Boron neutron capture therapy in cancer: past, present and future

Undifferentiated thyroid cancer (UTC) is a very aggressive tumor with no effective treatment, since it lacks iodine uptake and does not respond to radio or chemotherapy. The prognosis of these patients is bad, due to the rapid growth of the tumor and the early development of metastasis. Boron neutron capture therapy (BNCT) is based on the selective uptake of certain boron non-radioactive compounds by a tumor, and the subsequent irradiation of the area with an appropriate neutron beam. 10B is then activated to 11B, which will immediately decay releasing alpha particles and 7Li, of high linear energy transfer (LET) and limited reach. Clinical trials are being performed in patients with glioblastoma multiforme and melanoma. We have explored its possible application to UTC. Our results demonstrated that a cell line of human UTC has a selective uptake of borophenylalanine (BPA) both in vitro and after transplantation to nude mice. Treatment of mice by BNCT led to a complete control of growth and cure of 100 percent of the animals. Moreover dogs with spontaneous UTC also have a selective uptake of BPA. At the present we are studying the biodistribution of BPA in patients with UTC before its application in humans.

O câncer indiferenciado de tiróide (CIT) é um tumor muito agressivo sem tratamento efetivo, uma vez que não capta iodo e não responde à radio ou quimioterapia. O prognóstico desses pacientes é ruim, devido ao rápido crescimento do tumor e surgimento precoce de metástases. A terapia por captura de nêutrons de boro (TCNB) é baseada na captação seletiva de certos compostos de boro não-radioativos pelo tumor, e à subsequente irradiação da área com um feixe de nêutrons apropriado. O 10B é então ativado para 11B, cujo decaimento imediato libera partículas alfa e 7Li, de alta transferência linear de energia (TLE) e alcance limitado. Ensaios clínicos estão sendo conduzidos em pacientes com glioblastoma multiforme e melanoma, e nós estamos explorando sua possível aplicação no CIT. Nossos resultados demonstram que uma linhagem celular do CIT humano mostra captação seletiva de borofenilalanina (BPA) tanto in vitro como após transplante em camundongos "nude". O tratamento de camundongos com TCNB leva a um controle completo do crescimento tumoral e à cura em 100 por cento dos animais. Além disso, cães com CIT espontâneo também apresentam captação seletiva de BPA. No momento, estamos estudando a biodistribuição de BPA em pacientes com CIT, antes de sua aplicação em humanos.

Histopathological changes of testes and eyes by neutron irradiation with boron compounds in mice

This study was performed to investigate the biological effects of boron neutron capture therapy (BNCT) on the testes and eyes in mice using HANARO Nuclear Reactor, Korea Atomic Energy Research Institute. BNCT relies on the high capacity of (10)B in capturing thermal neutrons. Sodium borocaptate (BSH, 75 ppm, iv) and boronophenylalanine (BPA, 750 ppm, ip) have been used as the boron delivery agents. Mice were irradiated with neutron (flux: 1.036739E +09, Fluence 9.600200E+12) by lying flat pose for 30 (10 Gy) or 100 min (33 Gy) with or without boron carrier treatment. In 45 days of irradiation, histopathological changes of the testes and eyes were examined. Thirty-three Gy neutron irradiation for 100 min induced testicular atrophy in which some of seminiferous tubules showed complete depletion of spermatogenic germ cells. Lens epithelial cells and lens fiber were swollen and showed granular changes in an exposure time dependent manner. However, boron carrier treatment had no significant effect on the lesions. These results suggest that the examination of histopathological changes of lens and testis can be used as "biological dosimeters" for gauging radiation responses and the HANARO Nuclear Reactor has sufficient capacities for the BNCT.

Determinaçäo colorimétrica de boro em amostras biológicas para controle de terapia por captura neutrônica e10 boro (BNCT) / A calorimetric determination of boron in biologiacal sanple for boron neutron capture theraphy (BNTC)

A terapia por captura neutrônica e10 Boro (BNCT) tem apresentado melhores prognósticos para o tratamento de gliomas e glioblastomas com grau III e IV, do que outras modalidades de terapia. Durante o tratamento é necessário conhecer os níveis de Na210B12H11SH em vários compartimentos do organismo e para tanto, foi padronizado o método de determinaçäo colorimétrica de boro utilizando curcumine. Este se mostrou simples, reprodutível e com sensibilidade adequada para este controle.