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 purpose of the present study was to determine the consequences of postischemic neuronal damage on CMRglc. Forebrain ischemia of 10 min duration was induced in male Wistar rats. The extent of neuronal damage and the numbers of immunocytochemically detected astrocytes in the hippocampal CA1 subfield as well as CMRglc were determined 2, 5, 7, and 14 days after ischemia. CBF was additionally measured 7 days postischemia. CMRglc was decreased in cortical and thalamic structures up to 5 days postischemia, and was normalized again on day 7 after ischemia. In the hippocampal areas, CMRglc was decreased only on day 2 after ischemia, was normalized after 5 days, and increased in the stratum oriens and pyramidale of the CA1 subfield from postischemic day 7 onward. Neuronal damage was clearly demonstrable 5 days after ischemia and further increased up to day 7. The number of GFAP-reactive astrocytes increased markedly at day 7 postischemia. It is assumed that the activation of astrocytes is induced by neuronal damage, and that the astroglial metabolism is responsible for the increase in CMRglc of the CA1 subfield 7 days after ischemia. The decrease in CBF of the CA1 subfield 7 days after ischemia could be caused by a reduced density of perfused capillaries.
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PMID:Postischemic neuronal damage causes astroglial activation and increase in local cerebral glucose utilization of rat hippocampus. 198 94

To clarify whether astrocyte-derived factors may protect cerebral tissue from ischemia, we examined brain edema, demyelination and astrocyte proliferation in brains with focal ischemia and treated with astrocyte-cultured medium. We occluded the left middle cerebral artery of rats and implanted the Osmotic Minipump, which continuously infused the glial-cultured medium or control medium into the left lateral ventricle. Animals were sacrificed at 3 days or 7 days after occlusion. Brains of both groups were compared by several markers, i.e. extravasation of Evans blue, demyelination by Woelcke's staining and glial proliferation by GFAP staining. We found the astrocyte-cultured medium reduced leakage of Evans blue-plasma protein complex from ischemic lesions and reduced the size of demyelinated lesions. However, the degree of astrocyte proliferation was similar in both groups. From these data, we speculate that humoral factors derived from cultured astrocytes lessened the brain edema by modifying the blood-brain barrier. These factors might also induce proliferation of the microglia, and may protect the neurons from secondary injury by oxygen-free radicals.
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PMID:Effect of astrocyte-derived factors on ischemic brain edema induced by rat MCA occlusion. 222 39

Brain injury, including ischemia, changes normal astrocytes into reactive species that hypertrophy and begin to proliferate. Understanding the mechanisms that underlie these changes could lead to new abilities to promote regeneration and retard neural degeneration after ischemia. Because ionic changes occur after nonneural cells are exposed to mitogens, we have begun to examine the ionic changes that may trigger reactive gliosis. We showed that two changes thought to be important for mitogenesis, elevation of interstitial potassium or intracellular pH, are correlated with reactive gliosis as indicated by increased immunohistochemical staining for glial fibrillary acidic protein. This relation was seen after activation of cerebral cortex by recurrent spreading depression but not by physiologic stimulation. Deoxyribonucleic acid synthesis occurs in fibroblasts only when intracellular potassium exceeds 90 mM, a level seen in astrocytes only during spreading depression. Thus, our results support the contention that a threshold level of potassium (and pH) must be exceeded in eukaryotic cells before proliferation or anabolism will proceed.
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PMID:Ionic concomitants of astroglial transformation to reactive species. 223 80

Carotid arteries were occluded bilaterally for 15 min in two groups of Mongolian gerbils. The first group received 100% oxygen during the first 3 h of reperfusion. During that period, room air was given to the second group. After 3 h, both groups received room air. Brains of gerbils that died within 14 days after occlusion were removed, fixed in formalin and embedded in paraffin. Gerbils that survived 15-28 days were perfused with formalin before their brains were removed and embedded in paraffin. Adjacent, serially cut sections were stained with luxol fast blue (LFB)-H&E, cresyl violet, according to the Bodian method, or immunocytochemically with antisera raised against myelin basic protein (MBP) and glial fibrillary acidic protein (GFAP). In brain sections of gerbils receiving 3 h of 100% oxygen, there were circumscribed white matter lesions in the corpus striatum, lateral thalamus, mesencephalon and posterior limb of the internal capsule. Myelin sheaths were swollen, fragmented and were less intensely stained by MBP antiserum. MBP and LFB-stained myelin fragments were present extracellularly and in macrophages. Many axons in these areas appeared undamaged. Previously described ischemic changes were found in gray matter and some areas of white matter in both groups. However, neurons in the deeper laminae of the cerebral cortex appeared to be better preserved in gerbils given oxygen. The results suggest that hyperoxia, if present immediately after transient brain ischemia, may damage myelin more severely than other cellular elements.
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PMID:Prominent white matter lesions develop in Mongolian gerbils treated with 100% normobaric oxygen after global brain ischemia. 232 46

