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Query: UMLS:C0917798 (cerebral ischemia)
 17,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In five patients with chronic renal failure, rapid correction by dialysis of hypertension and/or high blood urea levels provoked acute neurological disorders, followed by slowly reversible neuropsychiatric disturbances. Focal EEG alterations were noted in three patients with normal carotid angiograms. Our cases differed from those usually described as suffering from the dialysis disequilibrium syndrome because of their duration, the severity of mental disturbances, and the asymmetrical pattern of EEG abnormalities. We propose that the symptoms observed could be due to cerebral ischemia. This possibility emphasizes the importance of limiting the duration and efficiency of the first dialyses in patients with severe hypertension and high nitrogen retention, especially if high performance dialyzers are used.
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PMID:Unusual aspects of the dialysis disequilibrium syndrome. 95 37

The study was performed on 98 Mongolian gerbils. Cerebral ischemia was evoked by ligation of both common carotid arteries for 5 min. After five postischemic days the animals were decapitated, brains fixed, paraffin section stained with histological methods and for GFAP with ABC method. The investigated animals (ca 18%) presented asymmetrical morphological lesions of the CA1 hippocampal sector showing irregular loss of neurons in both cerebral hemispheres. GFAP immunostaining demonstrated various astroglial proliferation in asymmetrical lesions of CA1 sector. In partial injury to CA1 neurons the astrocytes in stratum (s) pyramidale were single but their number still increased when total loss of pyramidal neurons occurred. Except s. lacunosum moleculare the number of GFAP-positive astrocytes in the remaining layers of dorsal hippocampus presented a direct relationship with the intensity of morphological changes and was highest when 70% loss of pyramidal cells was observed.
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PMID:Immunoreactivity of astroglia after brief ischemia resulting in asymmetrical damage to the hippocampal CA1 sector in the Mongolian gerbil. 792 14

The characterization of sensory, motor and cognitive dysfunctions following occlusion of the middle cerebral artery (MCA) is prerequisite to investigations of treatment intervention in animal models of ischemia. Different strategies are used to induce ischemia, but the focal, transient occlusion of the MCA has been reported to result in neuropathology most similar to that seen in clinical cerebral ischemia. If the MCA occlusion technique results in a stroke animal model, then the behavioral impairments inherent in stroke should be manifested in this model. The present study provides a further characterization of behavioral alterations associated with MCA occlusion. Sprague-Dawley rats underwent temporal occlusion of the right MCA, and at 1 mo and 2 mo postischemia, were subsequently tested in passive avoidance behavior, motor coordination, asymmetrical motor behavior, neurological functioning, nocturnal spontaneous and amphetamine-induced locomotor activity, and haloperidol-induced catalepsy. Results revealed that ischemic rats showed long-term impairments in sensory, motor and cognitive functions. The discrepancy with other studies reporting temporal MCA-induced behavioral deficits may be due to techniques used to induce ischemia and consequent CNS damage, differences in time period of testing (i.e., immediate vs. later postischemia, nighttime vs. daytime), number of test-retests over the course of the experiment, and age of the animals. The mechanism involved in the MCA-induced behavioral changes may be represented by loss of dopamine receptors on striatal neurons. Histological analysis revealed damage limited to the lateral aspect of the striatum. These behavioral and anatomical data support MCA occlusion as a model of ischemia, and elucidate important factors that should be controlled for in characterizing the MCA-induced neuropathological alterations.
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PMID:Locomotor and passive avoidance deficits following occlusion of the middle cerebral artery. 857 87

Neurons in the dorsal neostriatum are highly vulnerable to transient cerebral ischemia. It has been suggested that excessive dopamine release during ischemia may play an important role in the pathogenesis of postischemic cell death in the neostriatum. However, it remains controversial whether depletion of dopamine protects neurons in the neostriatum against ischemic insult. In the present study, transient forebrain ischemia was induced using the four-vessel occlusion method. Ischemic depolarization was used as an indication of completed ischemia. Under our experimental conditions, ischemia that produces approximately 21 min ischemic depolarization caused more than 90% of cell death in the dorsolateral neostriatum. Using such ischemia as a standard insult, the effect of dopamine depletion on neostriatal neurons after ischemia was investigated. Dopamine depletion was produced by unilateral injection of 6-OHDA into the substantia nigra. No difference was found between the number of surviving neurons in the left and the right neostriatum after depletion of dopamine on the left side. In contrast, surviving neurons dramatically increased in the right neostriatum after depletion of dopamine on the right side. These results clearly demonstrate an asymmetrical protection of neostriatal neurons against ischemia after dopamine depletion. The mechanisms of this asymmetrical protection may clarify dopamine action on neuronal injury following cerebral ischemia.
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PMID:Asymmetrical protection of neostriatal neurons against transient forebrain ischemia by unilateral dopamine depletion. 922 58

