Gold Nanoparticles Permit In Situ Absorbed Dose Evaluation in Boron Neutron Capture Therapy for Malignant Tumors

Author:

Zaboronok AlexanderORCID,Taskaev SergeyORCID,Volkova Olga,Mechetina Ludmila,Kasatova Anna,Sycheva Tatiana,Nakai KeiORCID,Kasatov Dmitrii,Makarov AleksandrORCID,Kolesnikov Iaroslav,Shchudlo Ivan,Bykov Timofey,Sokolova EvgeniiaORCID,Koshkarev Alexey,Kanygin Vladimir,Kichigin Aleksandr,Mathis Bryan J.ORCID,Ishikawa Eiichi,Matsumura Akira

Abstract

Boron neutron capture therapy (BNCT) is an anticancer modality realized through 10B accumulation in tumor cells, neutron irradiation of the tumor, and decay of boron atoms with the release of alpha-particles and lithium nuclei that damage tumor cell DNA. As high-LET particle release takes place inside tumor cells absorbed dose calculations are difficult, since no essential extracellular energy is emitted. We placed gold nanoparticles inside tumor cells saturated with boron to more accurately measure the absorbed dose. T98G cells accumulated ~50 nm gold nanoparticles (AuNPs, 50 µg gold/mL) and boron-phenylalanine (BPA, 10, 20, 40 µg boron-10/mL), and were irradiated with a neutron flux of 3 × 108 cm−2s−1. Gamma-rays (411 keV) emitted by AuNPs in the cells were measured by a spectrometer and the absorbed dose was calculated using the formula D = (k × N × n)/m, where D was the absorbed dose (GyE), k—depth-related irradiation coefficient, N—number of activated gold atoms, n—boron concentration (ppm), and m—the mass of gold (g). Cell survival curves were fit to the linear-quadratic (LQ) model. We found no influence from the presence of the AuNPs on BNCT efficiency. Our approach will lead to further development of combined boron and high-Z element-containing compounds, and to further adaptation of isotope scanning for BNCT dosimetry.

Funder

Japan Society for the Promotion of Science

Russian Science Foundation

Publisher

MDPI AG

Subject

Pharmaceutical Science

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