Motivation: Rapid acquisition and reconstruction of high-quality liver water-specific T₁, R₂^*, B₀ field, and fat-fraction maps to enhance diagnostic feasibility and to improve patient comfort. Goal (s): Integrating a multi-parameter-sensitive sequence with advanced model-based reconstruction to jointly estimate quantitative maps from 4-second acquisitions. Approach: Integrate an analytical signal model into a calibration-free, model-based reconstruction framework to jointly estimate water-specific T₁, R₂^⁎, B₀ field, and fat-fraction maps of the liver from a 4-second single-shot inversion-recovery multi-echo radial FLASH acquisition. Results: Numerical phantom study and in-vivo liver reconstructions demonstrate high quantitative accuracy for all parameter maps. Impact: By combining a highly sensitive sequence with model-based reconstructions, this work reduces acquisition times for quantitative water-specific T₁, R₂^⁎, B₀ field and fat-fraction maps to 4s and makes quantitative multi-parametric MRI more accessible and convenient for diagnostic purposes.
Telezki et al. (Tue,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: