Fast phase-contrast velocity measurement in the steady state

## 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 ## Purpose: To evaluate the feasibility of using un‐gated, real‐time MRI for venous blood velocity mapping in the calf, comparing an interleaved spiral __k__‐space sequence (ISP) against a standard segmented gradient echo sequence (GRE). ## Materials and Methods: A flow phantom with

## Abstract Magnetic resonance (MR) phase‐contrast (PC) flow measurements are degraded by partial volume errors when the spatial resolution is low, in particular when a large difference in signal magnitude exists between the fluid and the surrounding material. The latter is often the case in phanto

## Abstract ## Purpose: To assess the accuracy and repeatability of Fourier velocity encoded (FVE) M‐mode and two‐dimensional (2D) phase contrast with through‐plane velocity encoding (2D‐PC) for pulse wave velocity (PWV) evaluation in the descending aorta using five different analysis techniques.

## Abstract The phase‐mapping method of phase‐contrast magnetic resonance angiography is shown to be based on an implicit assumption that the intravoxel velocity distribution is symmetric about its mean velocity. The effect of asymmetric distributions on the accuracy of quantitative average velocit