In vivo quantitation of water content in muscle tissues by NMR imaging

In trabecular bone the NMR linewidth is found to be governed by the magnetic field inhomogeneity arising from the difference in magnetic permeability between bone and marrow. T2\* was measured in vivo in the distal femur by interferometry and localized spectroscopy. Both methods showed T2\* to be in

## Abstract The regional distribution of lithium (Li) __in vivo__ was determined on a relative basis in the brain and muscle of rats by ^7^Li NMR imaging. Both high resolution ^7^Li NMR spectroscopy and atomic absorption spectrophotometry were performed on extracts of brain and muscle tissue from t

## Abstract __In vivo__ ^1^H NMR spectra of small volumes‐of‐interest (VOI) were localized in human soleus muscle (8 ml) and compared with volume selective spectra of subcutaneous fat tissue and femoral yellow bone marrow (2 ml). All examinations were performed by the double spin echo (PRESS) local

A full automatic and reliable method for NMR quantification is proposed. It is based on the linear prediction singular-value decomposition with continuous regularization [LPSVD(CR)] and on the enhancement procedure (EP) followed by LPSVD (EPLPSVD). Advantages of both methods have been considered. LP

## Abstract Chemical shifts were extracted from in vivo^3^‐dimensional^31^P NMR CIS data and pH images were constructed. The images could spatilly resolve tissue pH ranging from 5.8 to 7.2 (with uncertainty of 0.11‐0.17 pH unit)in an ischemia‐reperfusion model of diabetic rat calf muscles.