UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ischemia-induced selective neuronal injury to field CA1 is not attributable to selective glutamate release in field CA1 during ischemia. Excessive release of glutamate has been proposed to play a major role in ischemia-induced selective neuronal death in field CA1 of the hippocampus. It is well known that, following carotid arterial occlusion of 5 min duration in the gerbil, the pyramidal neurons in field CA1 show delayed neuronal death, whereas the neurons in field CA3 do not show any neuronal degeneration. In the present study, we measured the levels of released glutamate during ischemia in field CA1 and field CA3, separately, and evaluated whether there are subregional differences in the concentration of released glutamate which could be a satisfactory explanation for the selective vulnerability of hippocampal neurons to ischemia. Extracellular glutamate levels were significantly increased during ischemia in both field CA1 and field CA3. No significant differences were detected in the time-course of change in glutamate release and the levels of glutamate between field CA1 and field CA3. This result indicates that the increased glutamate levels do not play a pivotal part in the detrimental effect of glutamate during 5-min ischemia. Some differentiated post-synaptic organization may act as a crucial factor in the development of ischemia-induced selective neuronal death in the gerbil hippocampus.
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PMID:Selective vulnerability of hippocampal CA1 neurons cannot be explained in terms of an increase in glutamate concentration during ischemia in the gerbil: brain microdialysis study. 135 Dec 67

We examined the ability of phenyl-t-butyl-nitrone (PBN), an electron spin trapper, to attenuate ischemia-induced forebrain edema and hippocampal CA1 neuronal loss in gerbils, and to protect rat cerebellar neurons in primary culture from glutamate-induced toxicity. PBN, given i.p. at 75 or 150 mg/kg 30 min before ischemia (5 min occlusion), increased survival (at 7 days) of CA1 neurons from 60 +/- 14 (vehicle-treated, n = 17) to 95 +/- 15 (P less than 0.05, n = 15) and 145 +/- 3 (P less than 0.01, n = 15), respectively. When gerbils were treated with PBN (50 mg/kg, i.p.) immediately and 6 h after reperfusion, followed by b.i.d. for an additional 2 days, CA1 neurons survival improved from 35 +/- 9 (vehicle, n = 20, 6 min occlusion) to 106 +/- 17 (P less than 0.01, n = 13). In gerbils exposed to a more severe ischemia (10 min), pretreatment with 150 mg/kg PBN increased the survival of CA1 neurons from 6 +/- 6 (vehicle) to 27 +/- 10 (P less than 0.05, n = 11). Pretreatment with PBN, at 150 mg/kg, reduced forebrain edema (following 15 min ischemia) by 24.7% (P less than 0.01, n = 16). PBN at 50 mg/kg, i.p. had no hypothermic effect and at 75 or 150 mg/kg caused a transient hypothermia. The presence of PBN in the brain was confirmed in microdialysis samples and brain tissue extract using HPLC. In vitro, PBN protected rat cerebellar neurons against 100 microM glutamate-induced toxicity with an EC50 value of 2.7 mM. Our results further support the concept that free radicals contribute to brain injury following ischemia and suggest the potential therapeutic application of electron spin trappers in stroke.
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PMID:Neuroprotective effects of phenyl-t-butyl-nitrone in gerbil global brain ischemia and in cultured rat cerebellar neurons. 135 99

Rats were treated with alpha-methyl-para-tyrosine (AMT, 250 mg/kg, i.p), an hydroxylase inhibitor, in order to decrease brain levels of catecholamines. Six hours later, when cerebral dopamine (DA) and norepinephrine were reduced by about 80%, a transient forebrain ischemia of 30 min duration was induced by four-vessel occlusion technique. Evaluation of brain damage 72 hours after ischemia showed that AMT treatment significantly decreased neuronal necrosis in the striatum but had no cytoprotective effect in the CA1 sector of the hippocampus and in the neocortex. AMT treatment reduced mortality within the ischemic period but did not affect either the mortality within the recirculation period or the postischemic neurologic deficit. These results suggest that the striatal cytoprotective effect of AMT is linked to cerebral DA depletion and that excessive release of DA during ischemia or dopaminergic hyperactivity during recirculation play a detrimental role in the development of ischemic cell damage in the striatum.
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PMID:Alpha-methyl-para-tyrosine pretreatment protects from striatal neuronal death induced by four-vessel occlusion in the rat. 135 43

