Three-dimensional motion tracking with volumetric phase contrast MR velocity imaging

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

## Abstract Phase‐contrast magnetic resonance velocity‐encoding techniques were used to track two‐dimensional movement of skeletal muscle tissue. Axial and longitudinal planes in the forearms of five healthy volunteers were imaged during cyclic flexion and extension of the fingers, and the resultin

## Abstract The ability to measure skeletal muscle motion with phase‐contrast magnetic resonance (MR) imaging was tested with a motion phantom that simulated muscle activity. Quantitative analytic data on unidimensional, bidirectional skeletal muscle motion measured in vivo was obtained in four hea

## Abstract A method of reordering phase and slab encoding that can be used to address some of the inherent problems due to motion in three dimensional imaging is described and implemented. The method is shown to be more robust with respect to reducing artifacts resulting from several fundamental t

Characterization of myocardial stress and strain is necessary for a complete understanding of myocardial function. The precise quantification of regional myocardial strain is complicated by its time-varying pattern and reglonal varfation resulting from the anisotropy of the myocardium and by complex