Alpha 2 adrenergic control of ventilation in the rat]

In anaesthetized rats, ventilatory stimulation induced by phentolamine, an alpha sympatholytic agent, emphasizes the role of some adrenergic mechanisms in the control of the respiratory centres activity. Phentolamine (5 and 10 mg.kg-1, iv) stimulates ventilation after a 4 s latency, tidal volume and respiratory rate being both increased. A same response can also be provoked 10 min later, by a second identical iv administration, systemic blood pressure remaining then stable at its previous low level. Hyperventilation is also observed when phentolamine is injected in totally denervated rats, without any remaining baro- or chemosensitivity. Stimulation is thus due to a central activity in relation with the release of inhibitory influences. Phentolamine also causes hyperventilation after prazosin pretreatment indicating that the alpha 1 adrenergic blockade is not involved in the post-phentolamine stimulation. This is an alpha 2 adrenergic transmission dependent mechanism. Variation of the systemic blood pressure is not the main mechanism involved in the hyperventilation induced by phentolamine. Meanwhile, baroreceptor activity modulates the central response to the drug, as shown by the negative influence of the post-vasopressin arterial hypertension. Hyperoxia is also a modulating factor acting by two ways: an inhibition of the peripheral chemoreceptors activity is added to an arterial hypertension. On the other side, activation of these chemoreceptors by almitrine bismesilate increases the respiratory responses to phentolamine. As already shown by one of us (Lagneuax, 1986), phentolamine pretreated rats are more responsive to hypoxia and to almitrine. Moreover, these phentolamine pretreated rats are protected against cardiovascular collapses and against apnea, frequently observed during hypoxia without CO2 compensation.     

The role of cerebral regulatory structures in the formation of human EEG

This article generalizes the results of many years’ studies of the EEG of patients with tumorous lesions in the diencephalic, brainstem, and limbic structures, which fulfill the regulatory function in ensuring integral brain activity. The specific features of the inclusion of individual structures under investigation in the organization of the intra- and interhemispheric relations of cortical biopotentials were demonstrated against the background of diffuse changes in the biopotentials that reflect the systemic character of neurodynamic reorganizations when the regulatory brain structures are involved in the pathological process. This study expands the idea of the predominant functional connection of the diencephalic structures with the right hemisphere and brainstem structures with the left one with determination of the regional specific features of changes in the intrahemispheric EEG coherences. The distinguishing features of intercentral relations when the limbic structures are involved in the pathological process show similarity with the neurodynamic reorganizations in patients with lesions in both diencephalic and (even more so) brainstem structures. Universal elements were detected in the formation of integral adaptive reactions of the brain with lesions in its regulatory structures, which reflects their close functional interaction and makes it possible to consider them the individual links of an integral regulatory system. The study revealed reciprocal changes in various forms of electrical activity, which reflects reciprocation of interaction of individual regulatory structures. This is one of the EEG equivalents of the formation of adaptive-compensatory cerebral reactions. The specificity of influence of the studied regulatory structures are clearly seen in situations of their morphofunctional isolation observed during cerebral coma. In these conditions, when the cortex is functionally inactive, the authors demonstrated the dynamic character of changes in interhemispheric asymmetry, which reflects the dominance of individual links of the regulatory system playing the role of supreme regulator of life support of the body in critical states.     

Effect of aminazine on cerebral circulation]

In acute experiments on anesthetized cats intravenous injection of chloromazine (2--3 mg/kg) caused a reduction in the tone of the cerebral vessels and decreased the general arterial pressure. The cerebral blood circulation increased with the stable arterial pressure or its moderate decrease. With a significant fall of arterial pressure the cerebral blood flow proved to decrease.     

The role of adrenergic structures of the posterior hypothalamus in the regulation of the blood coagulation system functions

Under conditions of chronic experiment, the stimulation of alpha- and beta-adrenergic structures of the posterior hypothalamus was performed. The same procedure was repeated after inactivation of these structures. The results of experiments have shown a specificity of the influence of alpha- and beta- adrenergic structures upon the separate blood coagulation phases and the heterogeneity of those structures distribution in the posterior hypothalamic region.     

