Эффекты стимуляции инфралимбической коры на реакции нейронов каудальной вентролатеральной ретикулярной формации, вызванные ноцицептивным раздражением толстой кишки крысы

Abstract

Listen

Translate article

The infralimbic cortex of the cerebral hemispheres is characterized by an extensive system of afferent and efferent connections with cortical, subcortical, bainstem structures and the spinal cord, which ensure its participation in the higher mechanisms of regulation of the functions of the visceral sphere. At the same time, the involvement of the infralimbic cortex in the mechanisms of cortical modulation of visceral nociception, both acute and chronic, seems to be poorly understood. In this work, using an experimental model of abdominal pain on two groups of urethane anesthetized rats (normal rats and rats with experimental colitis), we studied the effects of electrical stimulation of the infralimbic cortex on the neuronal (responses of neurons of the caudal ventrolateral reticular formation) and systemic (changes in arterial blood pressure) reactions induced by nociceptive distension of the colorectal region of colon. It has been found that in rats of both groups nociceptive colorectal distension was accompanied by both excitatory and inhibitory reactions of neurons of the ventrolateral reticular formation, as well as depressor changes in blood pressure. Electrical stimulation of the infralimbic cortex increased excitatory and decreased inhibitory neuronal responses to visceral painful stimulation and also enhanced nociceptive depressor responses in both normal rats and rats with colitis. This effect was more pronounced in the group of healthy animals. In general, the influence of the infralimbic cortex on nociceptive neurons of the ventrolateral reticular formation and vascular responses to visceral pain can be considered as facilitating visceral nociception. Quantitative differences in the effects of cortical stimulation in normal rats and rats with colitis are possibly related to differences in the brain processing of acute visceral pain and pain complicated by chronic inflammation. One of the possible mechanisms of cortical influence on visceral nociception may be modulation of the current activity of nociceptive neurons of the caudal ventrolateral reticular formation, directly or indirectly involved in the descending control of visceral pain.