Trends in diagnostic nuclear medicine in Sweden (2008-2023): utilisation, radiation dose, and methodological insights.

IF 3 2区医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

EJNMMI Physics Pub Date : 2025-04-02 DOI:10.1186/s40658-025-00747-2

Anja Almén

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引用次数: 0

Abstract

Background: Diagnostic imaging is a dynamic medical field. In nuclear medicine, advancements introduce new procedures utilising innovative radiopharmaceuticals. These developments may influence supply requirements and exposure levels for the patient population. Surveying the frequency of procedures, types of pharmaceuticals, and administered activities provides valuable insights into utilisation trends and radionuclide demand. This knowledge also guides the prioritisation of radiation protection efforts at national and local levels. In Europe, radiation dose assessments for medical exposures are mandatory according to the directive´s requirements.

Methods: This study evaluated the utilisation of diagnostic nuclear medicine procedures in Sweden over 15 years (2008-2023), focusing on procedure frequency, effective dose, and collective effective dose. Comprehensive data from all Swedish clinics performing nuclear medicine were analysed, incorporating information on radiopharmaceuticals and administered activities. The method suggested by the UNSCEAR, which includes so-called essential procedures, was used for comparison. The study also investigated some frequent procedures in more detail.

Results: The study identifies noteworthy trends, including a threefold increase in the number of clinics offering Positron Emission Tomography (PET) procedures and a significant rise in PET usage. PET procedures constituted over 50% of the collective effective dose for adults in 2023. Despite this, Gamma Camera (GC) procedures still dominate in frequency but exhibit a steady decline. Procedures using ^99mTc and ¹⁸F accounted for 93% of procedures in 2023. The collective effective dose rose 22% over the study period, with PET procedures driving this increase. PET procedures increasing role became evident by the increased contribution to the total collective dose from 15 to 52%. The UNSCEAR methodology captured 67% of the total frequency and underestimated the collective effective dose by 16%. Administered activity remained stable for the selected procedures and showed low variation between clinics.

Conclusions: PET procedures are increasing in scope and now constitute the largest contribution to radiation dose, and in-house production of PET radiopharmaceuticals is available in around 40% of clinics. The number of radionuclides decreased over the study period, and GC procedures declined. In general, the amount of administered activity remained stable over the period for the procedures studied. Accurately assessing utilisation and exposure trends requires extensive data, and the methodology used affects the result significantly.

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瑞典诊断性核医学趋势（2008-2023）：利用、辐射剂量和方法学见解。

背景：诊断影像是一个动态的医学领域。在核医学方面，进步引入了利用创新放射性药物的新程序。这些发展可能会影响患者群体的供应需求和暴露水平。对程序频率、药物类型和管理活动的调查提供了对利用趋势和放射性核素需求的宝贵见解。这方面的知识也指导了国家和地方各级辐射防护工作的优先次序。在欧洲，根据该指令的要求，医疗照射的辐射剂量评估是强制性的。方法：本研究评估了瑞典15年来（2008-2023年）诊断性核医学程序的使用情况，重点关注程序频率、有效剂量和集体有效剂量。对瑞典所有从事核医学的诊所的综合数据进行了分析，纳入了关于放射性药物和管理活动的信息。采用了科委会建议的方法进行比较，其中包括所谓的基本程序。该研究还更详细地调查了一些常见的手术。结果：该研究确定了值得注意的趋势，包括提供正电子发射断层扫描（PET）手术的诊所数量增加了三倍，PET的使用也显著增加。2023年，PET程序占成人集体有效剂量的50%以上。尽管如此，伽马照相机（GC）程序仍然占主导地位，但呈现出稳步下降的趋势。2023年使用99mTc和18F的程序占程序的93%。在研究期间，集体有效剂量增加了22%，PET手术推动了这一增长。PET对总集体剂量的贡献从15%增加到52%，其增加作用变得明显。科委会的方法捕获了总频率的67%，并将集体有效剂量低估了16%。在选定的程序中，给予的活动保持稳定，并且在诊所之间表现出较低的差异。结论：PET手术的范围正在扩大，现在构成了对辐射剂量的最大贡献，大约40%的诊所可以自行生产PET放射性药物。在研究期间，放射性核素的数量减少了，气相色谱程序也减少了。总的来说，在所研究的程序期间，给予的活动量保持稳定。准确评估利用和暴露趋势需要大量数据，所使用的方法对结果影响很大。

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

EJNMMI Physics Physics and Astronomy-Radiation

CiteScore

6.70

自引率

10.00%

发文量

审稿时长

13 weeks

期刊介绍： EJNMMI Physics is an international platform for scientists, users and adopters of nuclear medicine with a particular interest in physics matters. As a companion journal to the European Journal of Nuclear Medicine and Molecular Imaging, this journal has a multi-disciplinary approach and welcomes original materials and studies with a focus on applied physics and mathematics as well as imaging systems engineering and prototyping in nuclear medicine. This includes physics-driven approaches or algorithms supported by physics that foster early clinical adoption of nuclear medicine imaging and therapy.