Correction of concomitant magnetic field-induced image artifacts in nonaxial echo-planar imaging

When a linear magnetic field gradient is used, spatially higher-order magnetic fields are produced to satisfy the Maxwell equations. It has been observed that the higher-order magnetic field produced by the readout gradient causes axial echo planar images acquired with a horizontal solenoid magnet t

## 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

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

## Abstract Geometric distortion, signal‐loss, and image‐blurring artifacts in echo planar imaging (EPI) are caused by frequency shifts and __T__ relaxation distortion of the MR signal along the __k__‐space trajectory due to magnetic field inhomogeneities. The EPI geometric‐distortion artifact asso

## Abstract A technique for acquiring magnetic field maps simultaneously with gradient‐recalled echo‐planar time‐course data is described. This technique uses a trajectory in which the central part of __k__‐space is collected twice. For a 64 × 64 image acquired with a 125‐kHz bandwidth, a field map