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)

We investigated the effect of the known antagonist of platelet-activating factor (PAF), ginkgolide B, on postischemic neuronal damage in the rat. Neuronal necroses were evaluated in the hippocampus 7 days after a 10-min forebrain ischemia. Preischemic application of ginkgolide B (50 mg/kg p.o.) significantly reduced neuronal damage. It is suggested that the antagonism of PAF is responsible for this beneficial effect of ginkgolide B.
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PMID:PAF antagonist ginkgolide B reduces postischemic neuronal damage in rat brain hippocampus. 229 30

The role of adenosine in the development of ischemia induced pathological changes has been examined in Mongolian gerbils. A dramatic increase in the concentrations of adenosine, inosine and hypoxanthine was detected by microdialysis in the dorsal part of hippocampus and in the striatum immediately after 5 min bilateral occlusion of the carotid arteries. From a resting value of about 0.5 microM the concentration of adenosine increased to more than 10 microM. The adenosine levels became normalized within 30 min after ischemia. Inosine and hypoxanthine levels were higher and they increased and also returned towards control somewhat later than adenosine. A second occlusion resulted in a similar but somewhat smaller increase in purine levels. Carotid occlusion for up to 12 min had no major, lasting effect on the binding to adenosine A1-receptors in the CA-regions of the hippocampus, as determined by autoradiography. Neuronal and vascular changes (degeneration of neurons, mitochondrial destruction and ribosomal disaggregation, astroglial oedema) due to ischemia (3-12 min, followed by 48 h recirculation) was studied with light and electron microscopy in the selectively vulnerable CA1 area of hippocampus. In one series of experiments the adenosine antagonist theophylline (20 mg/kg i.p.), given 15 min prior to a 5 min occlusion, significantly enhanced the ischemia induced changes. In another experiment the adenosine uptake inhibitor propentofylline (HWA 285, 10 mg/kg), injected 15 min before a 12 min carotid occlusion, reduced the neuronal (90%) and astroglial changes (84%) due to ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protective effect of adenosine and a novel xanthine derivative propentofylline on the cell damage after bilateral carotid occlusion in the gerbil hippocampus. 236 91

We used a gerbil model of cerebral ischemia to study the effects of ion channel blockers on neuronal death resulting from enhanced glutamate release and calcium ion influx. The common carotid arteries of gerbils were occluded for 5 minutes and injected intraperitoneally immediately after ischemia with an alkylene iminopropylene derivative (glutamate blocker) or a piperazinyl ethanol derivative (calcium blocker) given at high or low doses. Two vehicle groups received saline or 0.2% methyl cellulose solution. Seven days later, the gerbils were perfusion-fixed and their brains were processed for histologic study. The number of neurons per millimeter (neuronal density) of the CA1 region was calculated, and the neuronal density in each group was statistically compared using the Mann-Whitney U test. Compared with a control group not subjected to carotid ligation, neurons of the two vehicle groups and the low-dose calcium blocker group were almost nonexistent in the CA1 region. Neuronal densities of the glutamate blocker group and the high-dose calcium blocker group were similar and were found to be within normal limits by statistical analysis. Our study shows that detrimental membrane phenomena and the incidence of delayed neuronal death may be counteracted by the systemic administration of these ion channel blockers after ischemic insult.
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PMID:Prevention of delayed neuronal death in gerbil hippocampus by ion channel blockers. 245 32

We studied functional disturbances following left middle cerebral artery occlusion in rats. Neuronal function was evaluated by [14C]2-deoxyglucose autoradiography 1 day after occlusion. We analyzed the mechanisms of change in glucose utilization outside the infarct using Fink-Heimer silver impregnation, axonal transport of wheat germ agglutinin-conjugated-horseradish peroxidase, and succinate dehydrogenase histochemistry. One day after occlusion, glucose utilization was remarkably reduced in the areas surrounding the infarct. There were many silver grains indicating degeneration of the synaptic terminals in the cortical areas surrounding the infarct and the ipsilateral cingulate cortex. Moreover, in the left thalamus where the left middle cerebral artery supplied no blood, glucose utilization significantly decreased compared with sham-operated rats. In the left thalamus, massive silver staining of degenerated synaptic terminals and decreases in succinate dehydrogenase activity were observed 4 and 5 days after occlusion. The absence of succinate dehydrogenase staining may reflect early changes in retrograde degeneration of thalamic neurons after ischemic injury of the thalamocortical pathway. Terminal degeneration even affected areas remote from the infarct: there were silver grains in the contralateral hemisphere transcallosally connected to the infarct and in the ipsilateral substantia nigra. Axonal transport study showed disruption of the corticospinal tract by subcortical ischemia; the transcallosal pathways in the cortex surrounding the infarct were preserved. The relation between neural function and the neuronal network in the area surrounding the focal cerebral infarct is discussed with regard to ischemic penumbra and diaschisis.
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PMID:Neuronal network disturbance after focal ischemia in rats. 247 23

