In-loop flow [ 11 C]CO 2 fixation and radiosynthesis of N,N'-[ 11 C]dibenzylurea

Cyclotron-produced carbon-11 is a highly valuable radionuclide for the production of positron emission tomography (PET) radiotracers. It is typically produced as relatively unreactive carbon-11 carbon dioxide ([ C]CO ), which is most commonly converted into a more reactive precursor for synthesis of PET radiotracers. The development of [ C]CO fixation methods has more recently enabled the direct radiolabelling of a diverse array of structures directly from [ C]CO , and the advantages afforded by the use of a loop-based system used in C-methylation and C-carboxylation reactions inspired us to apply the [ C]CO fixation "in-loop." In this work, we developed and investigated a new ethylene tetrafluoroethylene (ETFE) loop-based [ C]CO fixation method, enabling the fast and efficient, direct-from-cyclotron, in-loop trapping of [ C]CO using mixed DBU/amine solutions. An optimised protocol was integrated into a proof-of-concept in-loop flow radiosynthesis of N,N'-[ C]dibenzylurea. This reaction exhibited an average 78% trapping efficiency and a crude radiochemical purity of 83% (determined by radio-HPLC), giving an overall nonisolated radiochemical yield of 72% (decay-corrected) within just 3 minutes from end of bombardment. This proof-of-concept reaction has demonstrated that efficient [ C]CO fixation can be achieved in a low-volume (150 μL) ETFE loop and that this can be easily integrated into a rapid in-loop flow radiosynthesis of carbon-11-labelled products. This new in-loop methodology will allow fast radiolabelling reactions to be performed using cheap/disposable ETFE tubing setup (ideal for good manufacturing practice production) thereby contributing to the widespread usage of [ C]CO trapping/fixation reactions for the production of PET radiotracers.