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)

The hippocampus provides a suitable area in the brain for the analysis of neuronal plasticity after application of a selective lesioning technique. Using histochemistry and autoradiography, we studied synaptic reorganization in the rat hippocampus with selective CA1 pyramidal cell lesioning caused by transient forebrain ischemia after long-term survival. An autoradiographic study was performed on second messenger systems ([3H]inositol 1,4,5-trisphosphate, [3H]forskolin and [3H]phorbol 12,13-dibutyrate binding). One-hundred days after ischemia, depletion of CA1 pyramidal cells and marked shrinkage of the CA1 subfield was noted in spite of unaltered thickness of the CA3 band and of the dentate molecular layers. Although neuronal density in the CA3 region of animals killed seven days after ischemia was not different from the normal group, 78% of animals showed neuronal loss of 30-50% in the stratum pyramidale of the CA3b 100 days after recirculation. Sixty-seven per cent of animals exhibited supragranular mossy fiber sprouting in the dentate gyrus. However, CA3 neuronal loss did not correlate with mossy fiber sprouting. Succinic dehydrogenase was depleted in the CA1 100 days after ischemia, and animals with CA3 damage showed a reduction of succinic dehydrogenase activity in the CA3. In contrast to the unaltered acetylcholinesterase in the animals killed seven days after ischemia, high density bands of acetylcholinesterase activity in the stratum pyramidale of the CA1 were found to be broadened 100 days after ischemia. In the CA1 subfield, subnormal activity of [3H]phorbol 12,13-dibutyrate and [3H]forskolin binding were observed in spite of the depleted [3H]inositol 1,4,5-triphosphate binding. [3H]Forskolin binding in the hilus had increased by 62% 100 days after ischemia, although binding in the stratum lucidum of the CA3 and in the stratum moleculare of the dentate gyrus was unaltered. However, no visible supragranular increase in [3H]forskolin binding was observed. These results indicate that long-term survival after CA1 pyramidal cell depletion caused by transient forebrain ischemia induced the modulation of neuronal activity and synaptic rearrangements in the whole hippocampal formation.
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PMID:Post-ischemic synaptic plasticity in the rat hippocampus after long-term survival: histochemical and autoradiographic study. 170 23

Transient forebrain ischemia of 30 min duration was produced in anaesthetized rats by four-vessel occlusion. After survival periods of 3 h to three days brains were perfusion-fixed and sections through the mid-dorsal hippocampus were processed for conventional staining and immunohistochemical analysis. Neuronal damage in the hilus was manifested 3-8 h after ischemia; neurons in the CA1 and CA2 sector suffered delayed neuronal death after 48-72 h whereas the dentate gyrus and the CA3 sector were normal. Vasogenic edema formation was visualized using antibodies against rat serum-proteins, serum albumin and immunoglobulins. By 3 h after ischemia, only faint and diffuse serum-staining was detected. At 8 h survival, weak astrocytic-staining was present. After 24-72 h CA1-CA2 exhibited massive serum extravasation. The molecular layer of the dentate gyrus showed edema formation in the absence of granule cell damage. The glial reaction was studied using antibodies against glial fibrillary acidic protein, vimentin and S-100 protein. Glial fibrillary acidic protein and S-100 protein-staining increased in areas with either edema or neuronal damage. In contrast, changes in vimentin were only detected in areas with neuronal necrosis. The observations demonstrate that following 30 min of ischemia neuronal damage is accompanied by changes in blood-brain barrier function and reactive glial alterations. The dissociation between neuronal necrosis and astroglial hypertrophy and hyperplasia reflects differences in cellular responsiveness which constitute inherent features of postischemic hippocampal injury.
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PMID:Immunohistochemical study of glial reaction and serum-protein extravasation in relation to neuronal damage in rat hippocampus after ischemia. 170 95

