18F-Labeling of Arenes and Heteroarenes for Applications in Positron Emission Tomography

化学 正电子发射断层摄影术 Pet成像 放射化学 正电子 取代基 分子成像 组合化学 体内 纳米技术 核医学 有机化学 核物理学 物理 材料科学 电子 生物技术 生物 医学
作者
Sean Preshlock,Matthew Tredwell,Véronique Gouverneur
出处
期刊:Chemical Reviews [American Chemical Society]
卷期号:116 (2): 719-766 被引量:652
标识
DOI:10.1021/acs.chemrev.5b00493
摘要

Diverse radiochemistry is an essential component of nuclear medicine; this includes imaging techniques such as positron emission tomography (PET). As such, PET can track diseases at an early stage of development, help patient care planning through personalized medicine and support drug discovery programs. Fluorine-18 is the most frequently used radioisotope in PET radiopharmaceuticals for both clinical and preclinical research. Its physical and nuclear characteristics (97% β+ decay, 109.8 min half-life, 635 keV positron energy) and high specific activity make it an attractive nuclide for labeling and molecular imaging. Arenes and heteroarenes are privileged candidates for 18F-incorporation as they are metabolically robust and therefore widely used by medicinal chemists and radiochemists alike. For many years, the range of (hetero)arenes amenable to 18F-fluorination was limited by the lack of chemically diverse precursors, and of radiochemical methods allowing 18F-incorporation in high selectivity and efficiency (radiochemical yield and purity, specific activity, and radio-scalability). The appearance of late-stage fluorination reactions catalyzed by transition metal or small organic molecules (organocatalysis) has encouraged much research on the use of these activation manifolds for 18F-fluorination. In this piece, we review all of the reactions known to date to install the 18F substituent and other key 18F-motifs (e.g., CF3, CHF2, OCF3, SCF3, OCHF2) of medicinal relevance onto (hetero)arenes. The field has changed significantly in the past five years, and the current trend suggests that the radiochemical space available for PET applications will expand rapidly in the near future.
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