Effect of WEB 1881 FU (nebracetam) on hypoxia and ischemia-induced impairment of 2-deoxyglucose (2DG) uptake and CA1 field potentials induced by hypoxia and hypoxia/hypoglycemia (ischemia) in rat brain slices was evaluated and compared to the findings obtained with pentobarbital and idebenone. Hippocampal and cortical slices were exposed to 15-20 min of ischemia, and then these slices were returned to oxygenated and glucose-containing buffer for 6 hr. Ischemia reduced both 30 mM KCl-induced 2DG uptake and CA1 field potentials elicited by the stimulation of Schaffer collaterals in the hippocampus. Pretreatment of nebracetam at 1 mM or pentobarbital at 0.1 mM attenuated a decline of 2DG uptake and CA1 field potentials under the condition of ischemia. In addition, nebracetam and pentobarbital relatively recovered the increase of 2DG uptake in the hippocampus under hypoxia for 45 min. Furthermore, these drugs also attenuated the decline of 2DG uptake induced by 10 mM glutamate for 20 min. However, treatment with idebenone did not recover the deficit of 2DG uptake and CA1 field potential. The present result suggests that nebracetam and pentobarbital exert neuroprotective actions against not only ischemia but also glutamate toxicity.
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PMID:Neuroprotective effect of WEB 1881 FU (nebracetam) on an ischemia-induced deficit of glucose uptake in rat hippocampal and cerebral cortical slices and CA1 field potential in hippocampal slices. 135 46

Changes in ligand binding to adrenoceptors ([3H]prazosin to alpha 1-receptors, [3H]idazoxan to alpha 2-receptors and [125I]cyanopindolol to beta-receptors) following transient cerebral ischemia were investigated using autoradiographic methods. The binding was quantified in brain sections from control rats, rats subjected to 15 min of 2-vessel occlusion ischemia, and rats with recirculation times of 1 h, 1 week or 4 weeks after ischemia. No significant change in alpha 1-receptor binding was observed during and immediately following ischemia, but a decrease was noted in the vulnerable hippocampal CA1 region following 1 week's survival. In the parietal cortex, the ligand binding to alpha 1-receptors increased at 4 weeks. A reduced [3H]idazoxan binding was observed 1 h after ischemia in the temporal cortex and amygdala. No change in ligand binding to beta-receptors was seen in the early phase postischemia, but a marked increase had occurred in the hippocampal CA1 region at 1 and 4 weeks after ischemia (+163% and +142%, respectively), presumably due to accumulation of macrophages expressing beta-receptors. The early postischemic changes in receptor binding may represent downregulation of the adrenoceptors by processes activated during ischemia, while neuronal degeneration, compensatory mechanisms in surviving neurons and proliferation of non-neuronal cells may account for the subsequent changes.
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PMID:Effects of ischemia on regional ligand binding to adrenoceptors in the rat brain. 136 86

We examined whether ketanserin and mianserin, drugs with 5-HT2 receptor antagonistic effects, would have protective effects in Mongolian gerbils on delayed neuronal death induced by cerebral ischemia. When training and test sessions in the passive avoidance task were carried out 6 and 7 days after 3 min of ischemia, passive avoidance impairment was apparent. Destruction and disappearance was apparent in the hippocampal CA1 neurons at 7 days after the induced ischemia. Administration of ketanserin (5-20 mg/kg) and mianserin (5-20 mg/kg) led to better passive avoidance and prevented the delayed neuronal death induced by the ischemia. These effects of ketanserin and mianserin were not inhibited by treatment with the cholinergic blocker scopolamine (5 mg/kg). Thus, ketanserin and mianserin have a protective effect on delayed neuronal death in gerbils and the effects of these drugs are not mediated by serotonergic and cholinergic systems.
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PMID:Effects of ketanserin and mianserin on delayed neuronal death induced by cerebral ischemia in Mongolian gerbils. 136 25

