Relation between lipolysis and glycolysis during ischemia in the isolated rat heart

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

A decrease in the apparent diffusion coefficient (ADC) of water is important in the detection of acute brain disorders, yet it is unknown whether changes in myocardial ADCs hold similar potential. Consequently, in this study a STEAM pulse sequence was modified in order to measure the ADCs of water a

Free radical species have been implicated as important agents involved in myocardial ischemie and reperfusion injuries. In our study, formation of free radicals was measured directly with electron paramagnetic resonance spectroscopy before ischemia, during 10 minutes of global ischemia, and 20 secon

## Abstract Intracellular sodium (Nal) concentrations rose immediately and progressively during ischemia in the isolated heart. The intracellular double quantum filtered sodium coherence (DQ) intensity also increased during ischemia. However, when normalized for Nai, the DQ intensity began to fall