Reduction of ringing and blurring artifacts in fast spin-echo imaging

## Abstract The purpose of this work is to obtain a better understanding of motion artifacts in fast spin‐echo imaging, in order to eventually identify efficient ways of suppressing them. To do so, the point spread function of a moving point was calculated for fast spin‐echo imaging, and experiment

## Abstract It has been observed that fast spin‐echo (FSE) images with a large field of view (>40 cm) in certain directions exhibit unusual ghosting artifacts that cannot be eliminated with existing ghost removal methods. These artifacts have been related to a higher‐order magnetic field perturbati

## Abstract A new technique with which susceptibility artifact in gradient‐echo imaging can be reduced substantially by use of a tailored RF pulse is described. The proposed technique can ideally be applied to the case where high local magnetic field inhomogeneity is dominated by the susceptibility

The method to reduce the ghost artifact in echo-planar imaging (EPI) using a phase correction derived from the image data (M. H. Buonocore and L. Gao, Magn. Reson. Med. 38, 89 (1997)) is generalized to multishot (interleaved) EPI, where the artifact takes the form of multiple ghosts. The method is s

The three-dimensional multi-slab fast spin-echo (3DFSE) sequence is a time-efficient technique for volume scanning which provides images with a good signal-to-noise ratio, adjustable contrast weighting, and high spatial resolution. Unfortunately, it suffers from slice-to-slice amplitude variation as

## Abstract The purpose of our study was to evaluate the effect of respiratory motion on the image contrast of T2‐weighted fast spin‐echo (FSE) images of the liver as well as the reduction of motion artifact using respiratory triggering of the data acquisition. We imaged the livers of 10 healthy vo