EPJ Web of Conferences (Jan 2021)

A prototype of pCT scanner: first tests

  • Briz J. A.,
  • Posadillo I.,
  • Távora V.G.,
  • Nácher E.,
  • Borge M.J.G.,
  • Tengblad O.,
  • Perea A.,
  • Ortiz A.,
  • Ovejas J. D.,
  • Viñals S.

DOI
https://doi.org/10.1051/epjconf/202125309008
Journal volume & issue
Vol. 253
p. 09008

Abstract

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Proton therapy technique for cancer treatment offers a high selectivity with respect to conventional radiotherapy with X- and γ-rays due to the properties of the interaction of protons with matter. Very accurate and precise treatment plans and a good control on the dose deposition are required to exploit the full potential of the technique. The substitution of the currently used X-ray Computed Tomography (xCT) by proton Computed Tomography (pCT) in the design of treatment plans would allow for a reduction in proton range uncertainties. This would make possible an important improvement in the accuracy and precision of treatment plans. With this aim, a prototype of pCT scanner is under study. It includes two tracking detectors which provide information on the proton trajectories and a residual energy detector to determine the energy loss while traversing the object scanned. A proof-of-concept experiment has been performed using low-energy protons and a simplified prototype with only the two tracking detectors. The results obtained in the measurement are presented and discussed.

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