3D‐EPI blip‐up/down acquisition (BUDA) with CAIPI and joint H ankel structured low‐rank reconstruction for rapid distortion‐free high‐resolution T 2* mapping
Purpose This work aims to develop a novel distortion‐free 3D‐EPI acquisition and image
reconstruction technique for fast and robust, high‐resolution, whole‐brain imaging as well …
reconstruction technique for fast and robust, high‐resolution, whole‐brain imaging as well …
Joint MAPLE: Accelerated joint T1 and T 2* T _2^ ∗ mapping with scan‐specific self‐supervised networks
Purpose Quantitative MRI finds important applications in clinical and research studies.
However, it is encoding intensive and may suffer from prohibitively long scan times …
However, it is encoding intensive and may suffer from prohibitively long scan times …
Scan-specific Unsupervised Highly Accelerated Non-Cartesian CEST Imaging using Implicit Neural Representation and Explicit Sparse Prior
B Liu, H She, YP Du - IEEE Transactions on Biomedical …, 2024 - ieeexplore.ieee.org
Objective: Chemical exchange saturation transfer (CEST) is a promising magnetic
resonance imaging (MRI) technique. CEST imaging usually requires a long scan time, and …
resonance imaging (MRI) technique. CEST imaging usually requires a long scan time, and …
[HTML][HTML] Fast Whole-Brain MR Multi-Parametric Mapping with Scan-Specific Self-Supervised Networks
Quantification of tissue parameters using MRI is emerging as a powerful tool in clinical
diagnosis and research studies. The need for multiple long scans with different acquisition …
diagnosis and research studies. The need for multiple long scans with different acquisition …