Vol.
XXVIII, No. 3, Pp. 237-340
September 2013
UDC 621.039+614.876:504.06
ISSN 1451-3994
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Pages: 273-277
Authors: Elham Bavarnegin, Alireza Sadremomtaz, Hossein Khalafi
Abstract
The in-phantom measurement of physical dose distribution and construction of a convenient phantom is very important for boron neutron capture therapy planning validation. In this study we have simulated a head phantom, suggested for construction in boron neutron capture therapy facilities, and calculated all relevant dose components inside of it using the Monte Carlo code MCNPX. A "generic" epithermal neutron beam with a broad neutron spectrum, similar to beams used for neutron capture therapy clinical trials, was used. The calculated distributions of all relevant dose components in brain tissue equivalent were compared with those in water. The results show that water is a suitable dosimetry material and that the simulated head phantom is a suitable design for producing accurate three-dimensional maps of dose components at enough points inside of the phantom for boron neutron capture therapy dosimetry measurements and the use of these dose maps in beam development and benchmarking of computer-based treatment codes.
Key words:
boron neutron capture therapy, head phantom, MCNPX code
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