Abstract
PURPOSE: To rapidly obtain high isotropic-resolution T(2) maps with whole-brain coverage and high geometric fidelity. METHODS: A T(2) blip-up/down EPI acquisition with generalized slice-dithered enhanced resolution (T(2) -BUDA-gSlider) is proposed. A RF-encoded multi-slab spin-echo (SE) EPI acquisition with multiple TEs was developed to obtain high SNR efficiency with reduced TR. This was combined with an interleaved 2-shot EPI acquisition using blip-up/down phase encoding. An estimated field map was incorporated into the joint multi-shot EPI reconstruction with a structured low rank constraint to achieve distortion-free and robust reconstruction for each slab without navigation. A Bloch simulated subspace model was integrated into gSlider reconstruction and used for T(2) quantification. RESULTS: In vivo results demonstrated that the T(2) values estimated by the proposed method were consistent with gold standard spin-echo acquisition. Compared to the reference 3D fast spin echo (FSE) images, distortion caused by off-resonance and eddy current effects were effectively mitigated. CONCLUSION: BUDA-gSlider SE-EPI acquisition and gSlider-subspace joint reconstruction enabled distortion-free whole-brain T(2) mapping in 2 min at ~1 mm(3) isotropic resolution, which could bring significant benefits to related clinical and neuroscience applications.