Neuronal calcium overloading after complete ischemia-anoxia of the brain might be the primary process initiating chemical cascades which lead to cell death. According to this hypothesis calcium-entry blocking agents act on the final common pathway of brain damage. Flunarizine, a selective calcium-entry blocker (without influence on heart rate and on cardiac contractile force), was administered to 12 unconscious patients, recovering from cardiac arrest (CA) of cardiac origin, according to a strict dose-range infusion protocol. Blood-pressure and heart rate (HR) were recorded before, during (t = 10 min, 20 min) and after (t = 30 min, 2 h, 4 h, 6 h, 8 h) each flunarizine infusion (maximum 4 infusions). A significant, although not clinically relevant, decrease in heart rate was noted during the first infusion. Systolic (SBP) and diastolic blood pressure (DBP) also decreased during the infusion without reaching statistical significance. Plasma levels of flunarizine were determined before and after each infusion (t = 15 min, 30 min, 1 h, 2 h, 4 h, 6 h, 8 h, 12 h). Flunarizine plasma concentrations declined very rapidly after cessation of each infusion. Sequential half-lives were in the order of 11-19 min and 5-7 h, and primarily reflect rates of distribution between the systemic circulation and the rapidly equilibrating tissues such as the brain. No substantial accumulation of flunarizine was described and plasma levels were proportional to the give dose. Therefore, flunarizine pharmacokinetics can be considered as linear for doses up to 50 mg.
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PMID:Tolerance and pharmacokinetics of flunarizine after cardiac arrest. The Cerebral Resuscitation Study Group. 255 Oct 7

Transient global ischemia was produced in rats by cisternal fluid infusion, producing a negative cerebral perfusion pressure by elevating the intracranial pressure (ICP) 25-50 mm Hg above mean arterial pressure (MAP). Animals were allowed to survive for 2-7 days following a transient ischemic episode of 5-30 min. The brains were examined for signs of ischemic degeneration in Nissl-stained sections and adjacent sections reacted with antisera against glial fibrillary acidic protein (GFAP) or aspartate aminotransferase (AAT). Neurons in the thalamic reticular nucleus (RT), a pure population of gamma-aminobutyric acid (GABA)ergic neurons which project their axons to thalamic relay nuclei, were found to have the lowest threshold for degeneration in this model, consistently undergoing degeneration under conditions which completely spared the hippocampal CA1 from degeneration. Whereas it took up to 30 min of complete ischemia to produce degeneration of CA1 neurons when ICP was raised using room temperature infusion fluids, 15 min of ischemia under these conditions was sufficient to produce extensive degeneration of neurons in the entire ventral 3/4 of the RT. Prolonged (greater than 25 min) episodes of partial ischemia (ICP less than or equal to MAP) were also sufficient to produce massive degeneration of RT neurons. The lesion in the RT was most clearly evident in sections reacted with antisera to GFAP, labeling intensely reactive protoplasmic astrocytes within the regions of the RT where neuronal degeneration had occurred. Neuronal loss and accompanying proliferation of microglial cells were evident in Nissl-stained sections but the extent of the neuronal loss was most clearly obvious in sections reacted with an antisera to AAT, an enzyme present in detectable quantities in GABAergic neurons. Pretreatment with the non-competitive NMDA antagonist MK-801 at doses sufficient to completely prevent massive degeneration of the hippocampal CA1 failed to prevent the degeneration of RT neurons, suggesting that if RT degeneration involves an excitotoxic process it acts through non-NMDA receptors.
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PMID:Degeneration of neurons in the thalamic reticular nucleus following transient ischemia due to raised intracranial pressure: excitotoxic degeneration mediated via non-NMDA receptors? 255 11

Consequences of transient (15-20 min) ischemia on the neuronal activity of the dentate gyrus and hippocampal CA 1 region were investigated in chronically implanted Sprague-Dawley rats. Forebrain ischemia was produced by occlusion of the carotids for 15 or 20 min, following cauterization of the vertebral arteries. Following the release of the carotids, both spontaneous and evoked activity showed a steady but partial recovery, reaching a maximum 12 to 24 h after the ischemic insult. From this plateau, both the power of rhythmic slow activity recorded during walking and the power of slow delta activity obtained during alert immobility decreased monotonically, with large changes occurring between postischemic days 2 and 4. The changes in spontaneous activity were accompanied by a decrease and eventual disappearance of the Schaffer collateral evoked responses in CA 1. Perforant path volleys were less efficient in activating the granule cells following ischemia compared to baseline levels. This decreased responsiveness was paralleled by a relative impairment of paired pulse depression. Neurophysiological signs of spontaneous or evoked neuronal hyperexcitability were not observed at any time point during the 8 postischemic days. Neuronal damage in the CA 1 region varied from moderate to complete loss of pyramidal cells. In addition, degenerating neurons were also observed in the hilus of the dentate gyrus. These findings do not support the "overwork" version of the excitoxic hypothesis of delayed neuronal damage and indicate that the cause of ischemic cell death should be sought in factors other than neuronal hyperactivity.
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PMID:Ischemia-induced changes in the electrical activity of the hippocampus. 259 37

