Spectral editing in 31P NMR spectra of human brain

Although the measurement of the pH of biological systems using the 31P NMR response of inorganic phosphate is well known, sometimes in blood absolute determination of the intensity and position of the Pi resonance is precluded by overlap from the doublet resonance of 2,3-diphosphoglycerate. Three te

## Abstract In order to assess the influence of longitudinal relaxation on previously reported variations in ^31^P NMR signals during brain development, we used an accelerated two‐point technique to determine __T__^1^ at 2.35 Tesla in 8 min. Comparison between 10 normal neonates (age range 37–46 we

Bayesian spectrum analysis for parameter estimation is a rigorous statistical (non-Fourier-based) method. Herein the Bayesian quadrature NMR model is introduced and applied to analysis of 3'P NMR time domain data from in vivo rat brain. Immunity to both the brain spectrum "baseline hump" and the pha

## Abstract A single‐voxel proton NMR J‐difference editing method for discriminating between the 1.31 ppm resonances of lactate (Lac) and threonine (Thr) in human brain in vivo at 3 T is reported. One double‐band and two triple‐band Gaussian 180° RF pulses, all with a bandwidth of 15 Hz, were emplo

Phosphatidylcholine, phosphatidylethanolamine, phosphatidylserine, phosphatidylinositol, sphingomyelin, and ethanolamine plasmalogen represent the six most abundant phospholipids of brain cell membrane. The ratio of the phospholipid contents (phospholipid profile) of the brain is remarkably consiste