Neutron Activated Samarium-153 Microparticles for Transarterial Radioembolization of Liver Tumour with Post-Procedure Imaging Capabilities.

Introduction: Samarium-153 (¹⁵³Sm) styrene divinylbenzene microparticles were developed as a surrogate for Yttrium-90 (⁹⁰Y) microspheres in liver radioembolization therapy. Unlike the pure beta emitter ⁹⁰Y, ¹⁵³Sm possess both therapeutic beta and diagnostic gamma radiations, making it possible for post-procedure imaging following therapy. Methods: The microparticles were prepared using commercially available cation exchange resin, Amberlite IR-120 H⁺ (620–830 μm), which were reduced to 20–40 μm via ball mill grinding and sieve separation. The microparticles were labelled with ¹⁵²Sm via ion exchange process with ¹⁵²SmCl₃, prior to neutron activation to produce radioactive ¹⁵³Sm through ¹⁵²Sm(n,γ)¹⁵³Sm reaction. Therapeutic activity of 3 GBq was referred based on the recommended activity used in ⁹⁰Y-microspheres therapy. The samples were irradiated in 1.494 x 10¹² n.cm^-2.s^-1 neutron flux for 6 h to achieve the nominal activity of 3.1 GBq.g^-1. Physicochemical characterisation of the microparticles, gamma spectrometry, and in vitro radiolabelling studies were carried out to study the performance and stability of the microparticles. Results: Fourier Transform Infrared (FTIR) spectroscopy of the Amberlite IR-120 resins showed unaffected functional groups, following size reduction of the beads. However, as shown by the electron microscope, the microparticles were irregular in shape. The radioactivity achieved after 6 h neutron activation was 3.104 ± 0.029 GBq. The specific activity per microparticle was 53.855 ± 0.503 Bq. Gamma spectrometry and elemental analysis showed no radioactive impurities in the samples. Radiolabelling efficiencies of ¹⁵³Sm-Amberlite in distilled water and blood plasma over 48 h were excellent and higher than 95%. Conclusion: The laboratory work revealed that the ¹⁵³Sm-Amberlite microparticles demonstrated superior characteristics for potential use in hepatic radioembolization. [ABSTRACT FROM AUTHOR]