Primary and scattering contributions to beta scaled dose point kernels by means of Monte Carlo simulations
DOI:
https://doi.org/10.29384/rbfm.2012.v6.n1.p3-6Abstract
Beta-emitters have proved to be appropriate for radioimmunotherapy. The dosimetric characterization of each radionuclide has to be carefully investigated. One usual and practical dosimetric approach is the calculation of dose distribution from a unit point source emitting particles according to any radionuclide of interest, which is known as dose point kernel. Absorbed dose distributions are due to primary and radiation scattering contributions. This work presented a method capable of performing dose distributions for nuclear medicine dosimetry by means of Monte Carlo methods. Dedicated subroutines have been developed in order to separately compute primary and scattering contributions to the total absorbed dose, performing particle transport up to 1 keV or least. Preliminarily, the suitability of the calculation method has been satisfactory, being tested for monoenergetic sources, and it was further applied to the characterization of different beta-minus radionuclides of nuclear medicine interests for radioimmunotherapy.Downloads
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Valente, M., Botta, F., Pérez, P., & Pedroli, G. (2015). Primary and scattering contributions to beta scaled dose point kernels by means of Monte Carlo simulations. Brazilian Journal of Medical Physics, 6(1), 3–6. https://doi.org/10.29384/rbfm.2012.v6.n1.p3-6
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