Yu-Peng Zhou, Lauren L. Zhang, Yang Sun, Pedro Brugarolas
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引用次数: 0
Abstract
Positron emission tomography (PET) is a noninvasive molecular imaging technique that utilizes biologically active radiolabeled compounds to image biochemical processes. As such, PET can provide important pathophysiological information associated with pain of different etiologies. Consequently, the information obtained using PET often combined with magnetic resonance imaging or computed tomography can provide useful information for diagnosing and monitoring changes associated with pain. This review covers the most important PET tracers that have been used to image pain including tracers for fundamental biological processes such as glucose metabolism and cerebral blood flow, to receptor-specific tracers such as ion channels and neurotransmitters. For each tracer, we describe the structure and radiochemical synthesis of the tracer followed by a brief summary of the available preclinical and clinical studies. By providing a summary of the PET tracers that have been employed for PET imaging of pain, this review aims to serve as a reference for preclinical, translational, and clinical investigators interested in molecular imaging of pain. Finally, the review ends with an outlook of the needs and opportunities in this area.
正电子发射断层扫描(PET)是一种无创分子成像技术,利用生物活性放射性标记化合物对生化过程进行成像。因此,PET 可以提供与不同病因引起的疼痛相关的重要病理生理信息。因此,使用 PET 获得的信息通常与磁共振成像或计算机断层扫描相结合,可为诊断和监测与疼痛相关的变化提供有用的信息。本综述涵盖了用于疼痛成像的最重要的 PET 示踪剂,包括基本生物过程示踪剂(如葡萄糖代谢和脑血流)和受体特异性示踪剂(如离子通道和神经递质)。我们将介绍每种示踪剂的结构和放射化学合成,然后简要概述现有的临床前和临床研究。本综述概述了用于疼痛 PET 成像的 PET 示踪剂,旨在为对疼痛分子成像感兴趣的临床前、转化和临床研究人员提供参考。最后,本综述对该领域的需求和机遇进行了展望。
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