NMR study on [1-13C]glucose metabolism in the rat brain during hypoxia

## Abstract Localized, water‐suppressed ^1^H‐[^13^C]‐NMR spectroscopy was used to detect ^13^C‐label accumulation in cerebral metabolites following the intravenous infusion of [1,6‐^13^C~2~]‐glucose (Glc). The ^1^H‐[^13^C]‐NMR method, based on adiabatic RF pulses, 3D image‐selected in vivo spectros

## Abstract Energy metabolites in rat brain under the same level of hypoxia were monitored by ^31^P NMR in both horizontal and vertical magnets. The changes in PCr, P|, and pHI in the vertical setting toward the end of hypoxia were significantly larger and the recovery in the horizontally held anim

Resolved localized nuclear magnetic resonance (NMR) signals of 1 H bound to 13 C label in the carbon positions of glutamate C4, C3 and glutamine C4, C3, as well as in aspartate C3, lactate C3, alanine C3, ␥-aminobutyric acid C3, and glucose C1 were simultaneously observed in spectra obtained from ra

\({ }^{13}\) C NMR approach was taken to study the biotransformation of \((R)\) - and \((S)-\left[2-{ }^{13} \mathrm{C}, 2-{ }^{2} \mathrm{H}\right]\) ibuprofen-CoA in isolated rat liver mitochondria. The \({ }^{13} \mathrm{C}\) chemical shift induced by \({ }^{2} \mathrm{H}\) substitution for the \

Glucose metabolism in control and estrogen stimulated rat uteri was investigated using "C NMR spectroscopy. By employing an NMR adapted perifusion system, and developing protocols and methods based on the application of [l-'3C]glucose labeling, it was possible to measure, with a temporal resolution