Abstract
This study reports the high-yield production of a novel (133/135)La theranostic pair at a 22 MeV proton beam energy as an attractive alternative to the recently introduced (132/135)La pair, demonstrating over an order of magnitude production increase of (133/135)La (231 ± 8 MBq (133)La and 166 ± 5 MBq (135)La at End of Bombardment (EOB)) compared to 11.9 MeV production of (132/135)La (0.82 ± 0.06 MBq (132)La and 19.0 ± 1.2 MBq (135)La) for 500 µA·min irradiations. A new sealed solid cyclotron target is introduced, which is fast to assemble, easy to handle, storable, and contains reusable components. Radiolabeling with macrocyclic chelators DOTA and macropa achieved full incorporation, with respective apparent (133)La molar activites of 33 ± 5 GBq/µmol and 30 ± 4 GBq/µmol. PET centers with access to a 22 MeV capable cyclotron could produce clinically-relevant doses of (133/135)La, via (nat)Ba irradiation, as a standalone theranostic agent for PET imaging and Auger electron therapy. With lower positron energies and less energetic and abundant gamma rays than (68)Ga, (44)Sc and (132)La, (133)La appears to be an attractive radiometal candidate for PET applications requiring a higher scanning resolution, a relatively long isotopic half-life, ease of handling, and a low patient dose.