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)

Transient (5-min) global forebrain ischemia, induced by four- vessel occlusion, was assessed using a multiple fixed-ratio, fixed-interval schedule of food presentation in five rats. Under control conditions, the schedule produced distinctive response rates in each schedule component. Initially, ischemia disrupted responding under both schedule components, and to approximately the same degree. In general, total session responses returned to pre-occlusion levels during the course of 45 post-occlusion days, however, response rates under the fixed-interval component showed slightly less recovery than those under the fixed-ratio component. Histological assessment revealed considerable variability in hippocampal damage between rats. Severe damage in the CA1, CA2, and CA3 formations was observed in a single rat, and that rat also showed the greatest degree of response disruption. These results suggest that schedule-controlled responding may be a valuable method for assessing the effects of ischemic injury, and thus, putative neuroprotective compounds, on complex behavior.
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PMID:Evaluation of transient forebrain ischemia induced by four vessel occlusion using schedule-controlled behavior. 148 34

Ischemia for 5 min temporarily increased locomotor activity in gerbils after 1 and 3 days. Temporary increases were also noted within 7 and 5 days after 20-min ischemia and repeated ischemia (three 2-min ischemia at 1-h intervals), respectively. In a passive avoidance task, gerbils were trained 2 or 14 days before the occlusion and then tested 1 day after it. Shortened step-through latency was observed in the retention test 3 days after 5-min ischemia, but not after 15 days (reversible deficit). In contrast, following 20-min ischemia, the step-through latency was significantly lower after 3 days and also after 15 days (irreversible deficit). Working memory was also tested with gerbils trained for an 8-arm radial maze task. A significantly higher working error was observed 1 day after 5-min ischemia but not after 5 days (reversible deficit). However, ischemia for 20-min and repeated ischemia led to markedly increase working error 1 day after the occlusion, with significant increases even after 14 and 28 days (irreversible deficit). In addition, while 5-min ischemia occurred the neuronal death in the hippocampal CA1 subfield, 20-min ischemia produced it not only in the CA1 subfield but also in the CA2-4 subfield and dorsal striatum. These results indicated that 5-min ischemia led to a reversible memory deficit, while 20-min and repeated ischemia produced an irreversible deficit.
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PMID:Ischemia-induced irreversible deficit of memory function in gerbils. 152 Nov 47

The distribution of neurofilament (NF) proteins was studied immunohistochemically in the gerbil hippocampus with antibodies against NF68 (68 Kd molecular weight) and NF200 proteins, and changes in the distribution of NF proteins after transient ischemia were observed in order to investigate the temporal correlation between NF and delayed neuronal death. In the normal hippocampus, NF68-like immunoreactivity (NF68-LI) was densely distributed in nerve processes in CA2, CA3 and the hilus of the dentate gyrus but was less intense in CA1. In contrast, processes with NF200-LI appeared to be evenly distributed in CA1, CA2, CA3 and the dentate gyrus. Mongolian gerbils were subjected to transient ischemia for 5 min by bilateral carotid occlusion and subjected to immunohistochemistry 1, 2, 3 and 4 days after ischemia. Following transient ischemia, prior to neuronal cell death, the intensity of both NF68-LI and NF200-LI decreased in the whole hippocampal formation. This decrease was more obvious in the case of NF68-LI than NF200-LI. Four days after ischemia, when neuronal death of CA1 pyramidal cells had occurred, processes in CA1, particularly 68 Kd components, showed marked decreases in number and staining intensity, although processes in most layers of CA2, CA3 and the dentate gyrus appeared to be stained similarly to normal brain. Since NF68 protein is considered to be the major component of NF proteins and NF200 is an associated accessory protein, the current observations suggest that the poor distribution of NF68 in CA1 and the early loss of NF proteins may be closely related to selective vulnerability of CA1 pyramidal cells and delayed neuronal death.
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PMID:Differential distribution of 68 Kd and 200 Kd neurofilament proteins in the gerbil hippocampus and their early distributional changes following transient forebrain ischemia. 160 Nov 2

Patient RB became amnesic following an episode of global ischemia that resulted in a bilateral lesion of the CA1 field of the hippocampus. This finding suggested that damage restricted to the hippocampus is sufficient to produce clinically significant memory impairment. To evaluate further the effect of ischemic brain damage on memory, we have developed an animal model of cerebral ischemia in the monkey. Monkeys were subjected to 15 min of reversible ischemia, using a noninvasive technique involving carotid occlusion and pharmacologically induced hypotension. These monkeys sustained significant loss of pyramidal cells in the CA1 and CA2 fields of the hippocampus, as well as loss of somatostatin-immunoreactive cells in the hilar region of the dentate gyrus. Cell loss occurred bilaterally throughout the rostrocaudal extent of the hippocampus but was greater in the caudal portion. Except for patchy loss of cerebellar Purkinje cells, significant damage was not detected in areas outside the hippocampus, including adjacent cortical regions, that is, entorhinal, perirhinal, and parahippocampal cortex, and other regions that have been implicated in memory function. On behavioral tests, the ischemic monkeys exhibited significant and enduring memory impairment. On the delayed nonmatching to sample task, the ischemic monkeys were as impaired as monkeys with lesions of the hippocampal formation and adjacent parahippocampal cortex (the H+ lesion). On two other memory tasks, the ischemic monkeys were less impaired than monkeys with the H+ lesion. In neuropathological evaluations, it has always been difficult to rule out the possibility that significant areas of neuronal dysfunction have gone undetected. The finding that ischemic lesions produced overall less memory impairment than H+ lesions indicates that the ischemic monkeys (and by extension, patient RB) are unlikely to have widespread neuronal dysfunction affecting memory that was undetected by histological examination. These results provide additional evidence that the hippocampus is a focal site of pathological change in cerebral ischemia, and that damage limited to the hippocampus is sufficient to impair memory.
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PMID:Enduring memory impairment in monkeys after ischemic damage to the hippocampus. 161 49