The dorsal hippocampus of cat was investigated by light microscopy and immunohistochemistry following 1 h global cerebral ischemia and various recirculation times from 1 day to 1 year. Complete ischemia was produced by combining hypotension with intrathoracic occlusion of major arteries. Post-ischemic resuscitation was carried out using an intensive care regimen with continuous neurophysiological monitoring. Brains of controls (n = 4) and post-ischemic animals (n = 12) were fixed in formaldehyde and prepared for histology and immunohistochemistry of glial fibrillary acidic protein (GFAP). In all post-ischemic animals the hilus and the regio superior of dorsal hippocampus which encompasses the CA1 subfield were severely damaged. Neurons in these regions exhibited the typical sequela of neuronal death. GFAP staining revealed vivid astroglial proliferation in stratum lacunosum-moleculare and stratum oriens. Changes in the regio inferior of dorsal hippocampus, i.e., CA3 subfield, and in dentate gyrus granular layer, were variable. Although most animals exhibited moderate to severe neuronal and glial alterations, groups of surviving cells were observed in the stratum oriens and in the granular layer of dentate gyrus. In one animal the majority of CA3 pyramidal cells and granule cells was preserved. These findings demonstrate that after 1 h of complete cerebral ischemia dorsal hippocampus exhibits two different types of injury: a consistent pattern of selective vulnerability in the hilus and the regio superior, and a variable pattern of non-selective injury in the regio inferior and dentate gyrus. The two patterns can be best explained by intrinsic (pathoclitic) and extrinsic (hemodynamic/edema) factors, respectively and are likely to represent basically different mechanisms of ischemic injury.
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PMID:Pattern of neuronal vulnerability in the cat hippocampus after one hour of global cerebral ischemia. 233 96

In animal models of transients ischemia, selective vulnerability and delayed neuronal death in the hippocampus have been extensively described. However, little is known about selective damage in the neocortex and the thalamus, even though deficits in sensorimotor function are common in humans surviving hypoxic/ischemic episodes. This study investigated the neurodegenerative effects of transient ischemia in the gerbil neocortex and thalamus with use of Cresyl Violet and silver impregnation staining methods. In addition, immunohistochemistry of an astrocyte-associated protein, glial fibrillary acidic protein, was used to assess the astrocytic response to ischemia. Pyramidal cells in layers 3 and 6 of somatosensory and auditory cortex were exceptionally sensitive to ischemia, whereas the neurons in layers 2, 4 and 5 were more resistant to ischemia. More pyramidal cells were killed in layer 3 than in layer 6. This bilaminar pattern of neuronal death developed after periods of ischemia ranging from 3 to 10 min and was identifiable at post-ischemic survival times of 6 h to one month. Somatodendritic argyrophilia in the neocortex was identified as early as 6-12 h after 5 min of ischemia. The greatest number of degenerating cortical neurons were stained two to four days after ischemia. With 10 min of ischemia, argyrophilic neurites and neurons were also found as early as 8 h after the occlusion. The most extensive damage was noted in the ventroposterior nucleus, the medial geniculate nucleus, and the intralaminar nuclei two to four days after ischemia. Thus, selective vulnerability and delayed neuronal death are evident in both the neocortex and the thalamus after transient ischemia. These regions need to be examined when considering the efficacy of potential neuroprotective drugs.
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PMID:Selective neocortical and thalamic cell death in the gerbil after transient ischemia. 238 10

