An observation of 23Na NMR triple-quantum dynamic shift in solution

Triple quantum (TQ)-filtered 23Na NMR spectroscopy and the shift reagent, TmDOTP5-, have been used to evaluate the contributions of intra- (Na+i) and extracellular (Na+e) sodium to the TQ-filtered signal in the rat liver, in situ. Na+e contributed significantly to the total TQ-filtered signal in liv

## Abstract A method is suggested whereby the shifted extracellular triple quantum filtered ^23^Na signal of an isolated organ is completely eliminated. The method is based on the long relaxation time of the triple quantum coherence and on its fast evolution rate. When the carrier frequency is set

The measurement of the dipolar interaction of 23 Na with hydroinformation all experiments were carried out with magnetic gen nuclei in glycerol solution is reported. The method, applied field strengths of 8.47 and 11.74 T. The instruments used previously to 7 Li (U. Eliav and G. Navon, J. Magn. Reso

The utility of triple-quantum (TQ)-filtered 23 Na NMR spectroscopy for discriminating between intra-and extracellular Na + (Na + i and Na + e , respectively) in a solid tumor in vivo was evaluated using TmDOTP 5-as a 23 Na shift reagent. Infusion of 80 mM TmDOTP 5-without added Ca 2+ produced baseli

## Abstract The triple quantum filtered ^23^Na NMR method is applied here to measure the effects of EIPA, a specific inhibitor of the Na^+^/H^+^antiporter, on relative intracellular sodium concentrations in isolated working hearts at baseline, during ischemia, and at subsequent reperfusion. In anal