Abstract
Magnetic resonance-guided radiotherapy technology is relatively new and commissioning publications, quality assurance (QA) protocols and commercial products are limited. This work provides guidance for implementation measurements that may be performed on the Elekta Unity MR-Linac (Elekta, Stockholm, Sweden). Adaptations of vendor supplied phantoms facilitated determination of gantry angle accuracy and linac isocentre, whereas in-house developed phantoms were used for end-to-end testing and anterior coil attenuation measurements. Third-party devices were used for measuring beam quality, reference dosimetry and during treatment plan commissioning; however, due to several challenges, variations on standard techniques were required. Gantry angle accuracy was within 0.1°, confirmed with pixel intensity profiles, and MV isocentre diameter was < 0.5 mm. Anterior coil attenuation was approximately 0.6%. Beam quality as determined by TPR20,10 was 0.705 ± 0.001, in agreement with treatment planning system (TPS) calculations, and gamma comparison against the TPS for a 22.0 × 22.0 cm2 field was above 95.0% (2.0%, 2.0 mm). Machine output was 1.000 ± 0.002 Gy per 100 MU, depth 5.0 cm. During treatment plan commissioning, sub-standard results indicated issues with machine behaviour. Once rectified, gamma comparisons were above 95.0% (2.0%, 2.0 mm). Centres which may not have access to specialized equipment can use in-house developed phantoms, or adapt those supplied by the vendor, to perform commissioning work and confirm operation of the MRL within published tolerances. The plan QA techniques used in this work can highlight issues with machine behaviour when appropriate gamma criteria are set.
Highlights
The integration of magnetic resonance (MR) imaging and mega-voltage (MV) beam generation achieved with the Elekta Unity MR-Linac (MRL) (Elekta, Stockholm, Sweden) design provides a leap forward in image-guided radiotherapy
The design of the Unity system has been comprehensively discussed by other investigators [1–5], and the reader is referred to these works for further information
For calculations on MR datasets, relative electron density (RED) is assigned per structure with user specified values; typically, the mean RED for a structure is calculated from a reference CT scan
Summary
The integration of magnetic resonance (MR) imaging and mega-voltage (MV) beam generation achieved with the Elekta Unity MR-Linac (MRL) (Elekta, Stockholm, Sweden) design provides a leap forward in image-guided radiotherapy. With this comes a new set of quality assurance (QA) challenges. The. Physical and Engineering Sciences in Medicine (2022) 45:457–473 beam generation system, producing a single 7 MV FFF x-ray source, is mounted on an annular gantry that is free to rotate around a cylindrical cryostat containing the static-field MR coils.
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