Abstract
Purpose: Metal artifact reduction in MRI within clinically feasible scan-times without through-plane aliasing.
Theory and Methods: Existing metal artifact reduction techniques include view angle tilting (VAT), which resolves in-plane distortions, and multispectral imaging (MSI) techniques, such as slice encoding for metal artifact correction (SEMAC) and multi-Acquisition with variable resonances image combination (MAVRIC), that further reduce image distortions, but significantly increase scan-time. Scan-time depends on anatomy size and anticipated total spectral content of the signal. Signals outside the anticipated spatial region may cause through-plane back-folding. Off-resonance suppression (ORS), using different gradient amplitudes for excitation and refocusing, is proposed to provide well-defined spatial-spectral selectivity in MSI to allow scan-time reduction and flexibility of scan-orientation. Comparisons of MSI techniques with and without ORS were made in phantom and volunteer experiments.
Results: Off-resonance suppressed SEMAC (ORS-SEMAC) and outer-region suppressed MAVRIC (ORS-MAVRIC) required limited through-plane phase encoding steps compared with original MSI. Whereas SEMAC (scan time: 5'46") and MAVRIC (4'12") suffered from through-plane aliasing, ORS-SEMAC and ORS-MAVRIC allowed alias-free imaging in the same scantimes.
Conclusion: ORS can be used in MSI to limit the selected spatial-spectral region and contribute to metal artifact reduction in clinically feasible scan-times while avoiding slice aliasing.
Original language | English |
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Pages (from-to) | 233-243 |
Number of pages | 11 |
Journal | Magnetic Resonance in Medicine |
Volume | 73 |
Issue number | 1 |
DOIs | |
Publication status | Published - Jan 2015 |
Keywords
- magnetic resonance imaging
- arthroplasty
- SEMAC
- MAVRIC
- metal implants
- multispectral imaging
- ARTIFACT CORRECTION
- SPIN-ECHO
- SUSCEPTIBILITY
- ACQUISITION
- REDUCTION