Chronic cardiotoxicity of adriamycin studied in a rat model by 31P NMR

Abnormal cardiac energy metabolism has been postulated as a mechanism for adriamycin induced cardiotoxicity. This study was designed to determine high energy phosphate stores at rest and with hemodynamic stress in perfused rat hearts after animals had been chronically exposed to adriamycin (2 mg/kg

## Abstract __In vivo__ ^31^P nuclear magnetic resonance (NMR) spectroscopy provides unique opportunities to study the biochemistry of an organ within the intact animal in a totally noninvasive way. We have used __in vivo__ and __in vitro__ ^31^P NMR spectroscopy to study steady state changes in th

## Abstract ^31^P NMR spectroscopy was used serially to study rejecting (ACI→LEW) and nonrejecting (ACl→ACl) orthotopic liver transplants in rats. Recipients were evaluated on post‐transplant days 1,3, 5, 7, 9, and 11. The relative changes in phosphomonoester (PME), inorganic phosphate (P~i~), high

## Abstract In this work, ^31^P phosphorus NMR (^31^P NMR) studies of the brain have been conducted in rats acutely and chronically intoxicated with ethanol. In both groups, changes in levels of high‐energy phosphates were observed: increase of phosphocreatinine (PCr)/β AaTP and PCr/inorganic phosp

The phosphorus N M R spectra of isolated perfused rat liver displays a prominent inorganic phosphate peak at 2.76 f 0.05 ppm relative to liver glycerolphosphocholine at 0.49 ppm. From titration curves of phosphoruscontaining compounds this corresponds to a pH of 7.4. The spectra also display a shoul

We examined the route of uptake of 2-aminoethylphosphonate (NEthPo) and of phenylphosphonate (PhePo; 10 mM each) in perfused liver by 31 P-NMR. Uptake of NEthPo was concentrative. The rate of uptake was reduced to 21 AE 2% (n = 3; all percentages refer to control rates) by substituting choline for N