Analysis of MR phase-contrast measurements of pulsatile velocity waveforms

## Abstract The accuracy of MR phase contrast (PC) velocity measurements for unsteady flow has been quantitatively assessed. Spatially resolved velocity fields were measured in a long straight tube using a gated PC technique. and the resulting MR PC velocity data were compared with velocities deriv

The authors developed and experimentally verifled expressions that describe the frequency response of prospectively gated phase-contrast magnetic resonance velocity measurements. Both interleaved and noninterleaved phase-contrast techniques were evaluated. The primary determinants of the frequency r

## Abstract A flow phantom was used to study MR volume flow measurements for monophasic and triphasic waveforms over the flow range expected in peripheral arteries at rest and with exercise (2–24 mL/sec, __n__ = 50). The improvement in accuracy with phase‐correction image processing to eliminate er

## 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 Acceleration in blood flow can affect the accuracy of phase velocity measurements. Convective acceleration is due to changes in flow geometry and is independent of the time‐varying acceleration caused by flow pulsatility. To analyze the effects of convective acceleration on flow velocit

A method of computing trajectories of objects by using velocity data, particularly as acqulred with phase-contrast magnetic resonance (MR) Imaging. is presented. Starting from a specified location at one time point, the method recursively estimates the trajectory. The effects of measurement noise an