Introduction to the Monte Carlo dose engine COMPASS for BNCT

Article Nuclear Science & Technology

Development of a dose estimation code for BNCT with GPU accelerated Monte Carlo and collapsed cone Convolution method

Chang-Min Lee et al.

Summary: A new method of dose calculation algorithm, called GPU-accelerated Monte Carlo and collapsed cone Convolution (GMCC), was developed to improve the calculation speed of BNCT treatment planning system. Its accuracy and performance were verified by comparing with the FLUKA results.

NUCLEAR ENGINEERING AND TECHNOLOGY (2022)

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Article Oncology

Evaluation of a treatment planning system developed for clinical boron neutron capture therapy and validation against an independent Monte Carlo dose calculation system

Naonori Hu et al.

Summary: Boron neutron capture therapy (BNCT) has been approved for the treatment of unresectable, locally advanced, and recurrent head and neck cancer by the Japanese government. A new treatment planning system, NeuCure (R) Dose Engine, has been developed for clinical BNCT. Comparisons between simulated and experimental results show the system's safety and efficacy, with close matches in dose distribution inside a head phantom.

RADIATION ONCOLOGY (2021)

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Article Oncology

Boron neutron capture therapy using cyclotron-based epithermal neutron source and borofalan (10B) for recurrent or locally advanced head and neck cancer (JHN002): An open-label phase II trial

Katsumi Hirose et al.

Summary: The study aimed to evaluate the efficacy and safety of cyclotron-based BNCT with borofalan for treating head and neck cancer, demonstrating promising treatment outcomes for patients with R-SCC or R/LA-nSCC.

RADIOTHERAPY AND ONCOLOGY (2021)

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