This study was designed to explore the efficacy of a human clone cell line as an alternative neural graft source and to validate the practice of cryopreservation and xenografting as logistical approaches toward conducting neural transplantation. We investigated the biological effects of transplanting cultured human neurons (NT2N cells) derived from a well-characterized embryonal carcinoma cell line into the brains of rats subjected to transient, focal cerebral ischemia induced by embolic occlusion of the middle cerebral artery. At 1 month and extending throughout the 6-month posttransplantation test period, ischemic animals that were transplanted with NT2N cells and treated with an immunosuppressive drug displayed a significant improvement in a passive avoidance task as well as a normalization of asymmetrical motor behavior compared to ischemic animals that received rat fetal cerebellar cell grafts or vehicle alone. Remarkably, cryopreserved NT2N cell grafts compared with fresh NT2N cell grafts, remained viable in the immunosuppressed rat brain and effective in producing behavioral recovery in immunosuppressed ischemic animals. The long-term viability of cryopreserved NT2N cell xenografts in vivo and their sustained effectiveness in promoting behavioral recovery suggest potential utilization of xenografting and cryopreservation as useful protocols for establishing clone cell lines as graft source in neural transplantation therapies for central nervous system disorders.
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PMID:Transplantation of cryopreserved human embryonal carcinoma-derived neurons (NT2N cells) promotes functional recovery in ischemic rats. 950 Sep 61

We recently reported behavioral improvements following intrastriatal transplantation of cryopreserved cultured human neuroteratocarcinoma-derived cells (hNT neurons) in rats with cerebral ischemia induced by occlusion of the middle cerebral artery. In the present study, the viability and survival of hNT neurons were evaluated immediately prior to the transplantation surgery and at 3 months post-transplantation in ischemic rats. Cryopreserved hNT neurons were routinely thawed, and trypan blue exclusion viability counts revealed 52-95% viable hNT neurons before transplantation. Monthly behavioral tests, starting at 1 month and extending to 3 months post-transplantation, revealed that ischemic animals that were intrastriatally transplanted with hNT neurons (approximately 40000) and treated with an immunosuppressive drug displayed normalization of asymmetrical motor behavior compared with ischemic animals that received medium alone. Within-subject comparisons of cell viability and subsequent behavioral changes revealed that a high cell viability just prior to transplantation surgery correlated highly with a robust and sustained functional improvement in the transplant recipient. Furthermore, histological analysis of grafted brains revealed a positive correlation between number of surviving hNT neurons and degree of functional recovery. In concert with similar reports on fetal tissue transplantation, we conclude that high cell viability is an important criterion for successful transplantation of cryopreserved neurons derived from cell lines to enhance graft-induced functional effects.
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PMID:Viability and survival of hNT neurons determine degree of functional recovery in grafted ischemic rats. 976 Jan 30

We examined in the present study the effects of the centrally administered prepro-thyrotropin-releasing-hormone 178-199 (prepro-TRH 178-199) on cerebral ischemia induced by ligation of the middle cerebral artery (MCA) in adult Sprague-Dawley rats. Animals were intracerebrally injected with prepro-TRH 178-199 (6 microg/kg or 200 microg/kg) or saline 1-2 h before ligation of MCA. Ischemic animals that received prepro-TRH 178-199, regardless of dosage, displayed some amelioration (20%) of motor asymmetry associated with MCA ligation, while ischemic animals that received saline continued to exhibit significant asymmetrical behaviors. Interestingly, triphenyltetrazolium chloride staining (a marker for tissue metabolic activity) revealed that four of five ischemic animals that received 200 microg/kg prepro-TRH 178-199 showed a marked reduction (90-100%) in the infarction of the frontal cortex, although the posterior sections of the cortex remained infarcted. In contrast, ischemic animals that received 6 microg/kg prepro-TRH 178-199 demonstrated infarction that did not differ in size and extent from those that received saline. Post hoc examination revealed that ischemic animals treated with 200 microg/kg prepro-TRH 178-199 had significantly lower corticosterone (CORT) levels (115+/-23 ng/ml) than ischemic animals treated with 6 microg/kg prepro-TRH 178-199 or saline (288+/-51 ng/ml). The present observation provides the first evidence that prepro-TRH 178-199 can promote neuroprotection against cerebral ischemia.
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PMID:Prepro-thyrotropin-releasing hormone 178-199 exerts partial protection against cerebral ischemia in adult rats. 1061 33

