Microfluidic solvent extraction of no-carrier-added 64Cu from irradiated Zn target for radiopharmaceutical preparation

Abstract

Microfluidics based liquid-liquid extraction is emerging as an enabling and powerful technology in radiochemical separations of medically important radioisotopes. In this study, we report the production of high specific activity 64Cu via 64Zn (n, p) 64Cu reaction in a research reactor. A microfluidic continuous flow liquid-liquid extraction system based on the use of dithizone as extractant was developed for efficient separation of miniscule quantity of 64Cu (in ng level) from bulk irradiated Zn target (in g level). The extraction process is completely selective for 64Cu, which could subsequently be retrieved in the desired medium for preparation of radiopharmaceuticals. The overall yield of 64Cu after the separation process was > 85 % and it was obtained with adequately high radionuclidic, radiochemical and chemical purities. Additionally, the effective specific activity of radio chemically separated 64Cu was determined to be 12.2 ± 0.8 GBq/µg, which is quite close to that reported for cyclotron produced no-carrier-added (NCA) 64Cu available commercially. The final 64Cu formulation could be effectively used for preparation of a variety of radiopharmaceuticals with high radiolabeling yields. The promising results obtained in this study open the pathway to achieve continuous and efficient recovery of reactor produced NCA 64Cu from the irradiated target using an automated microfluidic setup.