Feasibility demonstrated for free-breathing simultaneous T1 and T2 pulmonary relaxometry at 0.55T with automated motion correction and segmentation, yielding T1 of 930 ms and T2 of 90 ms in healthy lungs.
Principles and applications of balanced SSFP techniques
2 Pith papers cite this work. Polarity classification is still indexing.
fields
physics.med-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
A 3D U-Net for deep artifact suppression enables 13x faster acquisition and 50x faster online reconstruction of real-time SMS spiral bSSFP CMR while preserving diagnostic image quality and ventricular volume agreement with breath-hold references.
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Free-breathing Pulmonary Relaxometry at 0.55T
Feasibility demonstrated for free-breathing simultaneous T1 and T2 pulmonary relaxometry at 0.55T with automated motion correction and segmentation, yielding T1 of 930 ms and T2 of 90 ms in healthy lungs.
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Rapid online deep artifact suppression for real-time spiral bSSFP CMR with blipped-CAIPI simultaneous multi-slice imaging at 1.5 T
A 3D U-Net for deep artifact suppression enables 13x faster acquisition and 50x faster online reconstruction of real-time SMS spiral bSSFP CMR while preserving diagnostic image quality and ventricular volume agreement with breath-hold references.