Iterative decomposition of water and fat with echo asymmetry and least-squares estimation (IDEAL): Application with fast spin-echo imaging

## Abstract Chemical shift based methods are often used to achieve uniform water–fat separation that is insensitive to __B__~o~ inhomogeneities. Many spin‐echo (SE) or fast SE (FSE) approaches acquire three echoes shifted symmetrically about the SE, creating time‐dependent phase shifts caused by wa

## Abstract ## Purpose To evaluate and quantify improvements in the quality of fat suppression for fast spin‐echo imaging of the knee using multipeak fat spectral modeling and IDEAL fat‐water separation. ## Materials and Methods T~1~‐weighted and T~2~‐weighted fast spin‐echo sequences with IDEAL

## Abstract ## Purpose To compare the __i__terative __d__ecomposition of water and fat with __e__cho __a__symmetry and __l__east‐squares estimation (IDEAL) method with fat‐saturated T1‐weighted (T~1~W) and T~2~W fast spin‐echo (FSE) and short‐TI inversion recovery (STIR) imaging of the brachial pl

## Abstract A method for suppressing fat in fast spin‐echo imaging with the three‐point Dixon technique is described. The method differs from the three‐point Dixon method used in conventional spin‐echo imaging in that the readout gradient instead of a radio‐frequency pulse is shifted. This method p