Abstract #3514

Reduced-FOV k-space Variant Radial Parallel Imaging Reconstruction for Real-time Cardiac MR

Yu Yulee Li^1,2, Shams Rashid¹, Yang Cheng¹, William Schapiro¹, Kathleen Gliganic¹, Ann-Marie Yamashita¹, Marie Grgas¹, Michelle Maragh¹, and Jie Jane Cao^1,3

¹Cardiac Imaging, St. Francis Hospital DeMatteis Center for Cardiac Research and Education, Greenville, NY, United States, ²Radiology, Stony Brook University (SUNY), Stony Brook, NY, United States, ³Medicine, Stony Brook University (SUNY), Stony Brook, NY, United States

Radial imaging is k-space variant, but mostly uses k-space invariant methods in image reconstruction. This permits reconstructing images with lower computation complexity at a cost of performance. Here a k-space variant parallel imaging reconstruction technique is developed to reconstruct Cartesian data directly from multi-channel radial samples with affordable computation. It is demonstrated that this technique offers the ability to collect real-time images with a temporal resolution of 40ms and a spatial resolution of 1.7mm. The new technique outperforms those gridding-based methods with k-space invariant algorithms in a stress cardiac test.

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