Synthesis and in vitro evaluation of the phenylboric acid derivative entrapped lipiodol in boron neutron capture therapy for hepatoma.

Background: Hepatoma, a common cancer in Taiwan. responds poorly to conventional therapies. Boron neutron capture therapy (BNCT) may provide a promising approach for hepatoma therapy. In this study, a pharmaceutical composition, phenylboric acid derivative entrapped lipiodol (PBAD-lipiodol), was synthesized and characterized. In vitro study was used for evaluation of PRAD-lipiodol for the BNCT of hepatoma. Materials and Methods: a Track observation was used to identify the boron compound in the TLC plate and to evidence the uniform distribution of boron in the PBAD-lipiodol. Inductively coupled plasma-atomic emission spectroscopy and neutron activation analysis were used to determine the concentrations of boron and lipiodol, respectively. Human hepatoma HepG2 cells were used for in vitro experiments. A Nomarski optical microscope was used to investigate the uptake of PBAD-lipiodol globules in individual hepatoma cells. Results: PBAD-lipiodol was stable in human serum. The boron source, PBAD, was uniformly distributed in PBAD-lipiodol. Many of the PBAD-lipiodol globules were internalized and retained in HepG2 cells, and the boron concentration of HepG2 cells reached 269 ppm after 72 hours of PBAD-lipiodol treatment. Conclusion: In vitro studies revealed that PBAD-lipiodol could deliver a therapeutically effective amount of PBAD as a boron source for the BNCT of hepatoma. PBAD-lipiodol is a potential new boron drug for the BNCT of hepatoma.