Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0917798 (cerebral ischemia)
17,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activity of electroencephalogram (EEG) and cortical somatosensory evoked potential (SEP) was suppressed during cerebral ischemia in rats subjected to the 4-vessel occlusion. Considerable variations were demonstrated in the decrease of phosphocreatine and ATP concentration during ischemia among the rats measured with 31P-NMR, accompanied with cerebral acidification. Hypercapnia, induced in the rats studied by the inhalation of a gas mixture of 30-40% CO2, suppressed the activity of EEG and cortical SEP. The cerebral acidification observed during the ischemia was more severe than that under the hypercapnia, implying that cerebral acidification is one of the possible causes for the decrease in the electrical activity of the brain during ischemia.
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PMID:Effect of cerebral ischemia and hypercapnia on cerebral pH studied with 31P-NMR and electrical activity in rat brain. 272 63

The effects of cerebral ischemia on cerebral microvascular reactivity and prostanoid synthesis were examined in chloralose-anesthetized newborn pigs. Microvascular responses and periarachnoid cerebrospinal fluid (CSF) prostanoid concentrations were determined between 10 and 140 min after a 20-min period of total cerebral ischemia, as well as in sham-control piglets without cerebral ischemia. After cerebral ischemia, the decrease in pial arteriolar diameter in response to topical norepinephrine (10(-4) M) was similar in sham (-27 +/- 6%) and postischemic (-25 +/- 5%) piglets. However, the increase in pial arteriolar diameter in response to hypercapnia (10% CO2 ventilation) that was observed in sham piglets (+21 +/- 5%) was absent after ischemia (-2 +/- 3%). In contrast, dilations of pial arterioles in response to topical prostaglandin (PG)E2 (at 100 ng PGE2/ml: sham, +13 +/- 3%; postischemia, +21 +/- 4%) and topical isoproterenol (10(-6) M) (sham, +29 +/- 4%; postischemia, +23 +/- 3%) were not decreased by prior cerebral ischemia. In sham piglets, norepinephrine and hypercapnia produced increases in cortical periarachnoid prostanoid concentrations, whereas after cerebral ischemia, neither stimulus increased cortical periarachnoid prostanoid concentrations. The results are consistent with the hypothesis that failure of hypercapnia to dilate pial arterioles after cerebral ischemia results from the inability of this stimulus to increase cerebral vasodilator prostanoid synthesis.
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PMID:Cerebral ischemia alters cerebral microvascular reactivity in newborn pigs. 275 Sep 42

The present study was designed to determine the extent to which the brain stem neural networks, normally capable of synchronizing the sympathetic nerve discharge (SND) into 2- to 6- and 10-Hz rhythmic fluctuations, contribute to the control of autonomic reactions during brain hypoxia and/or hypercapnia. Vertebral, cardiac, and renal nerve discharges were recorded electrophysiologically in 34 anesthetized, curarized, and artificially ventilated cats. The sympathetic nerve responses to cerebral ischemia (elicited by reducing the blood supply to the brain), intracranial pressure elevation (Cushing reaction), and systemic asphyxia were tested with special focus on the rhythmic structure of the SND. It has been found that there are two phases of SND changes during cerebral ischemia differing mainly in the frequency content of the signals and less in the compound action potential amplitude. During the first phase the rhythmic generators controlling the tonic sympathetic outflow are more strongly activated, which is reflected in a stronger, more regular, and more widespread manifestation of these rhythms on the efferent neurograms. After some time the normal SND structure abruptly changes to a desynchronized activity with loss of the three main sympathetic rhythms and responsiveness to baroreceptor reflex activation. The same stereotyped changes can be observed regardless of the way in which the brain hypoxia and/or hypercapnia has been produced. Nor does the denervation of peripheral baro- and chemoreceptors substantially alter the general pattern of the responses.
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PMID:Two-phase change of sympathetic rhythms in brain ischemia, Cushing reaction, and asphyxia. 291 4

