Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
91,303 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

We report the vasocapacitance of the cerebral circulation, as determined by cerebral blood flow reactivity to induced hypercapnia using fluoromethane positron emission tomography, in 32 patients with unilateral anterior circulation transient ischemic attacks. A hemodynamic subset of eight patients, defined based on exertional, positional, orthostatic, or cardiac dysrhythmic induction of symptomatology, is characterized by multiple (median, 4.5 attacks per patient), brief (median, 2.5 minutes per attack), continued episodes of hemispheric ischemia including focal limb shaking. Symptomatic middle cerebral artery flow territories show significantly lower (p less than 0.04) and more asymmetric (p = 0.036) vasodilatory responses in the hemodynamic subset. Although ipsilateral internal carotid artery occlusion is more prevalent in the hemodynamic subset, the features of age, mean arterial blood pressure, carbon dioxide values, serum glucose, serum hematocrit, and number or type of risk factors do not differ significantly between groups. These studies of vasocapacitance help validate clinical criteria for cerebral hemodynamic events with an objective physiologic measurement.
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PMID:Cerebral vasocapacitance and TIAs. 278 50

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

Cerebral blood flow was studied in dogs to ascertain whether preexisting superficial temporal artery-middle cerebral artery bypass could preserve hypercapnic reactivity following acute ischemia and whether postischemic-delayed revascularization would restore hypercapnic reactivity. In six dogs flow was preserved and some degree of hypercapnic response remained following proximal occlusion with a patent bypass. During complete ischemia (bypass occluded) there was no hypercapnic reactivity in the ischemic zone. Significant flow was restored to the ischemic area following bypass reopening, but a cerebral blood flow decrease was seen with subsequent hypercapnia. In the opposite (control) hemisphere hypercapnia always produced significant cerebral blood flow increases. These data support the superiority of prophylactic over delayed superficial temporal artery-middle cerebral artery bypass in appropriate clinical situations.
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PMID:Effects of hypercapnia on cerebral blood flow following prophylactic and delayed experimental superficial temporal artery-middle cerebral artery bypass. 292 60

Thromboembolic brain ischemia was produced in dogs using an autologous blood clot model. The effect of postembolic treatment with flunarizine and streptokinase on hemispheric cerebral metabolic rate for oxygen (CMRO2), oxygen extraction ratio (OER), and cerebral blood flow (CBF) was studied by positron emission tomography (oxygen-15 technique) 24 hours after the insult. We studied five groups of experimental dogs and compared them with a control group of nonembolized dogs. Group I received no treatment, Group II was treated locally with 500,000 IU streptokinase starting 30 minutes after the insult, Group III received streptokinase locally 30 minutes after the insult and 0.1 mg/kg i.v. flunarizine immediately after the insult and 2 hours later, Group IV received flunarizine as Group III, and Group V was orally pretreated with 0.5 mg/kg/day flunarizine during 2 weeks preceding embolization. Compared with the contralateral hemisphere, in the embolized hemisphere a significant reduction of CMRO2 (-25% to -40%) and CBF in normocapnia (-35%) and hypercapnia (-50%) was observed in Groups I, II, and V. In Groups III and IV, CMRO2, OER, and CBF of the embolized hemisphere were within the normal range during normocapnia and hypercapnia; the extent of the ischemic lesions was markedly less than in the other groups of experimental dogs. We conclude that flunarizine treatment after experimental thromboembolic stroke had a favorable influence on brain tissue. Chronic preventive flunarizine treatment failed to have a beneficial effect.
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PMID:Streptokinase treatment versus calcium overload blockade in experimental thromboembolic stroke. 292 75

Pial artery pressure was measured in anesthetized control cats and in animals subjected to 1 h of global ischemia and 6 h of recirculation. Cerebral blood flow (CBF) was measured with the intraarterial 133Xe technique before and after ischemia, and lumped segmental resistances upstream and downstream to the pial artery were calculated. In the control brain, upstream resistance was 1.30 +/- 0.28 and downstream resistance 0.94 +/- 0.1 mm Hg ml-1 100 g min. During the postischemic hypoperfusion period, both resistances significantly increased, indicating that hypoperfusion constitutes a dysregulation of both large extracerebral and small intracerebral vessels. Hypercapnia induced an increase of CBF in the control brain and was accompanied by a fall in downstream resistance, demonstrating intracortical vasodilation. By contrast, hypercapnia did not provoke changes in either CBF or segmental resistances in the hypoperfusion period. In conclusion, during the postischemic hypoperfusion period, both extra- and intracortical resistances are increased and vascular reactivity to CO2 is abolished.
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PMID:Pial artery pressure after one hour of global ischemia. 310 May 44

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

Brain tissue acidosis is a result of either an increase in tissue PCO2 or an accumulation of acids produced by metabolism. Severe hypercapnia (arterial PCO2 around 300 mm Hg) may cause a fall in tissue pH to around 6.6 without any deterioration of the cerebral energy state or morphologic evidence of irreversible cell damage. In severe ischemia and tissue hypoxia, anaerobic glycolysis leads to lactic acid accumulation. This is aggravated by hyperglycemia and by a (trickling) residual blood flow. Under such circumstances lactate concentration in the tissue may increase to levels above 20 to 25 mumol/g (tissue wet weight), causing a decrease in pH to around 6.0. If lactic acidosis during ischemia or hypoxia reaches these excessive levels, metabolic and functional restitution is severely hampered upon subsequent recirculation and reoxygenation. In these circumstances cell morphology shows signs of irreversible damage. Conversely there is less damage if severe tissue lactic acidosis can be hindered. The deleterious effect of excessive lactic acidosis may be related to an influence on the following: synthesis and degradation of cellular constituents; mitochondrial function; cell volume control; postischemic blood flow; and stimulation of pathologic free radical reactions. Possibilities for therapeutic interventions include the avoidance of hyperglycemia, inhibition of glycolysis, and measures for increasing the buffer capacity of the brain.
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PMID:Brain acidosis. 392 94

Three harbor seals Phoca vitulina richardsi and five spotted seals Phoca vitulina largha were used in studies of acute episodes of local myocardial ischemia in open-chest, anesthetized animals and of coronary blood flow and regional function as indicated by left ventricular segment dimensions during experimentally simulated dives of conscious, instrumented animals. We observed that seal myocardium, in which there are few coronary anastomoses, responded to brief local occlusion with prompt local dysfunction and systolic bulging; coronary flow in the nondiving seal oscillated irregularly and declined with spontaneous apnea and related falling heart rate; flow continued to oscillate but was much reduced during dives, frequently ceasing entirely for periods as long as 45 s; ventricular segment dimension shortening was reduced intermittently during dives; and elevated heart rate induced during dives by cardiac pacing or by administration of atropine diminished or eliminated the reductions in coronary blood flow. Responses of seal heart reflect the reduction in cardiac metabolic demand during diving and the seal's myocardial adaptation for enhanced anaerobic glycolysis. The seal heart can maintain mechanical function during dives with minimal coronary perfusion, despite the progressive and ultimately profound hypoxia, hypercapnia, and acidosis. Reduced cardiac metabolism, copious glycolytic reserves, and metabolite washout by intermittent brief bursts of coronary blood flow are apparently sufficient to support continued cardiac function, even though the seal heart has little tolerance for acute localized ischemia.
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PMID:Coronary blood flow and myocardial segment dimensions during simulated dives in seals. 407 82


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