Candice A. Bookwalter1, Michael W. Harrell2, Nicole Seiberlich3, Smitha Thomas1, Raj Mohan Paspulati4, Jeremiah A. Heilman5, Mark A. Griswold1, 3, Vikas Gulani1, 3
1Department of Radiology, University Hospitals Case Medical Center/Case Western Reserve University, Cleveland, OH, United States; 2School of Medicine, Case Western Reserve University, Cleveland, OH, United States; 3Department of Biomedical Engineering, Case Western Reserve University, Cleveland, OH, United States; 4Department of Radiology, University Hospitals Case Medical Center/Case Western Reserve University, Cleveland , OH, United States; 5Quality Electrodynamics, Mayfield Village, OH, United States
The automatic and retrospective method of Motion Artifact Removal by Retrospective Resolution Reduction (MARs) is evaluated in conjunction with parallel imaging time acceleration in both simulation and patient data. MARs uses GRAPPA navigators to detect motion corrupted data and subsequently removes corrupted data to obtain a motion artifact free yet lower resolution image. The MARs method is shown to work robustly with parallel imaging time acceleration. Image evaluation was performed using alternate force choice ratings. MARs corrected images were shown to be preferred over uncorrected images.