In our study, we tried, first, to elucidate whether induction of emotional behavior resulting from stimulation of the dorsomedial hypothalamus (DMH) influences the development of seizure activity in the course of epileptogenesis within the framework of fast kindling (stimulation of the hippocampus) and, second, to estimate if such stimulation is capable of modulating manifestations of generalized seizures under conditions of the pre-formed "full" epileptic syndrome. Stimulation of the DMH in the above two experimental situations resulted in significant suppression of both electrographic and behavioral manifestations of seizure activity. We hypothesize that the respective emotional reactions can be interpreted as phenomena of instinctive behavior having an adaptive defensive significance. These reactions are related to inhibitory processes providing protection from the development of seizure activity.
Emotional disturbances such as anxiety, fear, depression and aggression are often experienced by patients with temporal lobe epilepsy. These psychiatric symptoms may occur during or just after (postictal) a seizure; however, in some patients, they occur interictally (i.e. between seizures) and may profoundly change the individual's personality. Aside from confirming that a significant proportion of temporal lobe epileptics do suffer from interictal abnormal emotionality, there has been little progress to date in identifying the fundamental nature of these disturbances. There is a lack of evidences regarding the influence of activation of emotiogenic structures and emotional behavior on development of seizures. Kindling is a commonly used animal model for study of interictal emotionality and the effects of kindling and human epilepsy on emotional behavior are the primary focus of investigators and not vice versa. Respectively, the interrelation between emotional and seizure reactions was studied in Wistar albino rats. In our study we tried to elucidate: can emotional behavior evoked by stimulation of the emotiogenic zones of the hypothalamus or of induction of acute pain stress modify manifestations of generalized seizures within the period where a "full" epileptic syndrom has been stable formed earlier? Our leading hypothesis is as follow: the emotional disturbances can be considered as the emergence of instinctive behavior with an adaptive significance of defense and as a by-product of the inhibitory processes that build up to protect against the future occurrence of seizures.
Experiments were directed toward elucidation of the role of the thalamic reticular nucleus (R) in the modulation of generalized seizure reactions under kindling conditions and of the mechanisms mediating the effects of stimulation of the above nucleus on seizure activity. It was shown that activation of the thalamic R in rats limits generalization of the seizure reactions both in the course of development of seizures of limbic genesis (evoked by stimulation of the hippocampus) and under conditions of the existence of a pre-formed epileptic nidus. Tetanic stimulation of the R in cats under conditions of acute experiments induced significant facilitation of IPSPs in thalamo-cortical neurons of the ventrolateral thalamic nucleus. This effect is rather long-lasting and may be considered a mechanism providing blocking of generalized seizures under kindling conditions.
Introduction: The elucidation of the mechanism of action of radon on antioxidant processes needs further research, however, based on the results of the experiment, it can be concluded that studies on experimental animals have shown that, while inhaling Tskhaltubo water, the phenomenon of hormesis develops.
Methods: we placed 10 experimental animals (KM rats) in Radon contained mineral water spa`s sauna. Inhalation of radon-water was administered through the nose, for 10 minutes, once a day, in conditions of high humidity (about 90%) for 10 days.
Results: Hormesis regulates oxidative processes in the brain due to the activation of antioxidants expressed in a decrease in existing epileptic seizures and is expressed in the activation of Na / K-ATPase and specific glutaminergic neurons of the "attack center" of the hypothalamus but also with the activation of the entire adaptive-compensatory system.
Conclusion: Inhalation of radon contained water can be considered as a method of treatment with an anticonvulsant effect confirmed by experimental studies.
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