T2-BUDA-gSlider: rapid high isotropic resolution T2 mapping with blip-up/down acquisition, generalized SLIce Dithered Enhanced Resolution and subspace reconstruction.

Purpose: To obtain rapid high isotropic-resolution T2 maps with whole-brain coverage and high geometric fidelity. Methods: A T2 blip-up/down acquisition with generalized Slice-dithered enhanced resolution (T2-BUDA-gSlider) is proposed. An RF-encoded multi-slab SE-EPI acquisition with variable TEs was developed to obtain high SNR efficiency with reduced TR. This was combined with an interleaved 2-shot acquisition using blipup/down phase encoding. An estimated field map was incorporated into the joint multishot EPI reconstruction with a structured low rank constraint to achieve distortion-free and robust reconstruction for each slab without navigation. A Bloch simulated subspace shuffling model was integrated into gSlider reconstruction and utilized for T2 quantification. To further accelerate the acquisition and enable shorter TEs to be sampled, partial Fourier sampling and simultaneous multi-slab encoding were also combined with the proposed method. Results: In vivo results demonstrated that the T2 values estimated by proposed method were consistent with gold standard spin-echo acquisition. Compared to the reference 3D-FSE images, distortion caused by off-resonance and eddy current effects were effectively mitigated. On patients with mesial temporal lobe epilepsy, increased T2 values in hippocampal sclerosis regions were detected. Conclusion: BUDA-gSlider SE-EPI acquisition and shuffling-gSlider joint reconstruction enabled distortion-free whole-brain T2 mapping in 63 seconds at 1 mm isotropic resolution.