UMLS:C0085584 - FACTA Search

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Query: UMLS:C0085584 (encephalopathy)
18,178 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report the cases of 2 siblings with progressive encephalopathy. The first symptoms were noted when they were 6 years old. The full clinical picture included myoclonus, seizures, cerebellar ataxia, blindness due to optic atrophy and retinal degeneration, deafness, swallowing difficulties with relatively spared intellectual functions. The course was progressive and led to death within 8 years. The pathological findings included bilateral and almost symmetrical lesions involving the thalami, the colliculi, and the pontine and medullar tegmentum, similar to the changes described in Leigh disease. Neuronal loss and gliosis were noted in the dentate nucleus and in the inferior olive, as in MERRF syndrome. Laminar necrosis of the cerebral cortex could have been due to episodes of severe hypotension before death. Cytochrome c oxidase deficiency was found in case 2. The enzyme deficiency was present in muscle and in fibroblasts in culture.
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PMID:[Familial mitochondrial encephalopathy. A clinicopathologic study]. 166 Jan 81

Cognitive disorders associated with HIV infection may be due to focal lesions (lymphoma, toxoplasmosis, progressive multifocal leukoencephalitis, etc.), metabolic encephalopathy (e.g. hepatic insufficiency) or psychiatric disorders (depression). In the absence of such causes a "cognitive and motor syndrome associated with HIV infection" has been defined on clinical criteria (Working group of the American Academy of Neurology, 1991). This syndrome is not consistently associated with any specific lesion. Neither the multifocal encephalitis of HIV or CMV infection nor the diffuse leukoencephalopathy associated with HIV are the only causes. The existence of a neocortical neuronal loss has been suggested by several retrospective studies, but our prospective study has not shown cortical or subcortical atrophy. Measurement of neuronal density in Brodmann's areas 4,9 and 40 has not revealed a significant loss either global, by layer, or by column. The only constant lesion was gliosis of the cortex and white matter. Neuronal loss, therefore, is not indispensable to the occurrence of cognitive disorders in AIDS. The mechanism of dementia might be: dysfunction of cortical neurons (dendritic abnormalities, virus/neurotransmitter competition); subcortical dysfunction, as suggested by the high density of microglial nodules in that region; white matter lesions which could be due to abnormalities in the blood-brain barrier. The expression of cell adhesion molecules (VCAM-1, VLA-4, ICAM-1 and LFA-1) by endothelial cerebral cells is not significantly different in AIDS patients, demented or not, and in patients with multiple sclerosis. In contrast, the expression of VCAM-1 by astrocytes is significantly increased in demented AIDS patients compared with non demented ones.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[HIV and dementia: neuropathology]. 747 30

Excitotoxic cell death is hypothesized to contribute to numerous neuropathologic conditions, including hypoxic/ischemic encephalopathy, hypoglycemia, Parkinson's disease, and Huntington's disease. Neuronal death from excitotoxic lesions has been shown to be an active process, with activation of immediate early gene transcription, resulting in secondary changes in gene expression. Another feature of neurotoxic cell death that has been examined is the presence of DNA fragmentation, which presumably indicates impending nuclear disintegration. A technique has been described for labeling fragmented DNA in situ, allowing precise determination of the anatomic and temporal distribution of neurons after an excitotoxic lesion. To investigate this phenomenon, we performed in situ nick translation on brain tissue from rats that have undergone stereotaxically placed intrastriatal quinolinic acid injections. Furthermore, in these same animals we analyzed the expression of c-fos mRNA to compare the time course and regional distribution of DNA fragmentation with immediate early gene activation after an excitotoxic lesion. Our analysis indicates that c-fos expression increases soon after quinolinic acid injection, is widespread in rat brain, but is effectively absent by 24 h postinjection. DNA fragmentation, however, is limited to striatum and is maximal at 24 h after injection. These results demonstrate the sensitivity of in situ nick translation for the detection of regional neuropathology and illustrate the temporal and spatial relationship of c-fos expression to excitotoxic neuronal death.
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PMID:DNA fragmentation and immediate early gene expression in rat striatum following quinolinic acid administration. 764 26