Tritiated thymidine autoradiography was used to measure cellular proliferation after ischemic injury in gerbil brain. Gerbils were subjected to bilateral occlusion of the common carotid arteries which resulted in areas of necrosis, or infarcts, in the posterior thalamus or midbrain. From 12 h to 10 days following the ischemia, gerbils were injected with 3H thymidine, sacrificed 4 h later, and the brains sectioned. In order to identify astrocytes and monocytes/macrophages, immunocytochemistry was performed prior to autoradiography, using antisera against glial fibrillary acidic protein and endothelial-monocyte reticuloendothelial antigen, respectively. Immunocytochemistry was also used to visualize microvessel laminin, myelin, and leakage of serum albumin. Lastly, a histochemical procedure for acid phosphatase activity was employed to verify cellular phagocytic activity in the wound. A reproducible sequence of reactions took place during the first 10 days after ischemia. Early changes included leakage of albumin and myelin breakdown, followed by arrival of monocytes at 2 days and their differentiation into macrophages by 5 days. These cells exhibited intense proliferation from 2 to 6 days post-ischemia. Microvessel endothelial cells were maximally labeled at 4 days post-ischemia. Hypertrophied astrocytes were apparent at 2 days and proliferated from 3 to 7 days post-ischemia, and by 10 days the wound was replaced by a "glial scar".
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PMID:Cell proliferation after ischemic injury in gerbil brain. An immunocytochemical and autoradiographic study. 241 99

After occlusion of the right common carotid artery in the gerbil, we monitored the progression of ischemic damage and postischemic damage and the repair process in the brain immunohistochemically by using tubulin, creatine kinase BB-isoenzyme (CK-BB), and neuron-specific enolase as the neuronal markers and astroprotein, glial fibrillary acidic protein, and CK-BB as the astrocytic markers. The earliest ischemic lesion was detected in the hippocampus and the cerebral cortex after ischemia for 5 minutes as loss of the reaction in the neuropil, nerve cell bodies, and dendrites. The reaction disappeared more promptly in the dendrites than in the nerve cell bodies. The reaction for tubulin was the most sensitive for detection of the neuronal ischemic damage. After an ischemic period of 30 minutes and subsequent reestablishment of cerebral circulation, the immunohistochemical lesions affecting the neuronal structure expanded during the first 3 hours and then slowly afterward for up to 12 hours. Reactive astrocytes were already identified 24 hours after reperfusion. The current investigation demonstrated that early ischemic damage can be clearly visualized by use of the immunohistochemical technique soon after the onset of cerebral ischemia but that considerable heterogeneity exists not only in different anatomic regions but also within the neuronal structure. This technique has potential for further investigation of cerebral ischemia or other pathophysiologic conditions when used in combination with other morphologic, physiologic, or biochemical techniques.
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PMID:Early detection of cerebral ischemic damage and repair process in the gerbil by use of an immunohistochemical technique. 243 12

The localization and timing of cellular calcium loading and glial cell reaction in relation to selective death of hippocampal neurons was studied in Mongolian gerbils following transient forebrain ischemia. Two days after a 5-min period of ischemia, heavy calcium staining was histochemically demonstrated in circumscribed groups of nerve cells, located in the transition zone between the CA1 and CA3 areas. This preceded complete neuronal cell death that was quantitatively assessed by measuring the intensity of Nissl staining. After a 12-min period of ischemia, extensive calcium loading was observed in conjunction with severe neuronal damage throughout the CA1 region as well in the dorsal nuclei of the thalamus. The extent of calcium staining decreased with time and was not seen at stages later than 7 days. Already at 2 days after a 5-min period of ischemia, a strong increase of glial fibrillary acidic protein immunoreactivity was seen. This indicates a marked and early hypertrophy of astrocytes that was not accompanied by an obvious proliferation. Neither the astrocytic response nor the neuronal calcium accumulation were observed in gerbils pretreated with propentofylline, HWA 285 (10 mg/kg, i.p.) 15 min before bilateral carotid artery occlusion. Also, the decrease of Nissl staining in the CA1 area after 5 and 12 min of ischemia was considerably less pronounced and did not significantly differ from sham-operated controls.
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PMID:Ischemia-induced neuronal cell death, calcium accumulation, and glial response in the hippocampus of the Mongolian gerbil and protection by propentofylline (HWA 285). 244 6

EIA detection system for the measurement of alpha 2 M globulin and GFAP antigen has been developed. The limit of the sensibility was only 1 ng/ml for alpha 2M and 0.8 ng/ml for GFAP. The system was used for the studies of the penetration through the blood-brain barrier in rats with experimental acute brain ischemia. The measurement of alpha 2M and GFAP antigens by EIA technique 16-20 hours after the occlusion of the carotid artery has revealed disturbances in the blood-brain barrier permeability for specific brain proteins. The method is recommended for indirect evaluation of the blood-brain barrier functional disorders.
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PMID:[Immunoenzymatic detection of specific brain antigens as a criterion of the permeation of blood-brain barrier in rats with acute cerebral ischemia]. 245 85


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