In vivo single-shot, proton-localized 13C MRS of rhesus monkey brain

## Abstract With the use of localized ^13^C MRS in conjunction with [1‐^13^C]‐D‐glucose infusion, it is possible to study brain glycogen metabolism in vivo. The purpose of this study was to validate in vivo ^13^C MRS measurements by comparing them with results from a standard biochemical assay. To

To assess putative magnetization transfer effects on the proton resonances of cerebral metabolites in human brain, we performed quantitative proton magnetic resonance spectroscopy (2.0 T, STEAM, TR/TE/TM = 6000/40/10 ms, LCModel data evaluation) of white matter (7.68 mL, 10 healthy young subjects) i

## Abstract The application of in vivo ^13^C MR spectroscopy to mouse brain models is potentially valuable for improving the understanding of cerebral carbohydrate metabolism and glutamatergic neurotransmission in various neuropathologies. However, the low sensitivity of ^13^C nuclei and contaminat

## 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

(13)C MRS studies at natural abundance and after intravenous 1-(13)C glucose infusion were performed on a 1.5-T clinical scanner in four subjects. Localization to the occipital cortex was achieved by a surface coil. In natural abundance spectra glucose C(3beta,5beta), myo-inositol, glutamate C(1,2,5