
doi: 10.1002/mrm.28236
pmid: 32212352
PurposeTo compare EPI and GRE readout in high‐flow velocity regimes and evaluate their impact on measurement accuracy in silico and in vitro.Theory and MethodsPhase‐contrast sequences for EPI and GRE were simulated using CFD velocity data to assess displacement artifacts as well as effective spatial resolution. In silico findings were validated experimentally using a steady flow phantom.ResultsFor EPI factor 5 and simulated stenotic flow with peak velocity of 2.2 m, displacement artifacts resulted in misregistration of 7.3 mm at echo time and the effective resolution was locally reduced by factors 5 and 8 compared to GRE for flow along phase and frequency encoding directions, respectively. In vitro, a maximum velocity difference between EPI factor 5 and GRE of 0.97 m was found.ConclusionsFour‐dimensional flow MRI using EPI readout results not only in considerable velocity misregistration but also in spatially varying degradation of resolution. The proposed work indicates that EPI is inferior to standard GRE for 4D flow MRI.
arterial stenosis, Echo-Planar Imaging, Phantoms, Imaging, 610 Medicine & health, motion artifacts, phase-contrast MRI, Magnetic Resonance Imaging, 170 Ethics, Radiology Nuclear Medicine and imaging, 2741 Radiology, Nuclear Medicine and Imaging, 10237 Institute of Biomedical Engineering, echo planar imaging, Computer Simulation, Artifacts
arterial stenosis, Echo-Planar Imaging, Phantoms, Imaging, 610 Medicine & health, motion artifacts, phase-contrast MRI, Magnetic Resonance Imaging, 170 Ethics, Radiology Nuclear Medicine and imaging, 2741 Radiology, Nuclear Medicine and Imaging, 10237 Institute of Biomedical Engineering, echo planar imaging, Computer Simulation, Artifacts
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