The concentration of fibroblast growth factor (FGF), which is found in cerebrospinal fluid (CSF), markedly increases after the start of feeding. Food intake was dose-dependently suppressed by picomole doses of FGF and facilitated by anti-FGF antibody. This suppression was caused by activation of protein kinase C in glucose-sensitive neurons in the lateral hypothalamus. In situ hybridization by use of cDNA showed that acidic (a)FGF was produced in ependymal cells. The ependymal cells released aFGF by responding to glucose increase in CSF after feeding. Released aFGF diffused into the brain parenchyma and was taken by neurons. Passive avoidance was significantly more reliable after aFGF infusion into CSF. Clamping cerebral arteries in the gerbil induced ischemia, which damaged neurons in the CA1 layer of the hippocampus. Pretreatment with aFGF prevented this damage. Thus, aFGF is not only the most potent substance yet found for the suppression of feeding, but it is also extremely effective as a neurotrophic and memory facilitating substance.
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PMID:A new brain glucosensor and its physiological significance. 137 Feb 49

We examined whether preconditioning with sublethal ischemia protects against neuronal damage following subsequent lethal ischemic insults. Forebrain ischemia for 3 min in Wistar rats increased heat shock protein-70 immunoreactivity in the hippocampal CA1 subfield but produced no neuronal damage. Preconditioning with 3 min of ischemia followed by 3 days of reperfusion protected against hippocampal CA1 neuronal damage following 6 and 8 min of ischemia but not damage after 10 min of ischemia. The result strongly suggests that stress response induced by sublethal ischemia protects against ischemic brain damage.
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PMID:Protection of rat hippocampus against ischemic neuronal damage by pretreatment with sublethal ischemia. 138 Aug 76

Normothermic rats with 12 min, complete cerebral ischemia were treated with the AMPA antagonist 2,3-dihydroxy-6-nitro-7-sulfamoyl-benzo (F) quinoxalinedione (NBQX) [10], which prevents CA1 pyramidal neuron loss. Twenty hours after ischemia, cerebral protein synthesis rate (CPSR) was measured autoradiographically using [35S]methionine. Ischemia caused a 38% decrease of CPSR in CA1, and postischemic treatment with NBQX caused a 66% decrease in this region. Also treatment with NBQX alone resulted in a decrease (22% in CA1) of the CPSR. Since some evidence exists that the neuroprotective effect of NBQX is related to blockade of the fast AMPA-mediated transmission, the further decrease of the postischemic CPSR in CA1 could be a mere side effect.
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PMID:Regional cerebral protein synthesis after transient ischemia in the rat: effect of the AMPA antagonist NBQX. 138 88

We examined the effect of an AMPA (alpha-amino-3-hydroxy-5-methyl-4-isoxazole) antagonist, 2,3-dihydroxy-6-nitro-7-sulfamoyl-benzo (F) quinoxaline (NBQX), on rat cerebellar Purkinje cell loss and hippocampal pyramidal CA1 cell loss, after 10 minutes of global cerebral ischemia. NBQX was given intraperitoneally in a dose of 30 mg kg-1 at the end of ischemia, and 10 and 25 minutes later. Rats subjected to ischemia without post-ischemic administration of NBQX served as controls. Four days after ischemia the cerebellar Purkinje cell density was higher and the density of acidophilic (dead) Purkinje cells lower in the NBQX treated animals compared with the control animals (p = 0.01 and p less than 0.005 respectively). There was partial to total loss of pyramidal neurons in the CA1 region of the dorsal hippocampus in control animals, but no CA1 pyramidal neuron loss in the NBQX treated animals (p = 0.001).
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PMID:The AMPA antagonist, NBQX, protects against ischemia-induced loss of cerebellar Purkinje cells. 138 70

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