2021
DOI: 10.1002/mp.14928
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Radiobiological impact of gadolinium neutron capture from proton therapy and alternative neutron sources using TOPAS‐nBio

Abstract: Purpose: A multi-scale investigation of the biological properties of gadolinium neutron capture (GdNC) therapy with applications in particle therapy is conducted using the TOPAS Monte Carlo (MC) simulation code. The simulation results are used to quantify the amount of gadolinium dose enhancement produced as a result of the secondary neutron production from proton therapy scaled by measured data. Materials and methods: MC modeling was performed using the radiobiology extension TOol for PArticle Simulation TOPA… Show more

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Cited by 3 publications
(1 citation statement)
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References 54 publications
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“…Another application of the toolkit are investigations of irradiation including gold nanoparticles for dose enhancement (Rudek et al 2019, Hahn and Villate 2021, Klapproth et al 2021. Moreover, the radiobiology effect of gadolinium dose enhancement in neutron capture therapy was studied using TOPAS-nBio by Van Delinder et al (2021).…”
Section: Methodsmentioning
confidence: 99%
“…Another application of the toolkit are investigations of irradiation including gold nanoparticles for dose enhancement (Rudek et al 2019, Hahn and Villate 2021, Klapproth et al 2021. Moreover, the radiobiology effect of gadolinium dose enhancement in neutron capture therapy was studied using TOPAS-nBio by Van Delinder et al (2021).…”
Section: Methodsmentioning
confidence: 99%