It has been postulated that the central neurotoxicity of glutamate participates in the pathogenesis of the ischemia-induced neuronal death and the process of the neuronal death is initiated by overexcitation or depolarization of postsynaptic neurons induced by increased extracellular glutamate during ischemia. In the present study, in order to know whether ischemic neurons show the overexcitation, we studied changes of CA1 neuronal discharges in gerbil hippocampus induced by transient forebrain ischemia (1-5 min) using an extracellular unit recording technique. CA1 neurons showed the high frequency discharges shortly after ischemic insult of 90 sec, however, these discharges did not induce neuronal death. Delayed neuronal death in the CA1 sector was observed in animals with 5-min ischemia which did not induce high frequency discharges. Neuronal depolarization with no spike discharge may persist during and shortly after 5-min ischemia and initiate the delayed neuronal death.
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PMID:High frequency discharges of gerbil hippocampal CA1 neurons shortly after ischemia. 261 96

The potentials of postischemic functional recovery were studied in cats submitted to 1 h of complete cerebrocirculatory arrest in normothermia. Neuronal activity was estimated by recording the electroencephalogram (EEG), the pyramidal response following stimulation of the motor cortex and the somatosensorily evoked cortical potentials. During ischemia EEG was suppressed within 12-15 s, evoked potentials within 2 min, and the pyramidal response within 5 min. After recirculation following ischemia, the electrically evoked D wave of the pyramidal response began to reappear between 7 and 9 min and the synaptically evoked I wave between 25 and 60 min. The evoked cortical potentials returned in parallel with the I wave of the pyramidal response but control amplitude was not reached before 3 h. The peak latencies of the evoked potentials were consistently prolonged for at least 24 h but normalized after a few days, provided secondary postischemic circulatory disturbances could be prevented. EEG began to recover after the beginning appearance of the somatosensorily evoked cortical potentials; initially it exhibited a burst-suppression pattern but it gradually progressed to continuous activity. The frequency pattern of the EEG normalized within 24 h and the amplitude after a few days. After recovery, the behavior of the pyramidal response and of evoked potentials to repetitive stimulation was the same as under control conditions.
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PMID:Recovery of neuronal transmission after prolonged cerebral ischemia. 282 Aug 49

This study addresses the question of whether the cyclooxygenase inhibitors indomethacin and diclofenac and the glucocorticosteroid dexamethasone ameliorate neuronal necrosis following cerebral ischemia. In addition, since these drugs inhibit the production of prostaglandins and depress phospholipase A2 activity, respectively, the importance of free fatty acids (FFAs) on the development of ischemic neuronal damage was assessed. Neuronal damage was determined in the rat brain at 1 week following 10 min of forebrain ischemia. The cyclooxygenase inhibitors, whether given before or after ischemia, failed to alter the brain damage incurred. Animals given dexamethasone were divided into three groups and the drug was administered at a constant dosage of 2 mg/kg: (a) 2 days, 1 day, and 3 h intraperitoneally before (chronic pretreatment), (b) 3 h intraperitoneally before (acute pretreatment), and (c) 5 min intravenously and 6 h and 1 day intraperitoneally after (chronic posttreatment) induction of ischemia. Acute pretreatment did not affect the histopathological outcome. Chronic posttreatment of animals with dexamethasone ameliorated the damage inflicted on the caudate nucleus, but had no effect on other brain areas investigated. Unexpectedly, the chronic pretreatment aggravated the brain damage and caused seizures following ischemia. Histopathological data showed massive neuronal damage in these brains. The accumulation of FFA levels during ischemia was markedly suppressed, and the decrease in the energy charge was curtailed by chronic pretreatment with dexamethasone. However, brain glucose levels in control animals and lactic acid concentrations following 10 min of ischemia were significantly higher both in the cerebral cortex and in the hippocampus of dexamethasone-treated animals. These results suggest that aggravation of neuronal necrosis by chronic dexamethasone pretreatment could be ascribed to lactic acidosis due to hyperglycemia in combination with an action of dexamethasone on glucocorticoid receptors in the brain.
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PMID:Chronic dexamethasone pretreatment aggravates ischemic neuronal necrosis. 309 61


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