In 24 cases of multifocal necrotizing encephalopathy (MNE) in Simmental and Simmental-cross cattle, clinical features varied, consisting of mild rear limb ataxia, caudal paresis, and, less often, sudden death. Bilateral and symmetric malacic lesions were present in the brain stem (olivary nucleus) of all affected calves. Foci of malacia affecting thoracic spinal cord and additional brain stem sites were common. Neuronal cell bodies and hypertrophied capillaries were present within malacic foci. Rarefaction of neuropil, progressing to complete parenchymal loss, characterized advanced lesions. Pathologic features were similar to those of Leigh syndrome in humans, and a similar defect in aerobic metabolism is hypothesized. Occurrence of the syndrome within 1 breed over a wide geographic area suggests that hereditary factors contribute to development of MNE.
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PMID:Multifocal subacute necrotizing encephalomyelopathy in Simmental calves. 785 26

Neuronal and glial cell marker proteins were quantified in order to evaluate the possibility of increased proteolysis in the brain of rabbits with acute liver failure and acute hyperammonemia. Acute liver failure was induced by a two-stage devascularization procedure. Acute hyperammonemia was induced by a prolonged infusion of ammonium acetate, which simulates the plasma ammonia level in acute liver failure. Control animals received an infusion of sodium/potassium acetate. After development of severe encephalopathy, the animals were sacrificed (13.7 +/- 1.3 hours for rabbits with acute liver failure and 20.2 +/- 0.8 hours for rabbits with hyperammonemia) (x +/- S.E.M./n = 6) and their brains were dissected into cerebral cortex, hippocampus, cerebellum and brain stem. The total protein content and the concentrations of the neuronal cell marker proteins NSE (neuron specific enolase), NF68 and NF200 (68 kD and 200 kD neurofilament polypeptides) and the glial cell marker proteins GFAP (glial fibrillary acidic protein) and S-100 were determined. Total protein content was decreased in the brain stem in acute hyperammonemia only. The content of neuronal and glial cell markers was not affected in either of the two conditions. However, low molecular weight proteolytic fragments of the NF 68 kD polypeptide were observed in the hippocampus of three out of six animals in both experimental groups. No proteolytic degradation of GFAP was observed. The results show that, in experimental encephalopathy due to acute liver failure and acute hyperammonemia, no major changes occur in the marker proteins. The finding of proteolytic fragments of the NF68 polypeptide indicates that the neuronal population is affected prior to glial alterations. These findings are in agreement with the concept that acute hepatic encephalopathy is reversible and induces only slight structural changes.
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PMID:Neuronal and glial marker proteins in encephalopathy associated with acute liver failure and acute hyperammonemia in the rabbit. 835 42

Human immunodeficiency virus type 1 (HIV-1) infection of the central nervous system is associated with decreased neuronal density in discrete areas of the brain. Neuronal loss may occur via apoptosis, initiated by soluble neurotoxic factors secreted from HIV-1 infected macrophages and microglia. To examine further the molecular events involved in HIV-1 neuropathogenesis, we assessed the activity of NF kappa B, an inducible transcription factor involved in the activation of multiple proinflammatory, and potentially neurotoxic, genes. NF kappa B was analysed by immunocytochemistry using specific antisera to the NF kappa B p. 50 and p. 65 subunits. Brains from children with HIV-1 encephalitis and progressive encephalopathy were found to contain increased numbers of NF kappa B immunoreactive cells, relative to control brains (HIV-1 negative, or HIV-1 positive without encephalitis). Double-labelling studies using antibodies to CD68, or RCA-1 lectin, markers for cells of monocyte/macrophage lineage, revealed an increase in the number of microglia and macrophages with nuclear immunoreactivity for NF kappa B in association with HIV-1 encephalitis. NF kappa B positive multinucleated giant cells were also detected, as were cells which contained both NF kappa B and HIV-1 antigen. In contrast, the number of neurons and GFAP-positive astrocytes that were immunoreactive for NF kappa B was approximately the same in all groups of subjects. These data are consistent with the hypothesis that persistent, high-level activation of NF kappa B may promote the sustained production of neurotoxins by microglia and macrophages during HIV-1 encephalitis.
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PMID:Activation of nuclear factor kappa B in brains from children with HIV-1 encephalitis. 874 41

