生物剂量测定,它能进入核医学诊所吗?

Julie Bolcaen, Nastassja Combrink, Kaat Spoormans, Stuart More, Charlot Vandevoorde, Randall Fisher, Janke Kleynhans
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引用次数: 0

摘要

由于放射配体治疗(RLT)的日益成功,基于分子成像的个性化剂量学在过去十年中呈指数级增长。尽管基于图像的3D剂量估计取得了进展,但RLT治疗性放射性药物的给药剂量通常是非个性化的,每4-6周给药一次标准化剂量方案。生物剂量学标记,如染色体畸变,可以与基于图像的剂量学一起作为个体化剂量估计的工具,以进一步了解正常组织毒性并改进给药剂量。在这篇综述中,我们概述了用于血液剂量估计的生物剂量学标记物,然后概述了它们在RLT患者中的应用结果。最后,深入讨论了生物剂量测定在核医学临床应用的潜力。
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Biodosimetry, can it find its way to the nuclear medicine clinic?

Personalised dosimetry based on molecular imaging is a field that has grown exponentially in the last decade due to the increasing success of Radioligand Therapy (RLT). Despite advances in imaging-based 3D dose estimation, the administered dose of a therapeutic radiopharmaceutical for RLT is often non-personalised, with standardised dose regimens administered every 4-6 weeks. Biodosimetry markers, such as chromosomal aberrations, could be used alongside image-based dosimetry as a tool for individualised dose estimation to further understand normal tissue toxicity and refine the administered dose. In this review we give an overview of biodosimetry markers that are used for blood dose estimation, followed by an overview of their current results when applied in RLT patients. Finally, an in-depth discussion will provide a perspective on the potential for the use of biodosimetry in the nuclear medicine clinic.

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