In vivo spectroscopic quantification of the N-acetyl moiety, creatine, andcholine from large volumes of brain gray and white matter: Effects of normal aging
A. Pfefferbaum et al., In vivo spectroscopic quantification of the N-acetyl moiety, creatine, andcholine from large volumes of brain gray and white matter: Effects of normal aging, MAGN RES M, 41(2), 1999, pp. 276-284
Volumetric proton magnetic resonance spectroscopic imaging (MRSI) was used
to generate brain metabolite maps in 15 young and 19 elderly adult voluntee
rs. All subjects also had structural MR scans, and a model, which took into
account the underlying structural composition of the brain contributing to
each metabolite voxel, was developed and used to estimate the concentratio
n of the N-acetyl-moiety (NAc), creatine (Cr), and choline (Cho) in gray ma
tter and white matter. NAc concentration (signal intensity per unit volume
of brain) was higher in gray than white matter and did not differ between y
oung and old subjects despite significant gray matter volume deficits in th
e older subjects. To the extent that NAc is an index of neuronal integrity,
the available gray matter appears to be intact in these older healthy adul
ts. Cr concentrations were much higher in gray than white matter and signif
icantly higher in the old than young subjects. Cho concentration in gray ma
tter was also significantly higher in old than young subjects. Independent
determination of metabolite values rather than use of ratios is essential f
or characterizing age-related changes in brain MRS metabolites. Published 1
999 Wiley-Liss, Inc.