T1 and T2 relaxation times of the major 1H-containing metabolites in rat brain after focal ischemia

## Abstract ## Purpose To measure T~1~ and T~2~ relaxation times of metabolites in glioma patients at 3T and to investigate how these values influence the observed metabolite levels. ## Materials and Methods A total of 23 patients with gliomas and 10 volunteers were studied with single‐voxel two

## Abstract Proton __T__~2~ relaxation times of cerebral water and metabolites were measured before, during, and after transient forebrain ischemia in rat at 9.4 T using localized proton magnetic resonance spectroscopy (^1^H‐MRS) with Hahn echoes formed at different echo times (TEs). It was found t

## Abstract ## Purpose To measure ^1^H relaxation times of cerebral metabolites at 3 T and to investigate regional variations within the brain. ## Materials and Methods Investigations were performed on a 3.0‐T clinical whole‐body magnetic resonance (MR) system. T2 relaxation times of N‐acetyl as

At the high field strength of 7 T, __in vivo__ spectra of the human brain with exceptional spectral quality sufficient to quantify 16 metabolites have been obtained previously only in the occipital lobe. However, neurochemical abnormalities associated with many brain disorders are expected to occur

IP NMR spin-lattice (TI) and spin-spin (T2) relaxation times of phosphocreatine, ATP, inorganic phosphate, and phosphomonoesters have been measured in vivo at 4.1 T in rat brain and rat brain tumors implanted on nude mice. The relaxation data were acquired using a phase-cycled saturation-recovery sp

## Abstract Knowledge of __T__~1~ relaxation times can be important for accurate relative and absolute quantification of brain metabolites, for sensitivity optimizations, for characterizing molecular dynamics, and for studying changes induced by various pathological conditions. ^1^H __T__~1~ relaxa