Late-Stage Fluorination with 18F^{18}F

Positron emission tomography (PET) is a powerful, non-invasive in vivo imaging technique used for diagnostics and drug development. The synthesis of $^{18}F$-PET tracers is challenging due to the short half-life of the unnatural isotope that necessitates late-stage fluorination, and the limited reactivity of nucleophilic fluoride, the preferred and widely accessible form of $^{18}F$. This thesis describes the development of an electrophilic fluorination reagent derived from fluoride. The reagent can be employed in a late-stage fluorination reaction of palladium aryl complexes to give access to small molecule aryl fluorides. The reagent can be made from $[^{18}F]$fluoride and used to synthesize radiolabeled small molecules for PET imaging experiments. Two small molecules known to interact with the serotonergic system were synthesized, radiolabeled, and imaged in rats and non-human primates and evaluated for use as PET tracers.Chemistry and Chemical Biolog

A Fluoride-Derived Electrophilic Late-Stage Fluorination Reagent for PET Imaging

The unnatural isotope fluorine-18 $(^{18}F)$ is used as a positron emitter in molecular imaging. Currently, many potentially useful $^{18}F$-labeled probe molecules are inaccessible for imaging because no fluorination chemistry is available to make them. The 110-minute half-life of $^{18}F$ requires rapid syntheses for which $[^{18}F]$fluoride is the preferred source of fluorine because of its practical access and suitable isotope enrichment. However, conventional $[^{18}F]$fluoride chemistry has been limited to nucleophilic fluorination reactions. We report the development of a palladium-based electrophilic fluorination reagent derived from fluoride and its application to the synthesis of aromatic $^{18}F$-labeled molecules via late-stage fluorination. Late-stage fluorination enables the synthesis of conventionally unavailable positron emission tomography (PET) tracers for anticipated applications in pharmaceutical development as well as preclinical and clinical PET imaging.Chemistry and Chemical Biolog