Truncation Artifacts in Magnetic Resonance Imaging

## Abstract Some of the important features of how pulsatile flow generates artifacts in three‐dimensional magnetic resonance imaging are analyzed and demonstrated. Time variations in the magnetic resonance signal during the heart cycle lead to more complex patterns of artifacts in 3D imaging than i

## Abstract Unexpectedly large fluctuations in signal intensity wen identified in the functional MRI (FMRI) of normal subjects breathing pure oxygen intermittently. To test the hypothesis that the signal changes were due to fluctuating concentrations of gaseous (paramagnetic) oxygen in the magnetic

## Abstract We present an analysis of how flow oblique to the frequency‐encoding direction generates displacement artifacts in MR imaging and show that for flow which has constant velocity between the start of the phase encoding and the center of the echo it is possible to eliminate these artifacts

## Abstract Magnetic susceptibility artifact has been documented with various implants and devices, which require appropriate identification with screening of patients prior to subjecting them to magnetic resonance examination. We performed cardiovascular magnetic resonance (CMR) examination of the

## Abstract ## Purpose To reduce Gibbs ringing artifact in three‐dimensional (3D) articular knee cartilage imaging with linear prediction (LP). ## Materials and Methods A reconstruction method using LP in 3D was applied to truncated data sets of six healthy knees. The technique first linearizes