Frontiers in Oncology (Jul 2019)

Brain and Head-and-Neck MRI in Immobilization Mask: A Practical Solution for MR-Only Radiotherapy

  • Stefano Mandija,
  • Stefano Mandija,
  • Federico D'Agata,
  • Federico D'Agata,
  • Federico D'Agata,
  • Robin J. M. Navest,
  • Robin J. M. Navest,
  • Alessandro Sbrizzi,
  • Alessandro Sbrizzi,
  • Rob H. N. Tijssen,
  • Marielle E. P. Philippens,
  • Cornelis P. J. Raaijmakers,
  • Enrica Seravalli,
  • Joost J. C. Verhoeff,
  • Jan J. W. Lagendijk,
  • Cornelis A. T. van den Berg,
  • Cornelis A. T. van den Berg

DOI
https://doi.org/10.3389/fonc.2019.00647
Journal volume & issue
Vol. 9

Abstract

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In brain/head-and-neck radiotherapy (RT), thermoplastic immobilization masks guarantee reproducible patient positioning in treatment position between MRI, CT, and irradiation. Since immobilization masks do not fit in the diagnostic MR head/head-and-neck coils, flexible surface coils are used for MRI imaging in clinical practice. These coils are placed around the head/neck, in contact with the immobilization masks. However, the positioning of these flexible coils is technician dependent, thus leading to poor image reproducibility. Additionally, flexible surface coils have an inferior signal-to-noise-ratio (SNR) compared to diagnostic coils. The aim of this work was to create a new immobilization setup which fits into the diagnostic MR coils in order to enhance MR image quality and reproducibility. For this purpose, a practical immobilization setup was constructed. The performances of the standard clinical and the proposed setups were compared with four tests: SNR, image quality, motion restriction, and reproducibility of inter-fraction subject positioning. The new immobilization setup resulted in 3.4 times higher SNR values on average than the standard setup, except directly below the flexible surface coils where similar SNR was observed. Overall, the image quality was superior for brain/head-and-neck images acquired with the proposed RT setup. Comparable motion restriction in feet-head/left-right directions (maximum motion ≈1 mm) and comparable inter-fraction repositioning accuracy (mean inter-fraction movement 1 ± 0.5 mm) were observed for the standard and the new setup.

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