Reliable detection of macromolecules in single-volume 1H NMR spectra of the human brain

## Abstract Short‐echo‐time magnetic resonance spectra of human brain contain broad contributions from macromolecules. As they are a priori of unknown shape and intensity, they pose a problem if one wants to quantitate the overlying spectral features from low‐molecular‐weight metabolites. On the ot

## Abstract The difference between ^1^H NMR spectra obtained during eu‐ and hyperglycemia exhibited well‐resolved glucose peaks between 3 and 4 ppm as demonstrated by comparison with solution spectra. Estimated increases were consistent with recent ^13^C NMR quantitations of intracerebral glucose.

## Abstract Vitamin C (ascorbate) is well established as an essential nutrient that functions as an antioxidant. Since it is present in the human brain at detectable concentrations, this study was designed to detect and quantify ascorbate in the human brain in vivo using ^1^H NMR spectroscopy (MRS)

## Abstract Localized __in vivo__ proton NMR spectra of volume elements of minimal size (13 × 13 × 13 mm^3^) were obtained in human brain with a whole‐body imager working at 1.5‐T field strength. By use of an optimized version of the 90°‐180°‐180° volume selection method, well‐resolved proton spect

Macromolecules contribute broad "background" resonances to the 1 H NMR brain spectra at short echo times. The application of long echo times is the most widely used method for removing these resonances. Here, it is demonstrated that these background resonances may be suppressed at short echo times u