Abstract

Theranostic strategies involve select radionuclides that allow diagnostic imaging and tailored radionuclide therapy in the same patient. An example of a Food and Drug Administration-approved theranostic pair is the ⁶⁸Ga- and ¹⁷⁷Lu-labeled DOTATATE peptides, which are used to image neuroendocrine tumors, predict treatment response, and treat disease. However, when using radionuclides of 2 different elements, differences in the pharmacokinetic and pharmacodynamic profile of the agent can occur. Theranostic agents that incorporate the matched-pair radionuclides of scandium-⁴³Sc/⁴⁷Sc or ⁴⁴Sc/⁴⁷Sc-would guarantee identical chemistries and pharmacologic profiles. The aim of this study was to investigate production of ^43,44,47Sc via proton-induced nuclear reactions on titanium nuclei using a 24-MeV cyclotron. <b>Methods:</b> Aluminum, niobium, and tantalum target holders were used with titanium foils and pressed TiO₂ to produce scandium radionuclides with proton energies of up to 24 MeV. Irradiated targets were digested using NH₄HF₂ and HCl in a closed perfluoroalkoxy alkane vessel in 90 min. Scandium radionuclides were purified via ion-exchange chromatography using branched <i>N,N,N',N'</i>-tetra-2-ethylhexyldiglycolamide. The titanium target material was recovered via alkali precipitation with ammonia solution. <b>Results:</b> Titanium foil and TiO₂ were digested with an average efficiency of 98% ± 3% and 95% ± 1%, respectively. The typical digestion time was 45 min for titanium foil and 75 min for TiO₂ The average scandium recovery was 94% ± 3%, and the average titanium recoveries from digested titanium foil and TiO₂ after precipitation as TiO₂ were 108% ± 8% and 104% ± 5% of initial mass, respectively. <b>Conclusion:</b> This work demonstrated a robust method for the cyclotron production of scandium radionuclides that could be used with natural or enriched TiO₂ target material.