核医学诊断程序患者器官剂量计算方法和工具综述

Pub Date : 2023-12-08 DOI:10.14407/jrpr.2023.00087
Choonsik Lee
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引用次数: 0

摘要

过去几十年来,全球核医学手术呈指数级增长。这一显著增长归功于正电子发射断层扫描和单光子发射计算机断层扫描技术的进步,以及新型放射性药物的引入。尽管核医学程序为患者带来的诊断和治疗益处毋庸置疑,但核医学患者所受辐射量的大幅增加引起了人们对潜在不良健康影响的担忧,并呼吁对辐射量进行监测的迫切需要。本文回顾了基于模型的内剂量测定方法,重点是医用内辐射剂量(MIRD)形式主义、生物动力学数据、人体解剖学模型(风格化、体素和混合计算人体模型)以及放射性核素的能谱数据。文章总结了许多核医学剂量测定文章的主要结果,以及基于不同类型人体解剖学模型的剂量测定量的比较。对七种基于模型的剂量计算工具的主要特点进行了列表和讨论,包括剂量量、剂量计算所使用的计算人体模型、放射性核素衰变数据、生物动力学数据和用户界面。最后,讨论了核医学剂量学未来的研究需求。会上回顾了基于模型的内部剂量测定方法,重点是 MIRD 形式、生物动力学数据、人体解剖学模型和放射性核素的能谱数据。今后的研究应侧重于更新生物动力学数据、修订消化道和胃肠道的能量传递量、考虑核医学剂量学中的体型,以及根据最新的生物动力学和能量传递数据重新计算剂量系数。
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A Review of Organ Dose Calculation Methods and Tools for Patients Undergoing Diagnostic Nuclear Medicine Procedures
Exponential growth has been observed in nuclear medicine procedures worldwide in the past decades. The considerable increase is attributed to the advance of positron emission tomography and single photon emission computed tomography, as well as the introduction of new radio-pharmaceuticals. Although nuclear medicine procedures provide undisputable diagnostic and therapeutic benefits to patients, the substantial increase in radiation exposure to nuclear medicine patients raises concerns about potential adverse health effects and calls for the urgent need to monitor exposure levels. In the current article, model-based internal dosimetry methods were reviewed, focusing on Medical Internal Radiation Dose (MIRD) formalism, biokinetic data, human anatomy models (stylized, voxel, and hybrid computational human phantoms), and energy spectrum data of radionuclides. Key results from many articles on nuclear medicine dosimetry and comparisons of dosimetry quantities based on different types of human anatomy models were summarized. Key characteristics of seven model-based dose calculation tools were tabulated and discussed, including dose quantities, computational human phantoms used for dose calculations, decay data for radionuclides, biokinetic data, and user interface. Lastly, future research needs in nuclear medicine dosimetry were discussed. Model-based internal do-simetry methods were reviewed focusing on MIRD formalism, biokinetic data, human anatomy models, and energy spectrum data of radionuclides. Future research should focus on updating biokinetic data, revising energy transfer quantities for alimentary and gastrointestinal tracts, accounting for body size in nuclear medicine dosimetry, and recalculating dose coefficients based on the latest biokinetic and energy transfer data.
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