Measurement of skeletal muscle motion in vivo with phase-contrast MR imaging

## Abstract MR elastography (MRE) has been shown to be capable of non‐invasively measuring tissue elasticity even in deep‐lying regions. Although limited studies have already been published examining __in vivo__ muscle elasticity, it is still not clear over what range the __in vivo__ elasticity val

## 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 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 Myocardial motion of healthy mice and mice with myocardial infarction was assessed in vivo by phase contrast (PC) cine MRI. The imaging module was a segmented fast low angle shot (FLASH) sequence with velocity compensation in all three gradient directions. To accomplish additional motio

## Abstract The purpose of this work was to investigate the use of an intravascular contrast agent to determine perfusion kinetics in skeletal muscle. A two‐compartment kinetic model was used to represent the flux of contrast agent between the intravascular space and extravascular extracellular spa