Gradient-induced water-suppression techniques for high-resolution NMR spectroscopy

The combination of a frequency nonselective excitation suppression method (1337 sequence) with selective excitation followed by gradient-induced dephasing of water transverse magnetization yielded suppression ratios of greater than 10,000: 1. The need for gradient preemphasis and correction of Bo fi

## Abstract A modification to the well‐established non‐quaternary suppression pulse sequence used in high‐resolution solid‐state NMR is proposed which allows the inclusion of a ‘flip‐back’ pulse. The utility of such a sequence is demonstrated by spectra obtained using the standard and modified NQS

A method (NIMBLE) for obtaining optimum B0 field homogeneity at voxels located away from the magnet isocenter for use in volume-selected NMR spectroscopy is described. Voxels may be shimmed using only first-order X, Y, and Z shims to produce three-dimensional shim current maps, thus avoiding shim co

was evaluated for in vivo brain proton surface coil NMR spectroscopy. The studies were performed on cat brain using surface coils at 4.7 T. The sequence produced brain spectra with adequate water suppression, and a broader excitation profile than sequences which form spin echoes using 133 1 pulses (

A new method for selective observation of scalar coupled metabolites by either zero-quantum coherence transfer or polarization transfer with concurrent water suppression in a single acquisition was developed. Gaussian shaped RF pulses were used to selectively generate multiple-quantum and zero-quant