Affiliation:
1. Biomedical Engineering The Ohio State University Columbus Ohio USA
2. Electrical & Computer Engineering The Ohio State University Columbus Ohio USA
3. Davis Heart and Lung Research Institute The Ohio State University Wexner Medical Center Columbus Ohio USA
4. Human Sciences The Ohio State University Columbus Ohio USA
5. Internal Medicine The Ohio State University Wexner Medical Center Columbus Ohio USA
Abstract
AbstractPurposeTo present and assess an outlier mitigation method that makes free‐running volumetric cardiovascular MRI (CMR) more robust to motion.MethodsThe proposed method, called compressive recovery with outlier rejection (CORe), models outliers in the measured data as an additive auxiliary variable. We enforce MR physics‐guided group sparsity on the auxiliary variable, and jointly estimate it along with the image using an iterative algorithm. For evaluation, CORe is first compared to traditional compressed sensing (CS), robust regression (RR), and an existing outlier rejection method using two simulation studies. Then, CORe is compared to CS using seven three‐dimensional (3D) cine, 12 rest four‐dimensional (4D) flow, and eight stress 4D flow imaging datasets.ResultsOur simulation studies show that CORe outperforms CS, RR, and the existing outlier rejection method in terms of normalized mean square error and structural similarity index across 55 different realizations. The expert reader evaluation of 3D cine images demonstrates that CORe is more effective in suppressing artifacts while maintaining or improving image sharpness. Finally, 4D flow images show that CORe yields more reliable and consistent flow measurements, especially in the presence of involuntary subject motion or exercise stress.ConclusionAn outlier rejection method is presented and tested using simulated and measured data. This method can help suppress motion artifacts in a wide range of free‐running CMR applications.
Funder
National Heart, Lung, and Blood Institute
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