Fast Fourier-based simulation of off-resonance artifacts in steady-state gradient echo MRI applied to metal object localization
Publication date
2017-11
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Abstract
Purpose: To accelerate simulation of off-resonance artifacts in steady-state gradient echo MRI by using fast Fourier transforms and demonstrate its applicability to metal object localization. Theory and Methods: By exploiting the repetitive nature of steady-state pulse sequences it is possible to use fast Fourier transforms to calculate the MR signal. Based on this principle, a method for fast simulation of off-resonance artifacts was designed. The method was validated against Bloch simulations and MRI scans. Its clinical relevance was demonstrated by employing it for template matching-based metal object localization, as applied to a titanium cylinder, an oxidized zirconium knee implant, and gold fiducials. Results: The fast simulations were accurate compared with actual MRI scans of the objects. The differences between the fast simulations and Bloch simulations were minor, while the acceleration scaled linearly with the number of phase-encoding lines. The object localization method accurately localized the various metal objects. Conclusion: The proposed simulation methodology provided accurate 3D simulations of off-resonance artifacts with a lower computational complexity than Bloch simulations. The speed of the simulations opens up possibilities in image reconstructions involving off-resonance phenomena that were previously infeasible due to computational limitations, as demonstrated for metal object localization. Magn Reson Med 78:2035–2041, 2017.
Keywords
Bloch simulations, FORECAST, MRI simulation, magnetic susceptibility, off-resonance artifacts, Radiology Nuclear Medicine and imaging
Citation
Zijlstra, F, Bouwman, J G, Braškute, I, Viergever, M A & Seevinck, PR 2017, 'Fast Fourier-based simulation of off-resonance artifacts in steady-state gradient echo MRI applied to metal object localization', Magnetic Resonance in Medicine, vol. 78, no. 5, pp. 2035-2041. https://doi.org/10.1002/mrm.26556