Intracellular sodium concentration and accumulation during ischemia in isolated perfused rat and guinea-pig hearts

The feasibility of monitoring intracellular sodium changes using Na triple quantum filtered NMR without a chemical shift reagent (SR) was investigated in an isolated rat heart during a variety of interventions for Na(i) loading. Perfusion with 1 mM ouabain or without K+ present in the perfusate for

The present study describes an experimental setup that enables continuous measurement of cellular volumes in isolated organs. The procedure is a modification of a recently reported method that uses multinuclear NMR measured by 59Co NMR of cobalticyanide and 1H NMR of water in isolated rat hearts at

## Abstract The effect of ischemia and reperfusion on transverse relax ation (__T__~2~) of intracellular Na^+^ (Na^+^~i~) was measured with 5‐min time resolution in isolated rat hearts. Na~i~ __T__~2~ relaxation was biexponential with 28 ± 7% fast (T~2f~)and 72 ± 7% slow (__T__~2s~) decay. This rat

## Abstract The hyperfine shift reagent, TmDOTP^5−^, was used to resolve the ^39^K NMR resonances of intra‐ (K~i~^+^) and extracellular (K~e~^+^) potassium in isolated, perfused guinea pig hearts. [K~i~^+^] as measured by ^39^K NMR was 25.9 ± 10.3 mM, compared with 114.4 ± 10.8 mM as measured by at