Motion and image artifacts of various intracranial aneurysm clips in a magnetic field

## Abstract ## Purpose To evaluate artifact sizes at 3 T compared to at 1.5 T, and to evaluate the influence of scanning parameters with respect to artifact size on a 3‐T magnetic resonance imaging (MRI) system. ## Materials and Methods Two aneurysm clips and five shunt valves were imaged in a w

Echo-planar images acquired in nonaxial planes are often distorted. Such image distortion has limited the applications of the echo-planar imaging (EPI) technique. In this article, it is demonstrated that a considerable amount of the distortion is caused by the higher-order magnetic field concomitant

## Abstract To obtain the cross section of an object by using an X‐ray CT scanner, many projections of the object with various angles are required. This also takes time for scanning. If the object moves during this period, the projections would be disturbed causing motion artifact in the CT image.

## 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

The quality of spectra in (1)H magnetic resonance spectroscopy (MRS) is strongly affected by temporal signal instabilities during the acquisition. One reason for these instabilities are hardware imperfections, e.g., drifts of the main magnetic field in superconducting magnets. This is of special con