Journal of Medical Radiation Sciences (Dec 2023)

MRI sequence optimisation methods to identify cranial nerve course for radiotherapy planning

  • Laura M. O'Connor,
  • Kate Skehan,
  • Jonathan Goodwin,
  • Mahesh Kumar

DOI
https://doi.org/10.1002/jmrs.700
Journal volume & issue
Vol. 70, no. 4
pp. 509 – 517

Abstract

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Abstract Introduction Magnetic resonance imaging (MRI) is being increasingly used to improve radiation therapy planning by allowing visualisation of organs at risk that cannot be well‐defined on computed tomography (CT). Diagnostic sequences are increasingly being adapted for radiation therapy planning, such as the use of heavily T2‐weighted 3D SPACE (Sampling Perfection with Application optimised Contrasts using different flip angle Evolution) sequence for cranial nerve identification in head and neck tumour treatment planning. Methods A 3D isotropic T2 SPACE sequence used for cranial nerve identification was adapted for radiation therapy purposes. Distortion was minimised using a spin‐echo‐based sequence, 3D distortion correction, isocentre scanning and an increased readout bandwidth. Radiation therapy positioning was accounted for by utilising two small flex, 4‐channel coils. The protocol was validated for cranial nerve identification in clinical applications and distortion minimisation using an MRI QA phantom. Results Normal anatomy of the cranial nerves CI‐CIX, were presented, along with a selection of clinical applications and abnormal anatomy. The usefulness of cranial nerve identification is discussed for several case studies, particularly in proximity to tumours extending into the base of skull region. In‐house testing validated that higher bandwidths of 600 Hz resulted in minimal displacement well below 1 mm. Conclusion The use of MRI for radiation therapy planning allows for greater individualisation and prediction of patient outcomes. Dose reduction to cranial nerves can decrease late side effects such as cranial neuropathy. In addition to current applications, future directions include further applications of this technology for radiation therapy treatments.

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