Functional role of nitric oxide in the neural control of circulation

The authors analyze the published data and results of their own experiments, and, on the basis of this information, interpret the role of nitric oxide in neural inhibitory control of circulation.     

Reactive changes in adrenergic innervation of the cerebral arteries after activation of the cholinergic mechanisms]

Magistral arteries of the brain and pia mater have been studied in cats 24-72 h after administration of the cholinesterase inhibitor (phosphacol, 600 mcg/kg). Cholinesterase activity in blood has been checked by means of the potentiometric titration method, and acetylcholinesterase (AChE) content in varicosities of the perivascular nervous fibers--cytophotometrically in preparations treated after Karnovsky--Roots histochemical method. Cholinesterase activity of blood homogenates in test animals is 42 +/- 10%, and acetylcholinesterase content in varicosities of the perivascular nervous fibers--23.5 +/- 2.3% in comparison to the norm. Catecholamines in adrenergic nervous elements are revealed treating them with glyoxylic acid. Distribution density (DD) of histochemically active nervous elements is determined, as well as their specific content of the mediator according to luminescent intensity (LI) of varicosities of nervous fibers. The data obtained in intact animals serve as the control. In the experiment DD and LI reach 127 +/- 9% and 154 +/- 15%, respectively, as compared to the control. Signs of the adrenergic nervous apparatus activation in the experiment reflect a compensatory reaction in response to increase of dilatatory cholinergic influences to vessels under conditions of AChE activity.     

Effects of cerebrocrast on local cerebral circulation and EEG in cats with cerebral hemorrhage]

In experiments on awake cats before and after intracerebral hemorrhage influence of cerebrocrast and nimodipine intravenous infusion (1 microgram/kg-1/min-1 during 60 min) on cerebral blood flow (CBF) in the cortex, thalamus and reticular formation and power of (alpha + beta)-, theta-, and delta-waves was investigated. During cerebrocrast infusion increasing CBF and improving bioelectrical activity were demonstrated.     

Assessment of human regional cerebral circulation by venocclusive rheoplethysmoencephalography]

A possibility was shown of using the method of venocclusion rheoplethysmoencephalography (RPEG) for the assessment of the extent of changes in the cerebral circulation (CC) in individual regions of the cerebral hemispheres of a practically healthy man in various functional loads. The changes in the CC was recorded in per cent in respect to its initial background value. Data on the increase (by 114%) of the CC in the centralparietal region of the left cerebral hemisphere in movement with the right hand and on its reduction (by 45%) in sound stimulation. In the adjacent (temporal) region the changes in the CC were of other character.     

Pathological and compensatory processes in the cerebral circulation during blood transfusion shock]

In experiments on dogs the intravenous injection of heterogenous blood resulted in a decrease of total arterial pressure, weakening of the brain blood flow, fall of Po2 and pH in the brain cortex. A simultaneous constriction if inner carotid arteries is depending on direct action on the vascular wall of heterogenous proteins and on a release in it of physiologically active substances, such as serotonin. Fine pial arteries were dilated by the compensatory mechanism that was not associated with a decrease of intravascular and with direct action of hypoxia or acid metabolites on vascular walls. It was proposed that the trigger mechanism of this vasodilatation is hypoxic changes of metabolism in the nervous tissue.     

Action of somatostatin (SRIF) on circulation and its interaction with the adrenergic system in rats]

An effect of somatostatin on arterial blood pressure, isolated heart, and its interaction with adrenergic system have been studied in rats. It was found, that somatostatin does not exert any significant effect on blood circulation. It modifies however catecholamines action. Somatostatin decreases the activity of alpha-adrenergic receptors agonist (norepinephrine), and potentiates the activity of beta-adrenergic receptors agonist (isoprenaline).