Purpose Conventional fat/water separation techniques require that patients hold breath
during abdominal acquisitions, which often fails and limits the achievable spatial resolution …

Purpose To demonstrate an approach to water–fat separation with correction using
compressed sensing and parallel imaging. Methods Acquisition times for chemical shift …

Purpose To develop a free‐breathing hepatic fat and quantification method by extending a
previously described stack‐of‐stars model‐based fat‐water separation technique with …

Chemical shift encoded techniques have received considerable attention recently because
they can reliably separate water and fat in the presence of off‐resonance. The insensitivity to …

Purpose To achieve dynamic water/fat separation and field inhomogeneity mapping via
model‐based reconstructions of undersampled triple‐echo multi‐spoke radial FLASH …

Previously published fast spin‐echo (FSE) implementations of a Dixon method for water and
fat separation all require multiple scans and thus a relatively long scan time. Further, the …

Multi echo chemical shift‐based water–fat separation methods allow for uniform fat
suppression in the presence of main field inhomogeneities. However, these methods require …

Purpose To combine gradient‐echo (GRE) imaging with a multipoint water–fat separation
method known as “iterative decomposition of water and fat with echo asymmetry and least …

Water‐fat separation can be challenging in the presence of field inhomogeneities. Three‐
point (3‐pt) water‐fat separation methods achieve robust performance by measuring and …

Multipoint water–fat separation techniques rely on different water–fat phase shifts generated
at multiple echo times to decompose water and fat. Therefore, these methods require …