Basic Mechanisms of the EEG
Published in June 1993
Book
Hardback
350 pages
978-3-7643-3596-0 (ISBN)
Description
What is the source of the electroencephalogram, or "EEG", the human electrical brain activity that manifests itself in scalp recordings? Although encephalography is still one of the most widely-used measurement techniques in neurological diagnostics and neurophysiological research, the generators in the brain of the EEG recordings are still widely unknown. This volume, commemorating the discovery of EEG by Hans Berger, brings together the latest ideas and findings of international experts in neurological and neurophysiological research. Combining new scientific findings with thorough state-of-the-art reviews of the basic mechanisms of the EEG, the chapters examine the relationships between cortical single-cell activity and EEG, the significance of subcortical structures and transmitter systems to the dynamics of the EEG, the generation of cortical field potentials, the relevance of glial cell activities and cell metabolism to EEG. These relationships are explored in their neurophysiological, clinical and neuropathological aspects.
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Zschocke | Speckmann
Basic Mechanisms of the EEG
Book
09/1993
Birkhauser Boston Inc
€213.99
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Content
Mechanisms of EEG generation - historical and actual aspects, Heinz Caspers; the EEG - a cryptogram, Hellmuth Petsche; generation of cortical field potentials, E.-J. Speckmann and U. Altrup; propagation of electrical activity - nonlinear associations and time delays between EEG signals, Jan Pieter Pijn and Fernando Lopes da Silva; tests of a new model for normal and abnormal EEG phenomena, John S. Barlow; chaotic EEG dynamics, alpha and gamma rhythms related to brain function, Erol Basar et al; glial and neuronal generators of sustained potential shifts associated with electrographic seizures, George G. Somjen; is the EEG correlated with the brain metabolism and cerebral blood flow?, Wolfgang Kuschinsky; functional anatomy of the thalamus, W. Lierse; intracellular studies of thalamic neurons generating sleep delta waves and fast (40 Hz) oscillations during arousal, Mircea Steriade et al; relations between the EEG of the cortex, thalamus and periaqueductal gray in patients suffering from epilepsy and pain syndromes, H.G. Wieser and A.M. Siegel; the alpha activity of NREM sleep, Wolfgang Scheuler et al.