MR imaging has firmly established its place as the cornerstone of pediatric neuroimaging. Recent advances in MR imaging have led to decreased imaging time, high resolution studies, and new methods for obtaining tissue contrast. Magnetic resonance angiography (MRA) now obviates the need for angiography in some children, although its extended role is still to be defined. Normal and abnormal development and myelination patterns have been further defined with MR imaging. The patterns of brain injury resulting from hypoxia and ischemia vary with the degree of the insult as well as the gestational age of the child. These patterns of hypoxic-ischemic encephalopathy can be analyzed to determine when the insult occurred. Neuronal migration disorders and phakomatoses can be diagnosed with confidence at an early age, thus facilitating genetic counseling. MR imaging can detect the most common lesions associated with childhood epilepsy, such as hippocampal sclerosis, focal cortical dysplasias, and low-grade tumors. Other areas, including pediatric AIDS, toxicity-related injury, metabolic/mitochondrial conditions, and disorders associated with iatrogenic injury, can be diagnosed with MR. Spectroscopy provides information that should prove useful in evaluating and monitoring neuronal and other brain tissue disorders in children.
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PMID:MR of the brain in children. 887 Jan 79

Neuropathological study on the limbic lesion of 33 autopsy cases with senile dementia of Alzheimer type (SDAT) showed as follows. 1) The entorhinal cortex was more atrophied than the hippocampus. 2) Neuronal loss was found in the 2nd and 3rd layers of the entorhinal cortex, irrespective of the different numbers of senile plaques and neurofibrillary tangles (NFTs). 3) Fibrillary gliosis occurred in the stratum lacunosum of the hippocampus, irrespective of the different degrees of neuronal loss in the stratum pyramidale of the hippocampus. 4) The prosubiculum showed gliosis disproportional to neuronal loss. 5) The degree of fibrillary gliosis in the stratum lacunosum of the hippocampus and in the prosubiculum was proportional to that of the entorhinal cortical degeneration. 6) The shape of the hippocampus of the cases with SDAT was different from that in the cases with anoxic encephalopathy in which neuronal loss in the CA1 occurred primarily: 7) Distribution pattern of the lesion in the hippocampus of SDAT cases was almost the same as that found in the cases with infarct in the collateral sulcus involving the entorhinal cortex. It is assumed that the hippocampal atrophy is a primary degeneration attributable to appearance of senile plaques and NFTs. However, our present observations and previous report (Neurosci Lett 184: 141-144 1995) suggest that degeneration of the entorhinal cortex and its efferent fibres (perforant pathway) plays a considerable part of role in development of the hippocampal atrophy. The present study could contribute to understanding of progression of the limbic lesion in SDAT.
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PMID:[Neuropathological study on progression of the limbic degeneration in senile dementia of Alzheimer type]. 902 2

Production of prostaglandins is a critical step in transducing immune stimuli into central nervous system (CNS) responses, but the cellular source of prostaglandins responsible for CNS signalling is unknown. Cyclooxygenase catalyzes the rate-limiting step in the synthesis of prostaglandins and exists in two isoforms. Regulation of the inducible isoform, cyclooxygenase 2, is thought to play a key role in the brain's response to acute inflammatory stimuli. In this paper, we report that intravenous lipopolysaccharide (LPS or endotoxin) induces cyclooxygenase 2-like immunoreactivity in cells closely associated with brain blood vessels and in cells in the meninges. Neuronal staining was not noticeably altered or induced in any brain region by endotoxin challenge. Furthermore, many of the cells also were stained with a perivascular microglial/macrophage-specific antibody, indicating that intravenous LPS induces cyclooxygenase in perivascular microglia along blood vessels and in meningeal macrophages at the edge of the brain. These findings suggest that perivascular microglia and meningeal macrophages throughout the brain may be the cellular source of prostaglandins following systemic immune challenge. We hypothesize that distinct components of the CNS response to immune system activation may be mediated by prostaglandins produced at specific intracranial sites such as the preoptic area (altered sleep and thermoregulation), medulla (adrenal corticosteroid response), and cerebral cortex (headache and encephalopathy).
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PMID:Intravenous lipopolysaccharide induces cyclooxygenase 2-like immunoreactivity in rat brain perivascular microglia and meningeal macrophages. 913 Jun 63

Microscopic vacuolar changes in neuronal perikaryon are described in two free-ranging raccoons (Procyon lotor) from different geographic locations in the United States. Both animals were negative for rabies and scrapie-associated antigens. Microscopically, lesions were not seen in the neuropil. Neuronal vacuolations have previously been documented in brains of normal animals and in diseases such as rabies and prion-associated encephalopathies. Although experimental transmission of a spongiform mink encephalopathy has been documented in raccoons, a naturally occurring spongiform encephalopathy has not been described in this species. The presence of neuronal vacuolations in the raccoons is novel and requires further investigation to elucidate the mechanism of this phenomenon.
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PMID:Neuronal vacuolation in raccoons (Procyon lotor). 916 86

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