We investigated, to examine the involvement of lipid peroxidation and inhibitory mechanisms, a novel lipid peroxidation inhibitor (KB-5666) and a GABAA receptor-effector (pentobarbital) on ischemic neuronal damage and the alterations in the second messenger and neurotransmitter systems in Mongolian gerbils by means of morphology and in vitro receptor autoradiography. Quantitative receptor autoradiography visualized binding sites for [3H]inositol 1,4,5-trisphosphate, [3H]forskolin, [3H]phorbol 12,13-dibutyrate, [3H]isradipine (PN200-110), [3H]N6-cyclohexyl-adenosine, and [3H]quinuclidinyl benzilate indicating binding sites for inositol 1,4,5-trisphosphate, forskolin, protein kinase C, L-type calcium channels (or dihydropyridine binding sites), adenosine A1, and muscarinic cholinergic receptors, respectively. In the morphological study, KB-5666, 10 and 50 mg/kg, i.v., 5 min before ischemia, protected against ischemic neuronal damage to the hippocampal CA1 subfield following 5 min of bilateral carotid artery occlusion in a dose-dependent manner. Pentobarbital, 30 mg/kg, i.v., 5 min before ischemia, also had a protective effect. In receptor autoradiographic studies, all receptor bindings decreased significantly in the CA1 subfield seven days after ischemia. In particular, [3H]inositol 1,4,5-trisphosphate binding in the CA1 subfield was completely lost after ischemia. [3H]Inositol 1,4,5-trisphosphate and [3H]forskolin binding decreased as early as 6 h after ischemia. In the CA3 subfield, [3H]inositol 1,4,5-trisphosphate, [3H]PN200-110, and [3H]N6-cyclohexyladenosine bindings decreased seven days after ischemia. In the dentate gyrus, [3H]inositol 1,4,5-trisphosphate binding decreased seven days after ischemia. KB-5666 and pentobarbital prevented reductions in these receptor bindings in the CA1 subfield at 6 h and seven days after ischemia. These results indicate that KB-5666 and pentobarbital protect the brain from both structural and functional damage after ischemia, and that lipid peroxidation and inhibitory mechanisms may play a pivotal role in the neuronal damage of the hippocampal CA1 subfield after ischemia.
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PMID:Involvement of lipid peroxidation and inhibitory mechanisms on ischemic neuronal damage in gerbil hippocampus: quantitative autoradiographic studies on second messenger and neurotransmitter systems. 171 54

Excessive activation of excitatory amino acid receptors has been implicated in the neuronal degeneration caused by ischemia, hypoglycemia, and prolonged seizures. We have observed directly the time course and regional vulnerability of hippocampal neurons to glutamate receptor-mediated injury in organotypic hippocampal cultures, a preparation which combines accessibility and long-term survival with preservation of regional differentiation and neuroanatomic organization. Cultures were incubated with the fluorescent dye propidium iodide which selectively enters and stains cells only after membrane damage. After 5 to 10 min of a 30-min exposure to kainate (100 microM), large neurons in the hilus of the dentate were first to become brightly fluorescent. Propidium staining subsequently appeared in the other regions of the hippocampus and increased to a maximum over the first 6 h of recovery. NMDA (10 microM) caused propidium staining that was limited to CA1 and the dentate gyrus of the cultures, sparing CA3, consistent with the regions of highest NMDA receptor density in vivo. Glutamate (1 mM) caused a delayed, progressive pattern of staining that began in CA1 (2 to 4 h after exposure), then extended to include CA3 and finally the dentate gyrus over the next 24 h. Release of LDH activity into the media was slower and less sensitive than propidium staining. Histologic degeneration was limited to neurons 24 h after agonist exposure and was consistent with the propidium staining. NMDA, kainate, and glutamate each produced a unique pattern of neuronal injury. Most notably, glutamate had low potency as a toxin and its pattern of neuronal injury was not reproduced by NMDA.
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PMID:Direct observation of the agonist-specific regional vulnerability to glutamate, NMDA, and kainate neurotoxicity in organotypic hippocampal cultures. 171 7

