Spatial regularization of flow patterns in magnetic resonance velocity mapping

## Abstract Magnetic resonance phase velocity mapping has unrivalled capacities for acquiring __in vivo__ multi‐directional blood flow information. In this study, the authors set out to derive both spatial and temporal components of acceleration, and hence differences of pressure in a flow field us

## Abstract ## Purpose To assess constant and pulsatile flow velocity within the lumen of a peripheral NiTi stent using phase velocity mapping for comparison with independent assessments of flow velocity in a phantom model. ## Materials and Methods A 9 × 20‐mm stent installed in flexible tubing

## Abstract Objective evidence for coronary lesion significance can be obtained with ischemic stress testing. Since flow‐limiting stenoses have already undergone compensatory vasodilatation to maintain flow, the response to vasoactive stimulation is dampened. The degree of response limitation is re

Experiments on model and real soil blocks designed to assess the feasibility of using magnetic resonance imaging for three-dimensional mapping of the time-varying spatial distribution of water in structured soils are reported. The results show that, notwithstanding inherent problems in imaging natur