Accuracy and reproducibility in phase contrast imaging using SENSE

## Purpose: To evaluate reproducibility of total cerebral blood flow (cbf) measurements with phase contrast magnetic resonance imaging (pcmri). ## Materials and methods: We repeated total cbf measurements in 15 healthy volunteers with and without cardiac triggering, and with and without repositio

## Abstract A technique for rapid in‐plane phase‐contrast imaging with high signal‐to‐noise ratio (SNR) is described. Velocity‐encoding is achieved by oscillating the readout gradient, such that each 2DFT phase‐encode is acquired three times following a single RF slice‐selective excitation. Three i

## Abstract Conventional phase‐contrast velocity mapping in the ascending aorta was combined with __k‐t__ BLAST and __k‐t__ SENSE. Up to 5.3‐fold net acceleration was achieved, enabling single breath‐hold acquisitions. A standard phase‐contrast (PC) sequence with interleaved acquisition of the velo

## Abstract ## Purpose To examine the precision of cine‐phase contrast (PC) magnetic resonance imaging (MRI) techniques as applied to the quantification of three‐dimensional knee joint kinematics. ## Materials and Methods The knee joints of eight healthy volunteers were studied using three diffe

## Abstract We review new strategies for the development of Gd^3+^‐based T1‐relaxation agents and paramagnetic chemical exchange saturation transfer (PARACEST) “sensing” contrast agents (SCAs) designed specifically to detect small molecules or enzymatic activity in living systems. The first class o

## 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