Commissioning of the first hospital-based PET radiopharmaceutical cyclotron in Greece: personnel dose assessment.

IF 1.4 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
S P Ioannidou, M Katsouli, E Doika
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引用次数: 0

Abstract

The role of18F-fluoro-deoxy-glucose in positron emission tomography (PET) imaging is well established in diagnosis and management of cancer patients. Installations of on-site self-shielded mini cyclotrons are increasing. The Dose on Demand Biomarker Generator BG-75 was installed at Metaxa Cancer Hospital, Greece, in May 2021 and is the first hospital-based PET radiopharmaceutical cyclotron in the country. Personnel expected external exposure was established during commissioning; internal exposure is not expected. Personnel dose was estimated with two methods: survey meter measurements in various locations combined with the time spent in each location, and direct measurement using electronic personal dosemeters. Gamma and neutron radiation readings outside the cyclotron vault were at background levels. Inside the cyclotron vault, the highest recorded radiation readings by the target were 18μSv h-1for both gammas and neutrons with cyclotron in operational mode; at one meter, the values were 5μSv h-1and 4μSv h-1, respectively. The annual expected whole body dose per cyclotron operator is 0.6 mSv, and the respective extremity dose 16 mSv. The annual expected whole body and extremity dose for the radiochemist is 0.3 mSv and 25 mSv, respectively. The respective annual dose estimates for the medical physicists are < 1 mSv. The expected personnel doses are well below the regulatory limits and local as low as reasonably achievable (ALARA) levels. With experience and a robust ALARA program, personnel exposure could be further reduced.

希腊第一台医院 PET 放射性药物回旋加速器投入使用:人员剂量评估。
使用 2-氟-2-脱氧-D-葡萄糖(FDG)进行正电子发射断层扫描(PET)成像在癌症患者的诊断和治疗中的作用已得到公认。随着 PET 成像需求的不断增加,许多医院正在安装现场自屏蔽微型回旋加速器,以生产自己的放射性药物,包括 FDG。2021 年 5 月,希腊 Metaxa 癌症医院安装了按需剂量生物标记生成器 (BG-75),成为该国第一台医院 PET 放射性药物回旋加速器。调试期间,确定了人员的预期外部照射量,发现内部照射量可以忽略不计。人员剂量的估算有两种方法:在不同地点用测量仪测量并结合在每个地点的停留时间,以及使用电子个人剂量计直接测量。回旋加速器拱顶室外的伽马射线和中子辐射读数处于本底水平。在回旋加速器库内,伽马射线和中子在目标处的最高记录读数均为 18 μSv/h ;在一米处的读数分别为 5 μSv/h 和 4 μSv/h。根据这些测量结果,每名操作员每年的预计全身剂量为 0.6 mSv,四肢剂量分别为 16 mSv。放射化学师每年的预计全身和四肢剂量分别为 0.3 mSv 和 25 mSv。医学物理学家的预期剂量估计值也低于 1 mSv。这些剂量远低于监管限值和当地的 "尽可能低"(ALARA)水平。随着经验的积累和 ALARA 计划的实施,人员暴露量还会进一步降低。
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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来源期刊
Journal of Radiological Protection
Journal of Radiological Protection 环境科学-公共卫生、环境卫生与职业卫生
CiteScore
2.60
自引率
26.70%
发文量
137
审稿时长
18-36 weeks
期刊介绍: Journal of Radiological Protection publishes articles on all aspects of radiological protection, including non-ionising as well as ionising radiations. Fields of interest range from research, development and theory to operational matters, education and training. The very wide spectrum of its topics includes: dosimetry, instrument development, specialized measuring techniques, epidemiology, biological effects (in vivo and in vitro) and risk and environmental impact assessments. The journal encourages publication of data and code as well as results.
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