Acute experiments were performed on rabbits to study the responses of neurons in the anterior, ventromedial, and posterior nuclei of the hypothalamus to single, paired, and rhythmic stimulation of the vestibular nerve and lateral vestibular nucleus of Deiters. The data obtained showed that neurons of the posterior nucleus of the hypothalamus were the most sensitive. Three types of response were seen from hypothalamic neurons, with short, long, and intermediate latent periods. This provides evidence that ascending afferent spike activity from the lateral vestibular nucleus of Deiters to the hypothalamus is mediated by mono-, oligo-, and polysynaptic pathways.
Acute experiments on white rats anesthetized with Nembutal (40 mg/kg, i.p.) were performed with extracellular recording and analysis of background spike activity from neurons in the supraoptic nucleus of the hypothalamus after exposure to electromagnetic radiation in the millimeter range. The distribution of neurons was determined in terms of the degree of regularity, the nature of the dynamics of neural streams, and the modalities of histograms of interspike intervals; the mean neuron spike frequency was calculated, along with the coefficient of variation of interspike intervals. These studies demonstrated changes in the background spike activity, predominantly affecting the internal structure of the spike streams recorded. The major changes were in the duration of interspike intervals and the degree of regularity of spike activity. Statistically significant changes in the mean spike frequencies of neuron populations in individual frequency ranges were also seen.
We studied the effect of continuous vibration and treatment with licorice root (Glycyrrhiza glabra L.) on peripheral blood red cells in rabbits. Active substances of licorice root accelerated metabolism in cells of the bone marrow erythroid stem, enhanced compensatory reserve of the organism, and increased animal's resistance to stress.
Acute experiments on Nembutal-anesthetized (40 mg/kg, i.p.) white rats with extracellular recording and analysis of baseline spine activity of neurons in the fastigial nucleus of the cerebellum were performed in normal conditions and after exposure to vibration for 5, 10, and 15 days. The distribution of neurons in terms of the regularity and dynamics of spike flows and the modality of interspike interval histograms were determined, along with the mean neuron spike frequency and the coefficient of variation of interspike intervals. The results showed that the most significant changes in neuron activity in fastigial nucleus cells were formed during the first ten days of vibration. On day 15, there was a tendency for measures to return to control levels.
Data obtained in the studies reported here provide evidence that during exposure to vibration for 30 days, feeding with licorice root significantly increases the activity of the anaerobic respiration enzyme succinate dehydrogenase (SDH) in the cerebral cortex, while activity in the subcortex, conversely, decreases. Combined treatment for 30 days with licorice root and vibration after a preliminary 30-day period of feeding with licorice root resulted in high SDH activity in all the structures studied, improving brain energy supply and metabolism and ameliorating the effect of vibration.
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