Identification of scyllo-inositol in proton NMR spectra of human brain in vivo

## Abstract Natural abundance ^13^C NMR spectra obtained from 144‐cm^3^volumes in the human brain contained well‐resolved resonances of myo‐inositol after 60 min of data accumulation. A mean concentration of 7.2 ± 0.5 pmol/g (±SE, n = 7) was calculated from the comparison with phantoms. ^13^C NMR s

## Abstract The peak at 3.35 ppm in the ^1^H‐NMR spectrum characteristic for __scyllo__‐inositol may be a marker for cerebral pathology, although it has a well‐known constant concentration relative to __myo__‐inositol. Such a peak was observed with an intensity at least 300% above normal in the bra

Metabolic alterations in bovine brain homogenate were examined as a function of post mortem interval (PMI) using high-resolution proton NMR spectroscopy. In particular, while lactate, glutamate, glutamine, creatine and inositols as well as the total concentration of trimethyl-ammonium compounds rema

## Abstract Our previous solution studies of the proton relaxation properties of glycogen H1 have shown significant dipolar cross–relaxation with intra‐ring H2 and inter‐ring H4′ protons characterized by a correlation time τ~c~= 2.7 × 10^−9^ s. This leads to a significant negative Nuclear Overhause