Many studies of white matter high signal (WMHS) on T2-weighted MRI have disclosed that it is related to cerebral ischaemia and to brain atrophy. Atrophy of the corpus callosum (CC) has also been studied in relation to ischaemia. Our objective was to test the hypothesis that CC atrophy could be due to ischaemia. We therefore assessed CC, WMHS and brain atrophy in patients with risk factors without strokes (the risk factor group) and in those with infarcts (the infarct group), to investigate the relationships between these factors. We studied 30 patients in the infarct group, 14 in the risk factor group, and 29 normal subjects. Using axial T1-weighted MRI, cortical atrophy and ventricular enlargement (brain atrophy) were visually rated. Using axial T2-weighted MRI, WMHS was assessed in three categories: periventricular symmetrical, periventricular asymmetrical and subcortical. Using the mid-sagittal T1-weighted image, the CC was measured in its anterior, posterior, mid-anterior and mid-posterior portions. In the normal group, no correlations were noted between parameters. In the infarct group, there were significant correlations between CC and brain atrophy, and between CC atrophy and WMHS. After removing the effects of age, gender and brain atrophy, significant correlations were noted between some CC measures and subcortical WMHS. In the risk factor group, there were significant correlations between CC and brain atrophy and between CC atrophy and WMHS. After allowance for age, gender and brain atrophy, significant correlations between some CC measures and periventricular WMHS remained. The hypothesis that CC atrophy could be due to cerebral ischaemia was supported by other analyses. Namely, for correlations between the extent of infarcts and partial CC atrophy in patients with anterior middle cerebral artery (MCA) and with posterior MCA infarcts, there were significant correlations between the extent of infarct and mid-anterior CC atrophy in the former, and posterior CC atrophy in the latter. Our findings could indicate that CC atrophy is associated with cerebral ischaemia.
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PMID:Atrophy of the corpus callosum correlates with white matter lesions in patients with cerebral ischaemia. 1092

Spiny neurons in the neostriatum are highly vulnerable to cerebral ischemia. Recent studies have shown that the postischemic cell death in the right striatum was reduced after ipsilateral dopamine denervation whereas no protection was observed in the left striatum after dopamine denervation in the left side. In order to reveal the mechanisms of such asymmetrical protection, electrophysiological changes of dopamine-denervated striatal neurons were compared after ischemia between the left and right striatum using intracellular recording and staining techniques in vivo. No difference in cortically evoked initial excitatory postsynaptic potentials was found between the left and right striatum in intact animals after ipsilateral dopamine denervation. The initial excitatory postsynaptic potentials in the dopamine-denervated right striatum were suppressed after transient forebrain ischemia while no significant changes were found in the dopamine-denervated left striatum. Paired-pulse tests suggested that these changes involved presynaptic mechanisms. Although the incidence of a late depolarizing postsynaptic potential elicited by cortical stimulation increased after ischemia in both sides, the increase was greater in the left side. The analysis of current-voltage relationship of spiny neurons indicated that inward rectification in the left striatum transiently disappeared shortly after ischemia whereas that in the right side remained unchanged. The intrinsic excitability of spiny neurons in both sides were suppressed after ischemia, however, the suppression in the right side was stronger than in the left side. The above results demonstrate that after ipsilateral dopamine denervation, the depression of excitatory synaptic transmission and neuronal excitability in the right striatum is more severe than that in the left striatum following ischemia. The depression of excitatory synaptic transmission and neuronal excitability, therefore, might play an important role in neural protection after ischemic insult.
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PMID:Asymmetrical changes of excitatory synaptic transmission in dopamine-denervated striatum after transient forebrain ischemia. 1220 1

The left and right neocortex of the brain has been shown to exert asymmetrical effects on the immune system. In the present study, we used a middle cerebral artery (MCA) occlusion model in Wistar rats to analyze the influence of unilateral CNS ischemia on spleen cell number and function. The occlusion time was 1 h, followed by reperfusion with survival for 0, 2, 7, 14, and 28 days. Changes in plasma norepinephrine levels were used as an index of peripheral sympathetic activity. Results showed that the total number of spleen cells significantly decreased after 2-28 days of survival in animals with cerebral ischemia compared to sham-operated controls. There was no change in the percentage of CD5(+)-CD4(+) T cells, MHC class II(+) cells, or ED1(+) macrophages. However, the percentage of CD5(+)-CD8(+) T cells decreased at 2 days, resulting in an increased CD4/CD8 ratio, and both parameters returned to control levels after 7 days. Mitogen-induced T and B lymphocyte proliferation increased after 0-28 days post-ischemia independently of the mitogen used. There was no difference in immune response or norepinephrine levels between left and right MCA occlusions. These results are consistent with the notion that cerebral ischemia induces mobilization of certain immune cells from the periphery to the brain, where they may contribute to the local inflammatory response. Additionally, the data indicate that cerebral ischemia is followed by a systemic activation of T and B lymphocytes. Absence of asymmetric effects of left versus right stroke, and failure to demonstrate any suppressive effects of left-sided lesions on lymphocyte proliferation, probably reflects the fact that these large cerebral ischemic lesions affect both cortical and subcortical areas.
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PMID:Temporal effects of left versus right middle cerebral artery occlusion on spleen lymphocyte subsets and mitogenic response in Wistar rats. 1241 24


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