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铜介导的晚期放射性氟化:对临床前和临床PET成像的五年影响。

Copper-Mediated Late-stage Radiofluorination: Five Years of Impact on Pre-clinical and Clinical PET Imaging.

作者信息

Wright Jay S, Kaur Tanpreet, Preshlock Sean, Tanzey Sean S, Winton Wade P, Sharninghausen Liam S, Wiesner Nicholas, Brooks Allen F, Sanford Melanie S, Scott Peter J H

机构信息

Department of Radiology, University of Michigan, Ann Arbor, MI 48109, USA.

Department of Chemistry, University of Michigan, Ann Arbor, MI 48109, USA.

出版信息

Clin Transl Imaging. 2020 Jun;8(3):167-206. doi: 10.1007/s40336-020-00368-y. Epub 2020 May 26.

DOI:10.1007/s40336-020-00368-y
PMID:33748018
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7968072/
Abstract

PURPOSE

Copper-mediated radiofluorination (CMRF) is emerging as the method of choice for the formation of aromatic C-F bonds. This minireview examines proof-of-concept, pre-clinical, and in-human imaging studies of new and established imaging agents containing aromatic C-F bonds synthesized with CMRF. An exhaustive discussion of CMRF methods is not provided, although key developments that have enabled or improved upon the syntheses of fluorine-18 imaging agents are discussed.

METHODS

A comprehensive literature search from April 2014 onwards of the Web of Science and PubMed library databases was performed to find reports that utilize CMRF for the synthesis of fluorine-18 radiopharmaceuticals, and these represent the primary body of research discussed in this minireview. Select conference proceedings, previous reports describing alternative methods for the synthesis of imaging agents, and preceding fluorine-19 methodologies have also been included for discussion.

CONCLUSIONS

CMRF has significantly expanded the chemical space that is accessible to fluorine-18 radiolabeling with production methods that can meet the regulatory requirements for use in Nuclear Medicine. Furthermore, it has enabled novel and improved syntheses of radiopharmaceuticals and facilitated subsequent PET imaging studies. The rapid adoption of CMRF will undoubtedly continue to simplify the production of imaging agents and inspire the development of new radiofluorination methodologies.

摘要

目的

铜介导的放射性氟化(CMRF)正成为形成芳香族C-F键的首选方法。本综述考察了用CMRF合成的含芳香族C-F键的新型和已确立的显像剂的概念验证、临床前及人体成像研究。尽管讨论了实现或改进氟-18显像剂合成的关键进展,但未对CMRF方法进行详尽讨论。

方法

对2014年4月起的科学网和PubMed图书馆数据库进行全面文献检索,以查找利用CMRF合成氟-18放射性药物的报告,这些报告是本综述讨论的主要研究内容。还纳入了部分会议论文集、先前描述显像剂合成替代方法的报告以及之前的氟-19方法进行讨论。

结论

CMRF通过能满足核医学使用监管要求的生产方法,显著扩展了氟-18放射性标记可及的化学空间。此外,它实现了放射性药物的新型和改进合成,并促进了后续的PET成像研究。CMRF的迅速采用无疑将继续简化显像剂的生产,并激发新的放射性氟化方法的开发。

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