Assessment of contractile and noncontractile components in human skeletal muscle by magnetic resonance imaging

Information about changes in muscle composition has to date been primarily restricted to histological examination of biopsy samples or qualitative assessment of images obtained using avariety of techniques (e.g., ultrasound, CT, and MRI). We describe the development of a quantitative method for the

## 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

## Abstract ## Purpose To probe the potential and pitfalls of contrast medium first‐pass skeletal muscle perfusion imaging under reproducible stress conditions. ## Materials and Methods Magnetic resonance (MR) signal dynamics in calf muscle and lower‐leg arteries of 20 healthy volunteers were an

## Abstract A novel method based on interleaved localized ^31^P‐ and ^1^H MRS is presented, by which lactate accumulation and the accompanying changes in high energy phosphates in human skeletal muscle can be monitored simultaneously during exercise and recovery. Lactate is quantified using a local