0000000000711569
AUTHOR
Aldenhoff Jb
Imbalance of Neuronal Excitability as a Cause of Psychic Disorder
Electrical activity of neurons is characterized by an equilibrium between excitation and inhibition, maintained by negative feedback mechanisms at the cellular, synaptic and neurohumoral level. A central mechanism is the interaction between excitatory calcium currents and inhibitory potassium currents, linked by intracellular calcium concentration. These conductances are located in the somato-dendritic part of the neuron and fundamentally influence spontaneous activity and the processing of synaptic input. The electrical equilibrium is altered by different neuromodulators, such as biogenic amines, peptides, and steroids and by several drugs. Neuromodulatory desequilibration towards increase…
A Nonlinear Approach to Brain Function: Deterministic Chaos and Sleep EEG
In order to perform a nonlinear dimensional analysis of the sleep electroencephalogram (EEG), we applied an algorithm proposed by Grassberger and Procaccia to calculate the correlation dimension D2 of different sleep stages under Lorazepam medication versus placebo. This correlation dimension characterizes the dynamics of the sleep EEG and it estimates the degrees of freedom of the signal under study. We demonstrate that slow-wave sleep depicts a much smaller dimensionality than light or rapid eye movement (REM) sleep, and that Lorazepam does not alter the EEG's dimensionality except in stage II and REM.