Spatially localized intermolecular zero-quantum coherence spectroscopy for in vivo applications

## Abstract Resolution enhancement in NMR spectra, acquired in spatially or temporally varying magnetic fields, can be achieved with 2D pulse sequences detecting intermolecular zero‐quantum coherences (iZQC). The insensitivity towards long range field distortions renders these methods particularly

## Abstract A method is described to selectively measure lactate __in vivo__ using proton zero quantum coherence techniques. The signal from lipids is eliminated. A surface coil and additionally slice selective localization are used. The resulting spectra demonstrate the good performance of the met

A method for spatially three-dimensional (3D) localized twodimensional (2D) 1 H-13 C correlation spectroscopy, localized HSQC, is proposed. This method has the following special feature in the preparation period. The 180°( 13 C) and 180°( 1 H) pulses are separated in time, and the 180°( 13 C) pulse

## Abstract Brown adipose tissue and white adipose tissue depots are noninvasively characterized in vitro and in vivo in healthy and obese mice using intermolecular zero‐quantum coherence transitions between lipid and water spins. Intermolecular zero‐quantum coherences enable selective detection of

## Abstract In this work, a new double quantum filter for glutathione (GSH) editing is introduced, combined with the point‐resolved spectroscopy localization sequence (PRESS), and demonstrated in vivo. Compared to the conventional double quantum coherence filter, the new filter has two major advant