用于放射治疗剂量学审计的放射性光致发光剂量计的高效调试程序

IF 1.6 3区 物理与天体物理 Q2 NUCLEAR SCIENCE & TECHNOLOGY Radiation Measurements Pub Date : 2024-08-15 DOI:10.1016/j.radmeas.2024.107268
Alexis Dimitriadis, Pavel Kazantsev, Egor Titovich, Geraldyne Ule-Duque, Roua Abdulrahim, Talent Magnus, Godfrey Azangwe, Jamema Swamidas
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引用次数: 0

摘要

目的 本研究旨在为 1000 台放射光剂量计(RPLD)的试运行制定一套有效的方案,以用于放射治疗中的邮政剂量审核。调试过程首先对 RPLD 进行一系列受控辐照,以确定其各自的标称响应。还进行了实验,以评估辐照位置、读数位置和环境温度对剂量计读数的影响。进行了统计分析,以评估 SCF 因归一化组别不同而产生的差异。结果采用的调试程序要求辐照位置校正系数(0.990-0.996)、读出盘位置校正系数(0.992-1.01)和室温校正(每摄氏度 0.4%)。这样就能计算出一批 1000 个 RPLD 的 SCF,分析发现大多数 SCF 在 0.985-1.015 范围内。所有归一化组 SCF 分布的标准偏差约为 1%。据观察,对整批 1000 个剂量计进行归一化的 SCF 可以有效地用于较小的审核批次,但会增加最多 0.2% 的不确定性。结论所制定的 RPLD 调试程序提供了一种可靠的方法,可确保在邮寄放射治疗剂量学审核中进行准确的剂量测量。对调试过程中应用的校正因子进行了详细描述,以有效地将测量的不确定性降至最低。研究结果支持在较小的审核组中使用按大剂量计批次归一化的 SCF,从而简化剂量测量审核过程。未来的研究应侧重于 SCF 的长期稳定性,以进一步提高基于 RPLD 的剂量测定审核的可靠性。
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An efficient protocol for commissioning radiophotoluminescence dosimeters for radiotherapy dosimetry audits

Purpose

The aim of this study was to develop an efficient protocol for the commissioning of 1000 radiophotoluminescence dosimeters (RPLDs) for use in postal dosimetry audits in radiotherapy. This involved the determination of correction factors necessary to reduce measurement uncertainty and ensure accurate dose measurements.

Methods

The commissioning process started with the RPLDs subjected to a series of controlled irradiations to determine their individual nominal response. Experiments were also conducted to assess the influence of irradiation position, reading position, and ambient temperature on the dosimeter readings all which were accounted for calculating individual sensitivity correction factors (SCFs) for each dosimeter. Statistical analysis was performed to evaluate the variability of SCFs depending on normalization group. An additional investigation simulating different dosimetry audit batches was conducted to study the effect of SCF variability on dosimetry audit measurements.

Results

The adopted commissioning protocol required irradiation position correction factors (0.990–0.996), readout tray position correction factors (0.992–1.01) and room temperature corrections (∼0.4 % per ° C). This enabled the calculation of SCFs for a batch of 1000 RPLDs and the analysis found the majority of SCFs falling within the range of 0.985–1.015. The standard deviations of the SCF distributions were approximately 1% for all normalization groups. It was observed that SCFs normalized to the entire batch of 1000 dosimeters could be effectively used for smaller audit batches, with an additional uncertainty contribution of up to 0.2%. This minimal increase in uncertainty is acceptable within the context of dosimetry audits.

Conclusions

The developed protocol for commissioning RPLDs provides a reliable method for ensuring accurate dose measurements in postal radiotherapy dosimetry audits. The correction factors applied during the commissioning process were thoroughly described to effectively minimize measurement uncertainty. The findings support the use of SCFs normalized to large dosimeter batches for smaller audit groups, thereby streamlining the dosimetry audit process. Future research should focus on the long-term stability of SCFs to further enhance the reliability of RPLD-based dosimetry audits.

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来源期刊
Radiation Measurements
Radiation Measurements 工程技术-核科学技术
CiteScore
4.10
自引率
20.00%
发文量
116
审稿时长
48 days
期刊介绍: The journal seeks to publish papers that present advances in the following areas: spontaneous and stimulated luminescence (including scintillating materials, thermoluminescence, and optically stimulated luminescence); electron spin resonance of natural and synthetic materials; the physics, design and performance of radiation measurements (including computational modelling such as electronic transport simulations); the novel basic aspects of radiation measurement in medical physics. Studies of energy-transfer phenomena, track physics and microdosimetry are also of interest to the journal. Applications relevant to the journal, particularly where they present novel detection techniques, novel analytical approaches or novel materials, include: personal dosimetry (including dosimetric quantities, active/electronic and passive monitoring techniques for photon, neutron and charged-particle exposures); environmental dosimetry (including methodological advances and predictive models related to radon, but generally excluding local survey results of radon where the main aim is to establish the radiation risk to populations); cosmic and high-energy radiation measurements (including dosimetry, space radiation effects, and single event upsets); dosimetry-based archaeological and Quaternary dating; dosimetry-based approaches to thermochronometry; accident and retrospective dosimetry (including activation detectors), and dosimetry and measurements related to medical applications.
期刊最新文献
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