Delivery Methods of Radiopharmaceuticals: Exploring Global Strategies to Minimize Occupational Radiation Exposure.

IF 1 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Hinna Shahid, Lois Miller, Obaid Kazmi, Peter Seidensticker
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Abstract

In the world of nuclear medicine, health care professionals face the challenge of safeguarding themselves and their patients from occupational radiation exposure. As the field experiences exponential growth, driven by the surge in approvals of radiopharmaceuticals for diagnostic and therapeutic applications, it becomes vital to delve into the delivery methods of radiopharmaceuticals. Health care professionals take precautions during radiopharmaceutical administration, including maintaining distance from radioactive sources, using shielding, limiting exposure time, and monitoring radiation levels with badges. Regular evaluations provide compliance with recommended exposure limits, yet concerns persist, especially regarding the cumulative radiation exposure from manual injections over time. Understanding the long-term effects of radiation exposure has spurred the development of cutting-edge medical device technologies, such as autoinjectors, designed to administer radiopharmaceuticals accurately while minimizing total radiation dose to health care professionals. The U.S. Pharmacopeia 825 regulation refers to these devices as "direct infusion systems." Nuclear medicine technologists commonly refer to them as "autoinjectors," whereas device manufacturers may use terms such as injection system, radiopharmaceutical injector, or infusion system. Despite variations in terminology, these devices hold a pivotal role in shaping the future of radiopharmaceutical delivery. In an era of escalating demand for PET procedures worldwide, skilled health care professionals ensure the safe and precise dosing of radiopharmaceuticals. This article explores the state-of-the-art medical devices in radiopharmaceutical delivery, spotlighting transformative medical devices currently revolutionizing the nuclear medicine landscape in the global market.

放射性药物的给药方法:探索将职业辐射暴露降至最低的全球战略。
在核医学领域,医护人员面临着保护自己和病人免受职业辐照的挑战。随着放射药物在诊断和治疗应用中获得批准的数量激增,该领域经历了指数式增长,因此深入研究放射药物的给药方法变得至关重要。医护人员在使用放射性药物时会采取预防措施,包括与放射源保持距离、使用屏蔽、限制照射时间以及使用胸牌监测辐射水平。定期评估符合建议的辐照限值,但仍存在一些问题,尤其是长期手动注射所产生的累积辐照。对辐照长期影响的了解促进了自动注射器等尖端医疗设备技术的发展,这些设备旨在准确注射放射性药物,同时将医护人员的总辐射剂量降至最低。美国药典》第 825 条将这些设备称为 "直接输注系统"。核医学技术人员通常称其为 "自动注射器",而设备制造商可能会使用注射系统、放射性药物注射器或输注系统等术语。尽管术语不同,但这些设备在塑造放射性药物输送的未来方面发挥着举足轻重的作用。在全球 PET 治疗需求不断增长的时代,熟练的医疗保健专业人员必须确保放射性药物剂量的安全和精确。本文探讨了放射性药物输送领域最先进的医疗设备,重点介绍了目前正在全球市场上彻底改变核医学格局的变革性医疗设备。
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 nuclear medicine technology
Journal of nuclear medicine technology RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
1.90
自引率
15.40%
发文量
57
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