19F/18F exchange synthesis for a novel [18F]S1P3-radiopharmaceutical.

(19)F/(18)F isotope exchange is a useful method to label drug molecules containing (19)F-fluorine with (18)F without modifying the drug molecule itself. Sphingosine-1-phosphate (S1P) is an important cellular mediator that functions by signaling through cell surface receptors. S1P is involved in several cell responses and may be related to many central nervous system disorders, including neural malfunction in Alzheimer's disease.

Electrophilic addition of chlorine monofluoride for PET tracers.

Purpose: We have studied the utility of [(18)F]ClF electrophilic addition to the carbon-carbon double bond of analogues of a model positron emission tomography (PET) tracer, [(18)F]EF5. The consequence of simultaneous chlorine/fluorine addition on lipophilicity and biological activity of the molecule is evaluated.

Procedures: Post-target produced [(18)F]F2 was reacted with Cl2 to produce [(18)F]ClF, which was used in electrophilic addition.

[18F]CFT synthesis and binding to monoamine transporters in rats.

Background: We present the electrophilic synthesis of [18F]2β-carbomethoxy-3β-(4-fluoro)tropane [[18F]CFT] and the pharmacological specificity and selectivity of [18F]CFT for monoamine transporters in the brain and peripheral organs of rats. The human radiation dose is extrapolated from the animal data.

Methods: [18F]CFT was synthesized by electrophilic fluorination of a stannylated precursor by using post-target-produced [18F]F2 as a fluorinating agent.

Novel electrophilic synthesis of 6-[¹⁸F]fluorodopamine and comprehensive biological evaluation.

Purpose: 6-[(18)F]Fluorodopamine (4-(2-aminoethyl)-5-[(18)F]fluorobenzene-1,2-diol, 6-[(18)F]FDA) is a tracer for imaging sympathetically innervated tissues. Previous electrophilic labelling methods produced 6-[(18)F]FDA with low specific radioactivity (SA) which has limited its wider use. Our aim was to employ electrophilic labelling and increase the SA to around 15 GBq/μmol.

Tracer level electrophilic synthesis and pharmacokinetics of the hypoxia tracer [(18)F]EF5.

Purpose: 2-(2-nitro-1H-imidazol-1-yl)-N-(2,2,3,3,3-pentafluoropropyl)-acetamide labeled with [(18)F]-fluorine ([(18)F]EF5), a promising tracer for tumor hypoxia, has previously been synthesized in low yields and low specific radioactivity. In pharmacokinetic evaluations, in the presence of non-radioactive EF5, a uniform and low background uptake and high in vivo stability of [(18)F]EF5 have been demonstrated. Our purpose was to increase the specific radioactivity of [(18)F]EF5 to enable to study the pharmacokinetics at trace level.