Time-of-flight effects in MR imaging of flow

## Abstract ## Purpose To evaluate the feasibility of using time‐of‐flight (TOF) imaging to directly measure hindlimb blood flow in a mouse model of peripheral vascular disease. ## Materials and Methods Four tubes were imaged simultaneously (diameters = 0.39 mm, 0.59 mm, and two at 1.46 mm) with

## Abstract ## Purpose To evaluate the capability of flow‐sensitive black blood (FSBB) acquisition to visualize the lenticulostriate artery (LSA) in comparison with time‐of‐flight (TOF) angiography. ## Materials and Methods Twenty‐one healthy subjects (13 males and 8 females, 19–44 years old) we

## Abstract Many MR flow imaging techniques that have been successfully applied in the carotid arteries and intracranial circulation have been tested in the peripheral and abdominal vasculature. The results have been variable. The lack of success can be attributed to different imaging requirements

## Abstract Effects of magnetization transfer were evaluated In vitro on circulating blood. Various velocities were tested from 0 to 72 cm/second. Decrease signal intensity caused by magnetization transfer effects was inversely proportional to inflow velocity. It reached 10% at very low velocities

The multidimensional partition model, which combines the k-space description of magnetic resonance imaging pulse sequences with a partition concept, has been developed to model flow-related effects. A partition represents the magnetization created due to excitation by a given radiofrequency pulse. I