Journal of Medical Physics (Jan 2023)

End-To-End procedure for IORT in brain metastases and film dosimetry

  • Sergio Lozares-Cordero,
  • Ana Isabel Cisneros-Gimeno,
  • Alberto García-Barrios,
  • Raquel Castro-Moreno,
  • Andrea González-Rodríguez,
  • Marta Sánchez-Casi,
  • Arantxa Campos-Boned,
  • Almudena Gandía-Martínez,
  • José Antonio Font-Gómez,
  • Sara Jiménez-Puertas,
  • David Villa-Gazulla,
  • Javier Díez-Chamarro,
  • Mónica Hernández-Hernández,
  • Víctor González-Pérez,
  • Reyes Ibáñez-Carreras

DOI
https://doi.org/10.4103/jmp.jmp_18_23
Journal volume & issue
Vol. 48, no. 2
pp. 175 – 180

Abstract

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Purpose: The study is intended to perform an end-to-end test of the entire intraoperative process using cadaver heads. A simulation of tumor removal was performed, followed by irradiation of the bed and measurement of absorbed doses with radiochromic films. Materials and Methods: Low-energy X-ray intraoperative radiotherapy (IORT) was used for irradiation. A computed tomography study was performed at each site and the absorbed doses calculated by the treatment planning system, as well as absorbed doses with radiochromic films, were studied. Results: The absorbed doses in the organs at risk (OAR) were evaluated in each case, obtaining maximum doses within the tolerance limits. The absorbed doses in the target were verified and the deviations were <1%. Conclusions: These tests demonstrated that this comprehensive procedure is a reproducible quality assurance tool which allows continuous assessment of the dosimetric and geometric accuracy of clinical brain IORT treatments. Furthermore, the absorbed doses measured in both target and OAR are optimal for these treatments.

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