Frontiers in Oncology (Sep 2022)

Simulation and experimental verification of ambient neutron doses in a pencil beam scanning proton therapy room as a function of treatment plan parameters

  • Olivier Van Hoey,
  • Liliana Stolarczyk,
  • Liliana Stolarczyk,
  • Liliana Stolarczyk,
  • Jan Lillhök,
  • Linda Eliasson,
  • Natalia Mojzeszek,
  • Malgorzata Liszka,
  • Malgorzata Liszka,
  • Ali Alkhiat,
  • Ali Alkhiat,
  • Vladimir Mares,
  • François Trompier,
  • Sebastian Trinkl,
  • Sebastian Trinkl,
  • Immaculada Martínez-Rovira,
  • Maite Romero-Expósito,
  • Carles Domingo,
  • Ondrej Ploc,
  • Roger Harrison,
  • Pawel Olko

DOI
https://doi.org/10.3389/fonc.2022.903537
Journal volume & issue
Vol. 12

Abstract

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Out-of-field patient doses in proton therapy are dominated by neutrons. Currently, they are not taken into account by treatment planning systems. There is an increasing need to include out-of-field doses in the dose calculation, especially when treating children, pregnant patients, and patients with implants. In response to this demand, this work presents the first steps towards a tool for the prediction of out-of-field neutron doses in pencil beam scanning proton therapy facilities. As a first step, a general Monte Carlo radiation transport model for simulation of out-of-field neutron doses was set up and successfully verified by comparison of simulated and measured ambient neutron dose equivalent and neutron fluence energy spectra around a solid water phantom irradiated with a variation of different treatment plan parameters. Simulations with the verified model enabled a detailed study of the variation of the neutron ambient dose equivalent with field size, range, modulation width, use of a range shifter, and position inside the treatment room. For future work, it is planned to use this verified model to simulate out-of-field neutron doses inside the phantom and to verify the simulation results by comparison with previous in-phantom measurement campaigns. Eventually, these verified simulations will be used to build a library and a corresponding tool to allow assessment of out-of-field neutron doses at pencil beam scanning proton therapy facilities.

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