Technology in Cancer Research & Treatment (Sep 2023)

Adoption of Hybrid MRI-Linac Systems for the Treatment of Brain Tumors: A Systematic Review of the Current Literature Regarding Clinical and Technical Features

  • Andrea Emanuele Guerini MD,
  • Stefania Nici BSc,
  • Stefano Maria Magrini MD,
  • Stefano Riga BSc,
  • Cristian Toraci PhD,
  • Ludovica Pegurri MD,
  • Giorgio Facheris MD,
  • Claudia Cozzaglio DEng,
  • Davide Farina MD,
  • Roberto Liserre MD,
  • Roberto Gasparotti MD,
  • Marco Ravanelli MD,
  • Paolo Rondi MD,
  • Luigi Spiazzi BSc,
  • Michela Buglione MD

DOI
https://doi.org/10.1177/15330338231199286
Journal volume & issue
Vol. 22

Abstract

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Background Possible advantages of magnetic resonance (MR)-guided radiation therapy (MRgRT) for the treatment of brain tumors include improved definition of treatment volumes and organs at risk (OARs) that could allow margin reductions, resulting in limited dose to the OARs and/or dose escalation to target volumes. Recently, hybrid systems integrating a linear accelerator and an magnetic resonance imaging (MRI) scan (MRI-linacs, MRL) have been introduced, that could potentially lead to a fully MRI-based treatment workflow. Methods We performed a systematic review of the published literature regarding the adoption of MRL for the treatment of primary or secondary brain tumors (last update November 3, 2022), retrieving a total of 2487 records; after a selection based on title and abstracts, the full text of 74 articles was analyzed, finally resulting in the 52 papers included in this review. Results and discussion Several solutions have been implemented to achieve a paradigm shift from CT-based radiotherapy to MRgRT, such as the management of geometric integrity and the definition of synthetic CT models that estimate electron density. Multiple sequences have been optimized to acquire images with adequate quality with on-board MR scanner in limited times. Various sophisticated algorithms have been developed to compensate the impact of magnetic field on dose distribution and calculate daily adaptive plans in a few minutes with satisfactory dosimetric parameters for the treatment of primary brain tumors and cerebral metastases. Dosimetric studies and preliminary clinical experiences demonstrated the feasibility of treating brain lesions with MRL. Conclusions The adoption of an MRI-only workflow is feasible and could offer several advantages for the treatment of brain tumors, including superior image quality for lesions and OARs and the possibility to adapt the treatment plan on the basis of daily MRI. The growing body of clinical data will clarify the potential benefit in terms of toxicity and response to treatment.