS-398, TG-51 and DIN-6800-2 are based on the calibration factor of ionization chamber in terms of absorbed dose to water for 60Co beam. The accuracy of the calibration factor of ionization chamber as well as output of radiotherapy beam is the primary requirements of precisional dose deliver to the tumor which is the QA part of radiotherapy dosimetry. In the present study, we have calibrated 9 different ionization chambers (8 thimbles and 1 parallel plate) of various active volumes for 60Co beam against reference standard NE2571 and compared with manufacturer’s values. The Percentage Depth Dose (PDD) and Output Factors (OF) of two cobalt units were measured with standard calibration system by following IAEA dosimetry protocol TRS-398 and compare with 6 MV photon beam from medical linear accelerator. The traceability of the dosimetry was verified by the participation of postal dose IAEA/WHO intercomparison program. The aim of the participation was to investigate uncertainties involved in the calibration of Ionization Chamber (IC) and absorbed dose measurement. The percentage of deviation relative to IAEA mean dose was found to be -0.2% (traceable limit ±5%), which shows an excellent agreement of calibration of beam as well as ionization chamber with international standard. The deviation of factors of ionization chambers between the measured and manufacturer’s values were found within 0.07-2.81% with an uncertainty of ±1.5% (k=1).
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