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Image domain propeller fast spin echo
Authors:Stefan Skare  Samantha J. Holdsworth  Anders Lilja  Roland Bammer
Affiliation:1. Clinical Neuroscience, Karolinska Institutet, Stockholm, Sweden;2. Department of Neuroradiology, Karolinska University Hospital, Stockholm, Sweden;3. Center of Quantitative Neuroimaging, Department of Radiology, Stanford University, Stanford, CA, USA
Abstract:A new pulse sequence for high-resolution T2-weighted (T2-w) imaging is proposed — image domain propeller fast spin echo (iProp-FSE). Similar to the T2-w PROPELLER sequence, iProp-FSE acquires data in a segmented fashion, as blades that are acquired in multiple TRs. However, the iProp-FSE blades are formed in the image domain instead of in the k-space domain. Each iProp-FSE blade resembles a single-shot fast spin echo (SSFSE) sequence with a very narrow phase-encoding field of view (FOV), after which N rotated blade replicas yield the final full circular FOV. Our method of combining the image domain blade data to a full FOV image is detailed, and optimal choices of phase-encoding FOVs and receiver bandwidths were evaluated on phantom and volunteers. The results suggest that a phase FOV of 15–20%, a receiver bandwidth of ± 32–63 kHz and a subsequent readout time of about 300 ms provide a good tradeoff between signal-to-noise ratio (SNR) efficiency and T2 blurring. Comparisons between iProp-FSE, Cartesian FSE and PROPELLER were made on single-slice axial brain data, showing similar T2-w tissue contrast and SNR with great anatomical conspicuity at similar scan times — without colored noise or streaks from motion. A new slice interleaving order is also proposed to improve the multislice capabilities of iProp-FSE.
Keywords:MRI   Propeller   T2-w   Pulse sequences   Reduced FOV
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