Practice-oriented solutions integrating intraoperative electron irradiation and personalized proton therapy for recurrent or unresectable cancers: Proof of concept and potential for dual FLASH effect Articles uri icon

authors

  • CALVO, FELIPE A
  • AYESTARAN, ADRIANA
  • SERRANO, JAVIER
  • CAMBEIRO, MAURICIO
  • PALMA, JACOBO
  • MEIRIÑO, ROSA
  • MORCILLO, MIGUEL A.
  • LAPUENTE, FERNANDO
  • CHIVA, LUIS
  • AGUILAR, BORJA
  • AZCONA, DIEGO
  • PEDRERO, DIEGO
  • PASCAU GONZALEZ GARZON, JAVIER
  • DELGADO, JOSE MIGUEL
  • ARISTU, JAVIER
  • ALONSO, ALBERTO
  • PREZADO, YOLANDA

publication date

  • November 2022

start page

  • 1

end page

  • 15

issue

  • 1037262

volume

  • 12

International Standard Serial Number (ISSN)

  • 2234-943X

abstract

  • Background: Oligo-recurrent disease has a consolidated evidence of long-term surviving patients due to the use of intense local cancer therapy. The latter combines real-time surgical exploration/resection with high-energy electron beam single dose of irradiation. This results in a very precise radiation dose deposit, which is an essential element of contemporary multidisciplinary individualized oncology. Methods: Patient candidates to proton therapy were evaluated in Multidisciplinary Tumor Board to consider improved treatment options based on the institutional resources and expertise. Proton therapy was delivered by a synchrotron-based pencil beam scanning technology with energy levels from 70.2 to 228.7 MeV, whereas intraoperative electrons were generated in a miniaturized linear accelerator with dose rates ranging from 22 to 36 Gy/min (at Dmax) and energies from 6 to 12 MeV. Results: In a period of 24 months, 327 patients were treated with proton therapy: 218 were adults, 97 had recurrent cancer, and 54 required re-irradiation. The specific radiation modalities selected in five cases included an integral strategy to optimize the local disease management by the combination of surgery, intraoperative electron boost, and external pencil beam proton therapy as components of the radiotherapy management. Recurrent cancer was present in four cases (cervix, sarcoma, melanoma, and rectum), and one patient had a primary unresectable locally advanced pancreatic adenocarcinoma. In re-irradiated patients (cervix and rectum), a tentative radical total dose was achieved by integrating beams of electrons (ranging from 10- to 20-Gy single dose) and protons (30 to 54-Gy Relative Biological Effectiveness (RBE), in 10¿25 fractions). Conclusions: Individual case solution strategies combining intraoperative electron radiation therapy and proton therapy for patients with oligo-recurrent or unresectable localized cancer are feasible. The potential of this combination can be clinically explored with electron and proton FLASH beams.

subjects

  • Aeronautics
  • Biology and Biomedicine
  • Education
  • Electronics
  • Information Science
  • Materials science and engineering
  • Medicine
  • Naval Engineering

keywords

  • cancer; electron flash; oligorrecurrent; proton therapy flash; reirradiation