1H Detected in Vivo13C NMR Spectroscopy and Imaging at 2T Magnetic Field: Efficient Monitoring of 13C-Labeled Metabolites in the Rat Brain Derived from [1-13C]-Glucose

## 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 Localized ^13^C NMR spectra were obtained from the rat brain in vivo over a broad spectral range (15–100 ppm) with minimal chemical‐shift displacement error (<10%) using semi‐adiabatic distortionless enhancement by polarization transfer (DEPT) combined with ^1^H localization. A new grad

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

## Abstract For fast ^13^C metabolite mapping in rat brains, ^1^H‐detected ^13^C NMR spectroscopy using gradient‐enhanced heteronuclear multiple‐quantum coherence and ^1^H echo planar spectroscopic imaging were combined. ^13^C glucose and 3‐/4‐^13^C‐Glu/Gln images of rat brain were successfully con