Abstract #2495

A Fast MR Elastography Sequence with Interleaved Inflow Saturation and Compressed SENSE

Hui Wang^1,2,3, Amol Pednekar^2,3, Jean A. Tkach^2,3, Kaley R. Bridgewater², Andrew T. Trout^2,3, Jonathan R. Dillman^2,3, and Charles L. Dumoulin^2,3

¹Philips, Cincinnati, OH, United States, ²Department of Radiology, Cincinnati Children’s Hospital Medical Center, Cincinnati, OH, United States, ³Department of Radiology, University of Cincinnati College of Medicine, Cincinnati, OH, United States

We describe a fast field-echo Magnetic Resonance Elastography pulse sequence to measure liver stiffness in less than half the breath hold time (≈6.3 sec/slice) of the conventional implementation. Key features include: 1) non-alternating motion encoding gradients to allow a shorter TR while maintaining appropriate gradient waveform polarity synchronization with the applied mechanical motion; 2) interleaved flow saturation pre-pulses to suppress flow; and 3) pseudorandom undersampling k-space with Compressed SENSE reconstruction. The technique was validated in two gel phantoms differing in stiffness and used to evaluate liver stiffness in five volunteers.

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