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Determining a methodology of dosimetric quality assurance for commercially available accelerator-based boron neutron capture therapy system

by Yamazaki, Yuhei , Arai, Kazuhiro , Hirose, Katsumi , Kato, Ryohei , Sato, Mariko , Harada, Takaomi , Kato, Takahiro , Komori, Shinya , Kadoya, Noriyuki , Tanaka, Hiroki , Takeuchi, Akihiko , Motoyanagi, Tomoaki , Takai, Yoshihiro

in Biological effects / Boron / Boron-neutron capture therapy / Brain cancer / Brain tumors / Dosimetry / Fast neutrons / Fundamental Radiation Science / Irradiation / Measurement methods / Methods / Neutrons / Nuclear capture / Quality assurance / Quality control / Relative biological effectiveness (RBE) / Tolerances

2022

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Determining a methodology of dosimetric quality assurance for commercially available accelerator-based boron neutron capture therapy system

2022

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Determining a methodology of dosimetric quality assurance for commercially available accelerator-based boron neutron capture therapy system

2022

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Journal Article

Determining a methodology of dosimetric quality assurance for commercially available accelerator-based boron neutron capture therapy system

Yamazaki, Yuhei,

Arai, Kazuhiro,

Hirose, Katsumi,

Kato, Ryohei,

Sato, Mariko,

Harada, Takaomi,

Kato, Takahiro,

Komori, Shinya,

Kadoya, Noriyuki,

Tanaka, Hiroki,

Takeuchi, Akihiko,

Motoyanagi, Tomoaki,

Takai, Yoshihiro

2022

Overview

The irradiation field of boron neutron capture therapy (BNCT) consists of multiple dose components including thermal, epithermal and fast neutron, and gamma. The objective of this work was to establish a methodology of dosimetric quality assurance (QA), using the most standard and reliable measurement methods, and to determine tolerance level for each QA measurement for a commercially available accelerator-based BNCT system. In order to establish a system of dosimetric QA suitable for BNCT, the following steps were taken. First, standard measurement points based on tissue-administered doses in BNCT for brain tumors were defined, and clinical tolerances of dosimetric QA measurements were derived from the contribution to total tissue relative biological effectiveness factor-weighted dose for each dose component. Next, a QA program was proposed based on TG-142 and TG-198, and confirmed that it could be assessed whether constancy of each dose component was assured within the limits of tolerances or not by measurements of the proposed QA program. Finally, the validity of the BNCT QA program as an evaluation system was confirmed in a demonstration experiment for long-term measurement over 1 year. These results offer an easy, reliable QA method that is clinically applicable with dosimetric validity for the mixed irradiation field of accelerator-based BNCT.

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Publisher

Oxford University Press

Subject

Biological effects

/ Boron

/ Boron-neutron capture therapy