Construction and pre-evaluation of an in-house cylindrical ionization chamber fabricated from locally available materials

IF 0.7 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Polish Journal of Medical Physics and Engineering Pub Date : 2022-09-01 DOI:10.2478/pjmpe-2022-0022
S. Tagoe, Clement Dominic Chaphuka, F. Hasford
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Abstract

Abstract Introduction: The objectives of this study were to construct a very robust in-house cylindrical ionization chamber from locally available materials to minimize cost, and to assess its suitability for use in a clinical setting. Materials and Methods: The entire body of the constructed IC was composed of Perspex (PMMA). Other components of the IC were made from locally available materials, such as paper and discarded items. The in-house IC was made waterproof by passing the triaxial cable connecting its various electrodes through a plastic tube which once served as a drainage tube of a urine bag. This connection was made such that the chamber was vented to the environment. The completed in-house IC was evaluated for: polarity effect, ion recombination, ion collection efficiency, stability, dose linearity, stem effect, leakage current, angular, dose rate and energy dependences. Results: Although the pre-evaluation results confirmed that the in-house IC satisfied the stipulated international standards for ICs, there was a need to enhance the stem effect and leakage current characteristics of the IC. The in-house IC was found to have an absorbed dose to water calibration coefficient of 4.475 x 107 Gy/C (uncertainty of 1.6%) for cobalt 60 through a cross-calibration with a commercial 0.6 cc cylindrical IC with traceability to the Germany National Dosimetry Laboratory. Using a Jaffé diagram, the in-house IC was also found to have a recombination correction factor of 1.0078 when operated at the calibration voltage of + 400 V. In terms of beam quality correction factors for megavoltage beams, the in-house IC was found to exhibit characteristics similar to those of Scanditronix-Wellhofer IC 70 Farmer type IC. Conclusion: The constructed in-house Farmer-type IC was able to meet all the recommended characteristics for an IC, and therefore, the in-house IC is suitable for beam output calibration in external beam radiotherapy.
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用当地可用材料制造的内部圆柱形电离室的建造和预评估
摘要简介:本研究的目的是利用当地可用的材料构建一个非常坚固的内部圆柱形电离室,以最大限度地降低成本,并评估其在临床环境中使用的适用性。材料与方法:构建的集成电路整体由有机玻璃(PMMA)组成。集成电路的其他组件由当地可用的材料制成,例如纸张和废弃物品。内部集成电路通过连接各种电极的三轴电缆穿过曾经用作尿袋引流管的塑料管,从而实现了防水。这种连接是这样做的,室被通风到环境中。评估完成的内部集成电路的极性效应、离子复合、离子收集效率、稳定性、剂量线性、茎效应、泄漏电流、角度、剂量率和能量依赖性。结果:尽管pre-evaluation结果证实,内部集成电路满足ICs的国际标准规定,有必要增强的抑制效果和泄漏电流特征IC。内部集成电路被发现有水吸收剂量校准系数4.475 x 107 Gy / C(1.6%)的不确定性通过cross-calibration钴60商业0.6 cc圆柱形IC与德国国家剂量学实验室的可追溯性。使用jaff图,还发现内部IC在+ 400 V校准电压下工作时具有1.0078的复合校正因子。在超高电压光束的光束质量校正因子方面,发现内部集成电路具有与Scanditronix-Wellhofer IC 70 Farmer型IC相似的特性。结论:构建的内部集成电路能够满足IC的所有推荐特性,因此,内部集成电路适用于外束放射治疗中的光束输出校准。
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来源期刊
Polish Journal of Medical Physics and Engineering
Polish Journal of Medical Physics and Engineering RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
1.30
自引率
0.00%
发文量
19
期刊介绍: Polish Journal of Medical Physics and Engineering (PJMPE) (Online ISSN: 1898-0309; Print ISSN: 1425-4689) is an official publication of the Polish Society of Medical Physics. It is a peer-reviewed, open access scientific journal with no publication fees. The issues are published quarterly online. The Journal publishes original contribution in medical physics and biomedical engineering.
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