A critical analysis of quantitative pharmaco-electroencephalography begins with parametrization into variables. The determination of frequency bands according to clinical criteria should be reconsidered. Alternatives may be the determination of factor scores or the definition of frequency bands based on factor analysis. If the latter procedure is used, the clinical alpha-band is subdivided into a lower (alpha 1F = 8,5-10.5 HZ) and an upper (alpha 2F = 10.5-12.5 HZ) part. Furthermore parts of the clinical theta-band (and the delta-band are combined into the delta F-band (1.5-6.0 HZ), for awake healthy volunteers with an occipital alpha-rhythm. Existing concepts of vigilance for the awake stages are not contradictory to the following observations: the factor structure of EEG relative power spectrum variables shows a negative correlation of slow alpha-frequencies with those in the delta F- and beta 3F-band. There is also a negative correlation between slow and fast alpha-wave relative power values.
This study tests the hypothesis that glutamate receptors are altered in the brains of alcoholics as a result of chronic alcohol neurotoxicity. Release of the neurotransmitter glutamate after seizures or brain ischemia may damage postsynaptic neurons by increasing calcium flux through N-methyl-D-aspartate (NMDA) receptor-gated ion channels. Alcohol has two opposite effects on glutamate receptor ion channel complexes, depending upon the duration of exposure. Acute exposure to alcohol inhibits ion flow through these receptor-channel complexes, whereas chronic exposure up-regulates the number of these receptors and thereby increases ion flow. Acute withdrawal from alcohol results in hyperexcitability and seizures in the presence of up-regulated channels, thereby making postsynaptic neurons vulnerable to excitotoxic damage. We selected 13 histologically normal brains from alcoholics and 13 brains from controls from our brain bank that were matched for age, postmortem interval, and storage time. Maximal binding and affinities of glutamate receptor subtypes were determined by quantitative autoradiography in the superior frontal cortex, Brodmann area 8. The most alcohol-sensitive subtype, NMDA receptor-channel complexes, were modestly but consistently increased in alcoholics. This included agonist sites (NMDA-sensitive [3H]glutamate), and antagonist site ([3H]CGP-39653), and a [3H]MK-801 binding site in the channel interior, although the increase of the latter did not reach statistical significance. Age, autopsy delay, time in storage, liver diseases, thiamine deficiency, CNS medications, and various diseases causing acute and chronic hypoxia did not significantly affect receptor density or affinity. In contrast, the other two glutamate channel subtypes, AMPA and kainate receptors, were not significantly different in alcoholics compared with controls. In conclusion, chronic alcoholism moderately increases the density of the NMDA subtype of glutamate receptors in the frontal cortex. This up-regulation may represent a stage of alcohol-induced chronic neurotoxicity.
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