Congyu Liao, PhD's Publications

Pseudo partition-encoded simultaneous multislab (pPRISM) for rapid, navigator-free submillimeter diffusion MRI with reduced slab-boundary signal loss.

Three-dimensional high-isotropic-resolution MR fingerprinting optimized for 0.55 T.

Artificial intelligence for neuro MRI acquisition: a review.

Blip-up blip-down circular EPI (BUDA-cEPI) for distortion-free dMRI with rapid unrolled deep learning reconstruction.

Fast and reliable quantitative measures of white matter development with magnetic resonance fingerprinting.

High-fidelity intravoxel incoherent motion parameter mapping using locally low-rank and subspace modeling.

Highly Accelerated Three-Dimensional Free-Breathing Cardiac T2 Mapping with Modified Low-Rank Modeling of Local K-Space Neighborhoods.

Rapid and accurate navigators for motion and B0 tracking using QUEEN: Quantitatively enhanced parameter estimation from navigators.

Reduced cross-scanner variability using vendor-agnostic sequences for single-shell diffusion MRI.

Spherical echo-planar time-resolved imaging (sEPTI) for rapid 3D quantitative T2* and susceptibility imaging.

The Potential of Phase Constraints for Non-Fourier Radiofrequency-Encoded MRI.

3D-EPI blip-up/down acquisition (BUDA) with CAIPI and joint Hankel structured low-rank reconstruction for rapid distortion-free high-resolution T2* mapping.

Deep Learning Initialized Compressed Sensing (Deli-CS) in Volumetric Spatio-Temporal Subspace Reconstruction.

DTI-MR fingerprinting for rapid high-resolution whole-brain T1 , T2 , proton density, ADC, and fractional anisotropy mapping.

High-fidelity mesoscale in-vivo diffusion MRI through gSlider-BUDA and circular EPI with S-LORAKS reconstruction.

High-resolution myelin-water fraction and quantitative relaxation mapping using 3D ViSTa-MR fingerprinting.

Next-generation MRI scanner designed for ultra-high-resolution human brain imaging at 7 Tesla.

Optimized three-dimensional ultrashort echo time: Magnetic resonance fingerprinting for myelin tissue fraction mapping.

SLfRank: Shinnar-Le-Roux Pulse Design With Reduced Energy and Accurate Phase Profiles Using Rank Factorization.

Blip up-down acquisition for spin- and gradient-echo imaging (BUDA-SAGE) with self-supervised denoising enables efficient T2 , T2 *, para- and dia-magnetic susceptibility mapping.

Detecting Silent Acute Microinfarcts in Cerebral Small Vessel Disease Using Submillimeter Diffusion-Weighted Magnetic Resonance Imaging: Preliminary Results.

Erratum to: Rapid simultaneous acquisition of macromolecular tissue volume, susceptibility, and relaxometry maps (Magn Reson Med. 2022;87:781-790.).

Highly accelerated EPI with wave encoding and multi-shot simultaneous multislice imaging.

Optimized multi-axis spiral projection MR fingerprinting with subspace reconstruction for rapid whole-brain high-isotropic-resolution quantitative imaging.

A multi-inversion multi-echo spin and gradient echo echo planar imaging sequence with low image distortion for rapid quantitative parameter mapping and synthetic image contrasts.

Distortion-free, high-isotropic-resolution diffusion MRI with gSlider BUDA-EPI and multicoil dynamic B0 shimming.

Efficient T2 mapping with blip-up/down EPI and gSlider-SMS (T2 -BUDA-gSlider).

In vivo human whole-brain Connectom diffusion MRI dataset at 760 µm isotropic resolution.

Quantitative T1 and T2 mapping by magnetic resonance fingerprinting (MRF) of the placenta before and after maternal hyperoxia.

Rapid simultaneous acquisition of macromolecular tissue volume, susceptibility, and relaxometry maps.

SNR-enhanced diffusion MRI with structure-preserving low-rank denoising in reproducing kernel Hilbert spaces.

DeepDTI: High-fidelity six-direction diffusion tensor imaging using deep learning.

Diffusion-PEPTIDE: Distortion- and blurring-free diffusion imaging with self-navigated motion-correction and relaxometry capabilities.

Fast submillimeter diffusion MRI using gSlider-SMS and SNR-enhancing joint reconstruction.

High-fidelity, accelerated whole-brain submillimeter in vivo diffusion MRI using gSlider-spherical ridgelets (gSlider-SR).

Robust autocalibrated structured low-rank EPI ghost correction.

Accelerated spin-echo functional MRI using multisection excitation by simultaneous spin-echo interleaving (MESSI) with complex-encoded generalized slice dithered enhanced resolution (cgSlider) simultaneous multislice echo-planar imaging.

Accelerated whole-brain perfusion imaging using a simultaneous multislice spin-echo and gradient-echo sequence with joint virtual coil reconstruction.

Fast 3D brain MR fingerprinting based on multi-axis spiral projection trajectory.

High-fidelity, high-isotropic-resolution diffusion imaging through gSlider acquisition with B1+ and T1 corrections and integrated ΔB0 /Rx shim array.

Highly accelerated multishot echo planar imaging through synergistic machine learning and joint reconstruction.

Magnetic resonance fingerprinting of temporal lobe white matter in mesial temporal lobe epilepsy.

Phase-matched virtual coil reconstruction for highly accelerated diffusion echo-planar imaging.

Ultrashort echo time magnetic resonance fingerprinting (UTE-MRF) for simultaneous quantification of long and ultrashort T2 tissues.

Detection of Lesions in Mesial Temporal Lobe Epilepsy by Using MR Fingerprinting.

Improving parallel imaging by jointly reconstructing multi-contrast data.

Optimal Experiment Design for Magnetic Resonance Fingerprinting: Cramér-Rao Bound Meets Spin Dynamics.

Squeezed Trajectory Design for Peak RF and Integrated RF Power Reduction in Parallel Transmission MRI.

3D MR fingerprinting with accelerated stack-of-spirals and hybrid sliding-window and GRAPPA reconstruction.

Efficient parallel reconstruction for high resolution multishot spiral diffusion data with low rank constraint.

Robust sliding-window reconstruction for Accelerating the acquisition of MR fingerprinting.

Uncertainty assessment of gamma-aminobutyric acid concentration of different brain regions in individual and group using residual bootstrap analysis.