Effects of ischemia (20 min) on cerebral cortical prostanoid synthesis and microvascular responses to hypercapnia and topical acetylcholine were examined in anesthetized newborn pigs. Pial arteriolar dilation in response to hypercapnia (10% CO2 ventilation, 10 min) was absent 2 h after ischemia and reversed toward constriction by 24 h postischemia. In sham control piglets, hypercapnia increased cortical periarachnoid fluid prostanoid concentrations. After ischemia, hypercapnia did not affect prostanoid concentrations on the brain surface. Acetylcholine (10(-3) M)-induced pial arteriolar constriction was reversed toward dilation 24 h after cerebral ischemia. Further, acetylcholine-induced prostanoid synthesis was markedly attenuated after ischemia. We conclude that cerebral ischemia-reperfusion alters cerebral prostanoid synthesis and microvascular control in newborn pigs. These abnormalities persist for at least 24 h.
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PMID:Ischemia alters cerebral vascular responses to hypercapnia and acetylcholine in piglets. 291 33

Regional cerebral blood flow (rCBF) during hypertension and hypercapnia was studied in 33 patients with putaminal hemorrhage, using a single photon emission CT by means of Xenon 133 inhalation method. The results obtained were as follows: 1) A significant relationship was obtained between the impairment of autoregulation, CO2 reactivity and the degree of cerebral ischemia, i. e., in most cases, these vascular responses were impaired in cases of ischemia showing the rCBF decrease over 30 to 40% of normal values. However, there were particular cases with cerebral ischemia of over 30 to 40% in which autoregulation seemed to be preserved in the acute stage, which was considered to be the similar phenomenon as so called "false autoregulation". 2) The cerebrovascular responses such as autoregulation and CO2 reactivity were preserved in cases of less than 50 ml of hematoma volume. In cases with 50 to 74 ml of hematoma volume however, autoregulation and CO2 reactivity were mostly impaired, especially in the affected hemisphere rather than the non-affected, in the period of 1 to 2 months from the onset. Furthermore, the impairment was also involved in both hemispheres if the hematoma was over 75 ml in volume. 3) The cerebrovascular responses were markedly impaired in the region of basal ganglia of the affected hemisphere which corresponded well to the hematoma site. 4) There was a close correlation between the cerebrovascular responses and the activity of daily life (ADL), i. e, the prognosis might be poor in cases with global impairment, but which seemed to be rather good in cases with local impairment. It might be concluded, from the results mentioned above, that the study of autoregulation and CO2 reactivity is probably significant in estimating the pathogenesis and the treatment of cerebral ischemia following hypertensive putaminal hemorrhage.
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PMID:[A study of cerebrovascular autoregulation and CO2 reactivity in putaminal hemorrhage]. 310 23

Changes in common carotid blood flow (CCF) and resistance index (RI), calculated from velocity waveforms by a noninvasive pulsed Doppler technique, were measured during apneic episodes and voluntary breath holding in five sleep apnea patients (SA) and during breath holding in five normal subjects (N). During apneic episodes averaging 27 s, CCF was reduced by 9% and RI increased by 4%, both trends being related to apneic duration. Internal carotid artery measurements in one SA indicated more dramatic changes in blood flow and RI than noted in CCF. During breath holding, CCF decreased significantly in SA but not in N, and RI showed a smaller reduction in SA. These changes in CCF and RI during sleep apnea are similar to those noted in anesthetized dogs where vasomotor waves and associated apneas were induced by elevating intracranial pressure. Previously reported recordings of ventilatory and systemic cardiovascular responses in SA are similar to these recordings in dogs, and it is therefore proposed that vasomotor responses to intermittent cerebral ischemia and hypercapnia may be the principle event in SA and periodic breathing only a secondary consequence of the prevailing autonomic dysfunction.
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PMID:Sleep apnea and autonomic cerebrovascular dysfunction. 310 21

Hyperventilation therapy is often recommended after an episode of global cerebral ischemia (cardiac arrest), even though several workers have shown that under such circumstances the cerebral vasculature is unresponsive to changing PaCO2. However, no study has examined the effects of prolonged PaCO2 changes. We therefore studied the cerebrovascular effects of a 3-h period of continuous hypercarbia (40 to 45 torr) or hypocarbia (15 to 20 torr) in cats resuscitated from 12 min of electrically induced ventricular fibrillation. There were no differences in postresuscitation cerebral blood flow (CBF) or EEG, but intracranial pressure was lower in the hypocapnic animals. Furthermore, hypocapnic cats retained some CBF responsiveness to varying PaCO2 levels, while no such response was noted in previously hypercapnic animals. These findings suggest that some measurable changes in postarrest cerebrovascular behavior can result from prolonged hypocapnia (possibly related to tissue pH alterations). Whether such changes will have clinical utility is unclear.
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PMID:Cerebrovascular effects of prolonged hypocarbia and hypercarbia after experimental global ischemia in cats. 392 54

