Abstract
OBJECTIVES: To overcome the challenges of B0 and RF excitation inhomogeneity at ultra-high field MRI, a workflow for volumetric B0 and flip-angle homogenisation was implemented on a human 9.4 T scanner.
MATERIALS AND METHODS: Imaging was performed with a 9.4 T human MR scanner (Siemens Medical Solutions, Erlangen, Germany) using a 16-channel parallel transmission system. B0- and B1-mapping were done using a dual-echo GRE and transmit phase-encoded DREAM, respectively. B0 shims and a small-tip-angle-approximation kT-points pulse were calculated with an off-line routine and applied to acquire T1- and T 2 (*) -weighted images with MPRAGE and 3D EPI, respectively.
RESULTS: Over six in vivo acquisitions, the B0-distribution in a region-of-interest defined by a brain mask was reduced down to a full-width-half-maximum of 0.10 ± 0.01 ppm (39 ± 2 Hz). Utilising the kT-points pulses, the normalised RMSE of the excitation was decreased from CP-mode's 30.5 ± 0.9 to 9.2 ± 0.7 % with all B 1 (+) voids eliminated. The SNR inhomogeneities and contrast variations in the T1- and T 2 (*) -weighted volumetric images were greatly reduced which led to successful tissue segmentation of the T1-weighted image.
CONCLUSION: A 15-minute B0- and flip-angle homogenisation workflow, including the B0- and B1-map acquisitions, was successfully implemented and enabled us to reduce intensity and contrast variations as well as echo-planar image distortions in 9.4 T images.
Original language | English |
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Pages (from-to) | 333-345 |
Number of pages | 13 |
Journal | Magnetic Resonance Materials in Physics Biology and Medicine |
Volume | 29 |
Issue number | 3 |
Early online date | 19 Mar 2016 |
DOIs | |
Publication status | Published - Jun 2016 |
Keywords
- Ultra-high field MR
- Parallel transmission
- B-0 shimming
- Flip-angle homogenisation
- MPRAGE
- 3D EPI
- ECHO-PLANAR
- HUMAN BRAIN
- NUCLEAR-MAGNETIC-RESONANCE
- SUSCEPTIBILITY
- FUNCTIONAL MRI
- NOISE RATIO
- RF PULSES
- PARALLEL-TRANSMISSION
- GEOMETRIC DISTORTION
- GRADIENT-ECHO