Mapping tissue microstructure with MRI holds great promise as a noninvasive window into
tissue organization at the cellular level. Having originated within the realm of diffusion NMR …

Cardiovascular magnetic resonance is a versatile tool that enables noninvasive
characterization of cardiac tissue structure and function. Parametric mapping techniques …

Magnetic resonance (MR) fingerprinting is a new quantitative imaging paradigm, which
simultaneously acquires multiple MR tissue parameter maps in a single experiment. In this …

Purpose To develop a new high‐dimensionality undersampled patch‐based reconstruction
(HD‐PROST) for highly accelerated 2D and 3D multi‐contrast MRI. Methods HD‐PROST …

Purpose To study the effects of magnetization transfer (MT, in which a semi‐solid spin pool
interacts with the free pool), in the context of magnetic resonance fingerprinting (MRF) …

Purpose To develop a novel respiratory motion compensated three‐dimensional (3D)
cardiac magnetic resonance fingerprinting (cMRF) approach for whole‐heart myocardial T1 …

Purpose Develop a sparse and locally low rank (LLR) regularized reconstruction to
accelerate MR fingerprinting (MRF). Methods Recent works have introduced low rank …

Purpose Develop a novel 2D cardiac MR fingerprinting (MRF) approach to enable
simultaneous T1, T2, T2*, and fat fraction (FF) myocardial tissue characterization in a single …

Purpose To develop and evaluate the magnetic resonance field fingerprinting method that
simultaneously generates T1, T2, B0, and maps from a single continuous measurement …

Purpose Develop a method for rigid body motion‐corrected magnetic resonance
fingerprinting (MRF). Methods MRF has shown some robustness to abrupt motion toward the …