Broadband proton decoupling in human 31p NMR spectroscopy

The feasibility of broadband proton decoupled in uiuo I3C NMR spectroscopy of humans at 1.5 T was explored. A dual surface coil set-up was used, comprising a circular "C coil and a butterfly 'H decoupling coil placed at one third of its width away from the body. A calibration procedure was introduce

## Abstract Proton‐decoupled ^31^P and ^1^H MRS was used to quantify markers of membrane synthesis and breakdown in eight pediatric patients with untreated brain tumors and in six controls. Quantitation of these compounds in vivo in humans may provide important indicators for tumor growth and malig

Intensity modulated 31P NMR spectra were obtained using the pulse sequence published by Patt and Shoolery. This attached proton test (APT) technique for signal assignment could be applied to systems with long-range heteronuclear couplings in P- 0-C--H fragments. In a model system derived from the al

## Abstract A four‐coil phased‐array ^31^P NMR receiver was designed and tested for human cardiac applications, to determine whether the combination of relatively high signal‐to‐noise ratio (SNR) and large field of view produced in ^1^H imaging is also realized for __in vivo__ ^31^P spectroscopy. S

A data processing method, based on double integral calculations, to obtain decoupled highresolution NMR spectra in the weak scalar coupling approximation is described. Data are recorded from conventional spin echo experiments using di †erent values of the delay of the echo. The collected echoes are