Abstract

Internal therapy with α-emitters should be well suited for micrometastatic disease. Radium-224 emits multiple α-particles through its decay and has a convenient 3.6 days of half-life. Despite its attractive properties, the use of ²²⁴ Ra has been limited to bone-seeking applications because it cannot be stably bound to a targeting molecule. Alternative delivery systems for ²²⁴ Ra are therefore of considerable interest. In this study, calcium carbonate microparticles are proposed as carriers for ²²⁴ Ra, designed for local therapy of disseminated cancers in cavitary regions, such as peritoneal carcinomatosis. Calcium carbonate microparticles were radiolabeled by precipitation of ²²⁴ Ra on the particle surface, resulting in high labeling efficiencies for both ²²⁴ Ra and daughter ²¹² Pb and retention of more than 95% of these nuclides for up to 1 week in vitro. The biodistribution after intraperitoneal administration of the ²²⁴ Ra-labeled CaCO₃ microparticles in immunodeficient mice revealed that the radioactivity mainly remained in the peritoneal cavity. In addition, the systemic distribution of ²²⁴ Ra was found to be strongly dependent on the amount of administered microparticles, with a reduced skeletal uptake of ²²⁴ Ra with increasing dose. The results altogether suggest that the ²²⁴ Ra-labeled CaCO₃ microparticles have promising properties for use as a localized internal α-therapy of cavitary cancers.