In this study we examined the reactions of cerebral vessels to hypercapnia and hypoxia during the recovery period following cerebral ischemia. We used ventilated, lightly anesthetized rats and induced complete ischemia by CSF compression, incomplete ischemia by bilateral carotid occlusion combined with hypotension. After 15 min of ischemia and 60 min of recirculation the animals were rendered hypercapnic or hypoxic for 2-3 min and local CBF was then measured autoradiographically with 14C-iodoantipyrine. Following complete ischemia vascular CO2 responsiveness was abolished or attenuated in most structures analysed. However, there was a considerable interstructural heterogeneity. For example, in the cerebellum and the red nucleus flow rates were observed which approached values obtained in hypercapnic control animals, whereas CO2 responsiveness was abolished in several cortical areas and hippocampus. The response to CO2 following incomplete ("forebrain") ischemia varied considerably. In the cerebral cortices areas with low flow rates were often mixed with hyperemic zones, and in most structures that had very low flow rates during ischemia, CO2 responsiveness was lost or grossly attenuated. Structures that had suffered moderate or only mild ischemia had better retained or completely preserved CO2 response. The cerebrovascular reaction to hypoxia was found to be attenuated in most, but not abolished in any of the structures examined. In general, the vascular response to hypoxia was better preserved than that to hypercapnia. Reactivity was similar following complete and incomplete ischemia. As observed during hypercapnia, there were pronounced interstructural variations with considerable increases in flow rates e.g. in the substantia nigra and the cerebellum.
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PMID:Cerebral circulatory responses to hypercapnia and hypoxia in the recovery period following complete and incomplete cerebral ischemia in the rat. 641 51

The effect of asphyxia on seizures was determined in neonatal dogs. In normoxic (paralyzed and ventilated) neonatal dogs, bicuculline-induced seizures produced significant elevations of arterial blood pressure, PO2, glucose, lactate, and epinephrine. Cerebral blood flow increased severalfold; brain glucose, adenosine triphosphate (ATP), and phosphocreatine (PCr) did not decrease significantly. In contrast, seizures during asphyxia were associated with hypoxia, hypotension, hypercarbia, and acidosis. Significant cerebral ischemia developed. Brain glucose, ATP, and PCr were significantly depleted. Complete oxygen deprivation during neonatal seizures exhausts brain energy stores, which leads to cessation of seizure activity.
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PMID:Physiologic and metabolic alterations associated with seizures in normoxic and asphyxiated neonatal dogs. 647 9

Reactive hyperemia has been characterized in many vascular beds, but little is known about quantitative characteristics of reactive hyperemia in the cerebral circulation. We measured velocity of blood flow and pial artery diameter to characterize the time course of reactive hyperemia and used microspheres to study regional blood flow in the brain. Cerebral ischemia was produced by raising intracranial pressure or by arterial occlusion with a cuff around the neck. Five seconds of ischemia produced virtually maximal peak reactive hyperemia, and 30 s of ischemia produced maximal peak reactive hyperemia. During reactive hyperemia after 30 s of cerebral ischemia, there was a three- to fourfold increase in cerebral blood flow. The magnitude of reactive hyperemia was greater in gray matter than in white matter. Minimal resistance during reactive hyperemia, after ischemia produced by arterial occlusion, is similar to minimal resistance during seizures or hypercapnia, which suggests that reactive hyperemia produces maximal vasodilatation. Oxygen saturation of cerebral venous blood increased almost twofold during reactive hyperemia, which indicates that factors in addition to venous (and presumably tissue) oxygen are important determinants of reactive hyperemia. In summary, 1) we have characterized the time course of reactive hyperemia in the cerebral circulation; 2) reactive hyperemia after arterial occlusion produces maximal cerebral vasodilatation; and 3) there is marked heterogeneity of the response, with much larger increases in flow in cortical gray matter than white matter.
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PMID:Characteristics of reactive hyperemia in the cerebral circulation. 669 88


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