A 31p nuclear magnetic resonance study in vivo of metabolic abnormalities in rats with acute liver failure

NMR spectroscopy was used to study renal allografts in rats subjected to allograft rejection, cyclosporine toxicity, ischemia, and ureteral obstruction. Parameters of relative peak areas and intracellular pH were accurately distinguished among the different causes of graft dysfunction. Ureteral obst

We investigated serially in vivo the ratios of phosphorylated metabolites and the intracellular pH in the livers of rats fed ethanol chronically to evaluate the relation between changes in energy metabolism and the progression of alcoholic liver disease with nuclear magnetic resonance spectroscopy.

To study the effects of acute volume loading on myocardial metabolic and mechanical function, seven cats were volume loaded via anastomosis of the abdominal aorta to the vena cava (AV shunt). Metabolic effects were evaluated with 31P nuclear magnetic resonance (NMR). Mechanical function was evaluate

Eighteen patients with acetaminophen poisoning were studied with magnetic resonance spec- troscopy to measure phosphorus-containing metabolites in their livers. The concentrations of all magnetic resonancdetectable metabolites fell in parallel with a decrease in the synthetic ability of the liver, i

I n uiuo "phosphorus nuclear magnetic resonance spectroscopy was uaed to measure the hepatic metabolic state in various groups of rats given ethanol, a control liquid diet or a solid chow diet. The use of selective presaturation pulses applied to the broad phosphorus reaonancea of immobile phospholi

## Abstract Spatially resolved ^13^P magnetic resonance spectroscopy (MRS) at 4.7 T was applied to noninvasively assess liver phosphorus metabolites in a biochemically well‐characterized model of hepatotoxicity induced by injection of a sublethal dose of D‐galactosamine (galN). A newly developed hy