Boron neutron caputure therapy (BNCT) is a promising treatment for invasive tumors. The BNCT utilizes the energy deposition by alpha particle and 7 Li created by the neutron capture reaction of 10 B. One of the problem of BNCT is the imaging of 10 B distribution during the treatment. The gamma rays with the energy of 0.478 MeV emitted by 7 Li can be exploited for this purpose. The photon counting of the gamma rays, however, is very difficult due to the high gamma ray background caused by 2.22 MeV gamma rays originated by the neutron reactions with 1 H. To overcome this difficulty, the authors propose a method to measure gamma rays as electric current by a "transXend" detector, which had been invented by them for energy-resolved X-ray computed tomography. In this paper, the feasibility study on 10 B distribution imaging in a water phantom with a tumor region is shown by simulation studies. For establishing the relationship between electric currents induced in the transXend detector by gamma rays and 10 B concentration, the attenuation of gamma rays by the phantom should be taken into account. For this purpose, a neural network was employed. The results showed good agreement with the training data used for the neural network. K: Detector modelling and simulations I (interaction of radiation with matter, interaction of photons with matter, interaction of hadrons with matter, etc); Gamma camera, SPECT, PET PET/CT, coronary CT angiography (CTA); Medical-image reconstruction methods and algorithms, computer-aided diagnosis; Solid state detectors 1Corresponding author.
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