Suitability of boric acid as a boron drug for boron neutron capture therapy for hepatoma.

Hepatoma is the second leading cause of cancer death worldwide. Due to the poor outcomes of patients with late diagnosis, newer treatments for hepatoma are still needed. As an emerging therapy, boron neutron capture therapy (BNCT) may be an effective solution in hepatoma management. In this study, boric acid (BA) was used as the boron drug for in vivo analysis of action mechanism. The N1S1 single liver tumor-bearing rat and the VX2 multifocal liver tumor-bearing rabbit models were used to investigate the retention status of BA in the tumor regions during BNCT. The autoradiographic examination showed BA can localize specifically not only in the hepatoma cells but also in tumor blood vessels. Our findings indicate that superior hepatoma targeting could be achieved in BA-mediated BNCT, which supports BA to be a suitable boron drug for BNCT for hepatoma.

Therapeutic Efficacy and Radiobiological Effects of Boric Acid-mediated BNCT in a VX2 Multifocal Liver Tumor-bearing Rabbit Model.

BACKGROUND/AIM: Most patients with hepatocellular carcinoma (HCC) cannot be treated using traditional therapies. Boron neutron capture therapy (BNCT) may provide a new treatment for HCC. In this study, the therapeutic efficacy and radiobiological effects of boric acid (BA)-mediated BNCT in a VX2 multifocal liver tumor-bearing rabbit model are investigated. MATERIALS AND METHODS: Rabbits were irradiated with neutrons at the Tsing Hua Open Pool Reactor 35 min following an intravenous injection of BA (50 mg 10B/kg BW). The tumor size following BNCT treatment was determined by ultrasonography. The radiobiological effects were identified by histopathological examination. RESULTS: A total of 92.85% of the tumors became undetectable in the rabbits after two fractions of BNCT treatment. The tumor cells were selectively eliminated and the tumor vasculature was collapsed and destroyed after two fractions of BA-mediated BNCT, and no injury to the hepatocytes or blood vessels was observed in the adjacent normal liver regions. CONCLUSION: Liver tumors can be cured by BA-mediated BNCT in the rabbit model of a VX2 multifocal liver tumor. BA-mediated BNCT may be a breakthrough therapy for hepatocellular carcinoma.