We have examined the distribution and time course of the microglial reaction in the rat dorsal hippocampus after 25-min transient forebrain ischemia (four-vessel occlusion model). Microglial cells were visualized in brain sections using lectin staining with the Griffonia simplicifolia B4-isolectin following intervals of reperfusion ranging from 20 min to 4 weeks. Increased staining of microglial cells was detected in the dentate hilus and area CA1 as early as 20 min after reperfusion. These same regions demonstrated more intense microglial staining after 24 h. The strongest microglial reaction was observed 4-6 days after reperfusion when reactive microglia were abundant throughout all laminae of CA1 and the dentate hilus. Following longer reperfusion intervals, the microglial reaction became less intense; however, it remained above normal levels until the end of the fourth week. At all time points examined, microglial reactivity in the CA3 pyramidal and dentate granule cell layers was considerably lower than that observed in CA1 and dentate hilus. Our results are consistent with the known serial pathological changes associated with cerebral ischemia, but, in addition, show that the examination of the microglial reaction provides an extremely sensitive indicator of subtle and morphologically nonapparent neuronal damage during the early stages of injury.
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PMID:The microglial reaction in the rat dorsal hippocampus following transient forebrain ischemia. 171 9

A pilot case-control quantitative study of the hippocampus in patients with severe status epilepticus was performed to identify specific patterns of pyramidal cell loss. Pyramidal cell densities from five patients who died following status epilepticus were compared with five normal controls and five controls matched for age, hypoxia/ischemia, previous epilepsy, and alcohol abuse. Neuronal densities were greatest in the normal control group and least in patients with status epilepticus. Significant reductions were identified in Sommer's sector (prosubiculum and CA1) as well as in CA3 when compared to normal controls.
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PMID:Hippocampal pyramidal cell loss in human status epilepticus. 173 57

The present study was undertaken to examine the cerebral protective properties attributed to isoflurane and at the same time to compare its protective effects with those of mild hypothermia (temperature reduction by 3 degrees C). Twenty-one fasted Wistar-Kyoto rats were assigned to one of three groups (n = 7); 1.3 MAC (end-tidal) isoflurane-normothermia (pericranial temperature 38.0 degrees C), 1.3 MAC halothane-normothermia, and 1.3 MAC halothane-hypothermia (pericranial temperature 35.0 degrees C during ischemia). In each animal the trachea was intubated and the lungs were mechanically ventilated. Each animal was subjected to temporary incomplete forebrain ischemia induced by 10 min of bilateral carotid artery occlusion with simultaneous hypotension (mean arterial pressure 35 mmHg) induced by trimetaphan and blood withdrawal. After a 3-day survival period, perfusion-fixation was performed, and two blinded observers assessed histopathologic injury according to a four-point scale (0 = no damage; 1 = less than 10% of neurons damaged; 2 = 10-50% damaged; and 3 = greater than 50% damaged). The assessment was performed at two points in the rostrocaudal axis chosen to permit evaluation of regions with varying levels of ischemic damage. In the rostral sections, in the isoflurane- and halothane-normothermia groups, moderate to severe injury was observed in striatum, cerebral cortex, hippocampus (CA1 and CA3 areas), and reticular nucleus of the thalamus (e.g., the median scores for the CA1 area were 3 in both the halothane-hypothermia and the isoflurane-normothermia groups), and there were no differences between the two groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A comparison of the cerebral protective effects of isoflurane and mild hypothermia in a model of incomplete forebrain ischemia in the rat. 173 91

We evaluated the relationship between the induction of the 72-kDa heat-shock protein (hsp 72) and the presence of necrotic neurons in the rat hippocampus, 48 h after an 8-min episode of forebrain ischemia in eight rates. Hsp 72 was detected using the monoclonal antibody C92 on vibratome brain tissue sections. Hematoxylin and eosin (H&E) staining on adjacent paraffin-embedded sections was used to determine histopathological features. All morphologically intact CA1/2 neurons, 70% of which are destined to become necrotic 7 days after ischemia, exhibited intense hsp 72 staining, while necrotic or damaged neurons were devoid or low in hsp 72. Hsp 72 was also detected in CA3 neurons destined to survive 7 days after ischemia. Blood vessels positive for hsp 72 were detected in focal brain regions, in which severely damaged neurons were either devoid or low in hsp 72 staining. Occasional glial cells expressed hsp 72 in both normal and damaged brain regions. Hsp 72 response to a transient forebrain ischemia seemingly reflects differences in the selective ischemic vulnerability of CA1/2 and CA3 neurons. Further, the presence of hsp 72 within a neuron is likely only a marker of stress and is not necessarily indicative of eventual neuronal survival.
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PMID:Neuronal injury and expression of 72-kDa heat-shock protein after forebrain ischemia in the rat. 179 66

