Correction for acceleration-induced displacement artifacts in phase contrast imaging

## Abstract ## Purpose To correct for displacement artifacts in 3D phase contrast imaging. ## Materials and Methods A 3D phase contrast pulse sequence was modified so that displacements of velocity measurements were restricted to one direction. By applying a postprocessing method, displaced meas

## Abstract A theoretical framework for understanding acceleration‐induced errors in phase‐contrast magnetic resonance velocity measurements has been developed. An important result of this framework is the interpretation of acceleration‐induced velocity errors as displacement artifacts due to the d

## Abstract Chemical exchange saturation transfer (CEST) imaging provides an indirect detection mechanism that allows quantification of certain labile groups unobservable using conventional MRI. Recently, amide proton transfer (APT) imaging, a variant form of CEST imaging, has been shown capable of

## Abstract ## Purpose To evaluate differences in velocity and flow measurements in the aorta between accelerated phase‐contrast (PC) magnetic resonance imaging (MRI) using SENSE and k‐t BLAST and in peak velocity to Doppler ultrasound. ## Materials and Methods Two‐dimensional PC‐MRI perpendicul