Abstract #3319

Volumetric Measurements with Real-Time Imaging for Cardiac Stress MRI

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

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

Cardiac stress MRI is a valuable diagnostic tool for heart disease. However, volumetric measurements are challenging because stress introduces rapid heartbeats and body movements. Real-time MRI is advantageous for this application due to its robustness to motion and ability for ungated imaging during free breathing. Here, we demonstrate an undersampled radial balanced steady state free precession (bSSFP) sequence to acquire real-time cine images at high spatial (1.7 mm) and temporal (40 ms) resolutions, applied in cardiac stress MRI. We show that, compared to standard breath-held bSSFP cine MRI, our technique provides more robust and reliable volumetric measurements.

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