An antibody against rat calbindin-D28K, a calcium-binding protein present at high concentration in certain neurons of the central and peripheral nervous systems, was used to determine the progression of the pathological events in the rat hippocampus following experimental cerebral ischemia. Calbindin-D28K immunoreactivity is present in dentate granule cells and in the CA1-CA2 pyramidal cells. CA1 subfield contains a higher proportion of calbindin-D28K-positive pyramidal cells than does the CA2 subfield and CA1 cells are more immunoreactive than the CA2 cells. The pyramidal cells of the CA1 and CA2 subfields are vulnerable to ischemia. The cells in the CA1 became necrotic within 3-4 days after ischemia while those of the CA2 became necrotic within 2 days. There was a concomitant decrease in calbindin-D28K immunoreactivity in the whole hippocampal regio superior after ischemia which peaked 3 days postischemia. The difference in CA2 and CA1 vulnerability seemed to be inversely correlated with the calbindin-D28K contents of the CA2 and CA1 pyramidal cells. The decrease in the calbindin-D28K contents of these neurons was accompanied by cell damage. We therefore suggest that calbindin-D28K is an important factor for the survival of pyramidal cells in the hippocampal formation after ischemia.
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PMID:Calbindin-D28K and ischemic damage of pyramidal cells in rat hippocampus. 161 25

Rats were trained for 20 days in a modified T maze to perform an invariant, tactile discrimination and a variable, delayed spatial discrimination, and then were exposed either to 30 min of transient forebrain ischemia or to low- or high-dose ibotenic acid to damage the dorsal hippocampus bilaterally. Only rats exposed to ischemia or high-dose ibotenic acid demonstrated impaired performance during 30 postoperative test days on both aspects of the task (p less than .05). Volume of hippocampal damage did not predict performance. However, the extent of CA1 pyramidal neuron loss correlated significantly with performance on the delayed spatial discrimination (p less than .01). Damage to the dentate gyrus and CA2-3 did not correlate with performance. These results support the view that the hippocampus, in particular the CA1 region, is crucial for certain types of memory performance.
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PMID:Loss of hippocampal CA1 pyramidal neurons correlates with memory impairment in rats with ischemic or neurotoxin lesions. 161 12

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

Changes in MAP2 and clathrin immunoreactivity were studied in gerbil hippocampus after transient cerebral ischemia. MAP2 immunoreactivity decreased significantly by 1 h in the subiculum-CA1 and CA2 areas which correspond to reactive change, while no decrease was observed in CA1 until day 4. Before the initiation of delayed neuronal death, MAP2 immunoreactivity was not changed in CA1. On the other hand clathrin immunoreactivity increased in the pyramidal cell layer of CA1 by 3 h after ischemia and remained high for 2 days. Clathrin immunoreactivity in the pyramidal cell layer of CA1 diminished after delayed neuronal death. The transient change of clathrin was noted especially in CA1 in the period prior to delayed neuronal death. These results imply an abnormal change in clathrin turnover after ischemia, which may participate in the pathogenesis of delayed neuronal death.
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PMID:An immunohistochemical study of MAP2 and clathrin in gerbil hippocampus after cerebral ischemia. 172 31

In situ hybridization was used to study expression of mRNAs for members of the nerve growth factor (NGF) family in the rat brain after 2 and 10 min of forebrain ischemia and 1 and 30 min of insulin-induced hypoglycemic coma. Two hours after the ischemic insults, the level of brain-derived neurotrophic factor (BDNF) mRNA was markedly increased in the granule cells of the dentate gyrus, and at 24 h it was still significantly elevated. NGF mRNA showed a pronounced increase 4 h after 2 min of ischemia but had returned to a control level at 24 h. Both 2 and 10 min of ischemia caused a clear reduction of the level of mRNA for neurotrophin 3 (NT-3) in the dentate granule cells and in regions CA2 and medial CA1 of the hippocampus 2 and 4 h after the insults. The increase of BDNF mRNA could be partially blocked by the alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor antagonist NBQX but was not influenced by the N-methyl-D-aspartate (NMDA) receptor antagonist MK-801. Both NBQX and MK-801 attenuated the decrease of NT-3 mRNA after ischemia. One and 30 min of hypoglycemic coma also induced marked increases in BDNF and NGF mRNA in dentate granule cells with maximal levels at 2 h. If the changes of mRNA expression lead to alterations in the relative availability of neurotrophic factors, this could influence functional outcome and neuronal necrosis following ischemic and hypoglycemic insults.
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PMID:Differential regulation of mRNAs for nerve growth factor, brain-derived neurotrophic factor, and neurotrophin 3 in the adult rat brain following cerebral ischemia and hypoglycemic coma. 173 36

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

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