Absolute quantification of phosphorus metabolite concentrations in human muscle in vivo by 31P MRS: a quantitative review

## Abstract A method is described for quantifying the cellular phosphorus‐31 (^31^P) concentration in human skeletal muscle based on RARE (rapid acquisition with relaxation enhancement) image intensities. The ^31^P concentrations were calculated using relaxation rates, RF coil spatial characteristi

The difference in concentration of phosphorylated metabolites in muscles with different fiber composition was studied in vivo by localized 31P nuclear magnetic resonance spectroscopy in the rat hindlimb. 120-160 pl volumes were selected in regions containing the soleus and gastrocnemius muscles. Con

Free cytosolic [Mg'] can be assessed in vivo by "P MRS from the chemical shift of &ATP which in turn depends on the fraction of total ATP complexed to Mg2+ ions. The reliability of these in vivo measurements depends on the availability of an appropriate in vitro calibration to determine the limits o

## Abstract We present a method for MR detection of ^17^O‐labeled phosphate groups. The method employs the __T__~2~ relaxivity effect of ^17^O on ^31^P nuclei to distinguish between ^17^O‐labeled and unlabeled phosphate groups, and uses spin‐echo (SE) acquisitions with RF decoupling at the ^17^O fr

## Experimental and clinical studies have led to the hypothesis The liver is the primary site of oxidative metabolism in humans. Ingestion of ethanol and drugs such as phenobarbi-that the phosphodiester signal obtained by 31 P magnetic resonance (MR) spectroscopy may be a specific marker for the