We investigated the effects of mild and non-lethal ischemic insult on neuronal death following subsequent lethal ischemic stress in various brain regions, using a gerbil model of bilateral cerebral ischemia. Single 10-min ischemia consistently caused neuronal damage in the hippocampal CA1, CA2, CA3 and CA4, layer III/IV of the cerebral cortex, dorsolateral part of the caudoputamen and ventrolateral part of the thalamus. On the other hand, in double ischemia groups, 2-min ischemic insult 2 days before 10-min ischemia exhibited significant protection in the CA1 and CA3 of the hippocampus, the cerebral cortex, the caudoputamen and the thalamus. Five-min ischemic insult 2 days before 10-min ischemia also showed protective effect in the same areas as those of 2-min ischemia except for the CA1 region of the hippocampus, while 1-min ischemic insult exhibited no protective effect in any brain regions. In the immunoblot analysis, both 2- and 5-min ischemia caused increased synthesis of heat shock protein 72 (HSP 72) in the hippocampus, but 1-min ischemia did not. The present study demonstrated that the 'ischemic tolerance' phenomenon was widely found in the brain and also suggested that ischemic treatment severe enough to cause HSP 72 synthesis might be needed for induction of 'ischemic tolerance'.
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PMID:'Ischemic tolerance' phenomenon detected in various brain regions. 180 39

Early induction of the mRNAs encoding the c-Fos and c-Jun nuclear proteins was examined in rat brain by in situ hybridization at various timepoints following global forebrain ischemia by the method of four-vessel occlusion. All animals were subjected to 20 min of transient ischemia. This produced a pattern of proto-oncogene activation that was most intense in the granule cells of the dentate gyrus 30 min after ischemia, while the hilar cells in the dentate and the pyramidal cells of the CA3 region in the hippocampus showed a more delayed but robust expression of these immediate early genes at 1 h. The neurons of the CA1 region exhibited a more moderate hybridization signal at 1-2 h postischemia. Very little hybridization signal for either immediate early gene could be detected in animals perfused with fixative immediately following ischemia, suggesting that cellular energy levels may have to be restored to a certain level before efficient de novo mRNA synthesis can occur. In the cerebellum, a similar temporal pattern was observed: the granule cells exhibited a prompt but patchy expression of c-fos and c-jun that was followed by a delayed signal in the Purkinje cells. Without exception c-fos and c-jun appeared to be expressed in unison, although the time course of c-fos and c-jun mRNA accumulation and decay was different in various brain regions: invariably the cerebellum returned rapidly to its baseline with virtually no remaining signal at 3 h postischemia, while c-fos and c-jun activation in the hippocampus remained high at 3 h and returned to baseline by 6 h. Several other brain regions showed early production of c-fos and c-jun mRNAs, such as the medial habenula, piriform cortex, the amygdala, the centromedian, lateral posterior, paracentral, intermediodorsal and reuniens nuclei of the thalamus and the ventromedial and dorsal nuclei of the hypothalamus; in the brainstem, the trapezoid body and the noradrenergic neurons of the locus ceruleus as well as the adrenergic neurons in the ventrolateral medulla (C1 group) and nucleus tractus solitarius (C2 group) regions displayed slightly less intense hybridization signals. In addition, the ependyma of the lateral ventricles and the third ventricle showed a prompt albeit short-lived production of c-fos and c-jun mRNAs. Sham-operated animals as well as animals that had survived to one week postischemia showed either no or only trace levels of hybridization signal.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:In situ hybridization analysis of c-fos and c-jun expression in the rat brain following transient forebrain ischemia. 181 28

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