Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This review paper deals with the transport of the protein tracer horseradish peroxidase across cerebral vessels under normal and various experimental conditions. Electronmicroscopical investigations have revealed that, under normal conditions, a minor vesicular transfer of intravenously injected peroxidase occurs across the endothelium in segments of arterioles, capillaries and venules, especially in arterioles with a diameter about 15-30 mu. This normally occurring vesicular transport is susceptible to various experimental conditions. Thus the transfer of tracer increases when a hypertonic solution is injected into the internal carotid artery presumably due to vesicular transport. Extensive acute hypertension of short duration also increases the vesicular transfer of peroxidase from blood to brain. Identical observations are obtained when the hypertension is evoked by intravenous injection of phentolamine and by electrically induced seizures. During the postischemic period, one hour after release of the occlusion of an internal carotid artery in the Mongolian gerbil the vesicular transport of peroxidase is increased across the endothelium of cerebral vessels. The explanation may be release of serotonin from blood platelets during the occlusion. The serotonin could then increase the blood pressure locally in the brain resulting in an enhanced permeability. Serotonin, after perfusion through the cerebral ventricular system, is also able to increase the normally occurring vesicular transfer. The most likely mechanism behind this phenomenon seems at the moment to be local hypertension evoked by serotonin-induced vasoconstriction of arterioles. Finally, the enhanced vesicular transport across cerebral endothelium caused by porto-caval anastomosis is mentioned and the possible role of disturbances in the metabolism of amines as responsible for the extravasation is discussed.
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PMID:The blood-brain barrier to horseradish peroxidase under normal and experimental conditions. 33 57

During experimental seizures, the blood-brain barrier (BBB) is broken; tracer substances such as I131-albumin, Evans blue and horseradish peroxidase (HRP) geographically locate the barrier breakdown primarily in the diencephalon. Using rats, we have induced seizures with electroshocks and demonstrated the breakdown of the BBB with Evans blue and HRP. We have shown that (1) the BBB breakdown is proportional to the number of electroconvulsant shocks (ES) given; (2) the mechanism of increased barrier permeability is primarily by micropinocytosis in the cerebral capillaries, arterioles, and, to a lesser extent, venules; and (3) the stimulus for micropinocytosis and hence BBB breakdown is associated with the abrupt rise in systemic blood pressure and cerebral vasodilatation that accompanies each ES. If the systolic hypertension is abolished via cervical cordotomy, there is little to no breakdown in the BBB.
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PMID:Ultrastructural characteristics of the brain and blood-brain barrier in experimental seizures. 86 58

The clinical and biochemical data on 13 patients with Batten's syndrome are described. Clinically the disease was characterized by progressive maental and somatic deterioration. Initially, vision loss was found between the ages 4 and 8 years. This was associated with 1 or 2 years of normal school attendance followed by attendance at a school for mentally retarded from the age of 8 to 11; then warding was established at a school for blind children and later on a hospital for epileptic patients when seizures and mental retardation made hospitalization necessary. Biochemically, an increased peroxidation rate was revealed in peripheral thrombocytes. This abnormality was associated with a significant decrease in peroxidase activity of leucocytes assayable with p-phenylenediamine, but not with Guajacol. The peroxidase defect seemed to concern an azide-resistant peroxidase. However, in serum the glutathione peroxidase was only found insignificantly decreased.
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PMID:Clinical, social and biochemical studies on Batten's syndrome, alias Spielmeyer-Vogot or Stengel's Syndrome. 87 40

The influence of shortlasting (less than 1 min) epileptic seizures on the permeability to protein of the blood-brain barrier (BBB) was studied in rats. The protein tracer, horseradish peroxidase (HRP) was used as marker substance. Monitoring arterial blood pressure (BP) and electroencephalogramme (EEG) seizures were induced electrically after HRP was given intravenously. Following a single electroshock seizure slight staining of brain tissue was seen, while after 10 electroshock stimuli followed by sustained seizure activity, this phenomenon was more pronounced. If 10 electroshock stimuli were preceded by transsection of the spinal cord, blood pressure increase was abolished and no tissue staining was seen in spite of epileptic seizure activity recorded on EEG. This means that the acute hypertension and not the seizure activity per se is the mechanism behind the breakdown of the BBB during epileptic seizures. Electron microscopy revealed an increased vesicular transport (pinocytosis) across the endothelial cells, while the vascular structure remained intact.
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PMID:Acute hypertension causing blood-brain barrier breakdown during epileptic seizures. 92 Jan 12

The computed tomographic (CT) and magnetic resonance (MR) imaging findings in a middle-aged male with cerebral syphilis are described. He presented with convulsive seizures and focal neurological deficits. A CT scan revealed a slightly enhanced, low-density mass in the left parieto-occipital region. MR imaging showed low intensity on T1-weighted images and high intensity on T2-weighted images. He was initially diagnosed as having a low-grade glioma. However, intraoperative histological examination of a small surgical specimen revealed no tumor cells but heavy infiltration of inflammatory cells in the meninges and cerebral parenchyma. Immunostaining for Treponema organisms by the peroxidase-antiperoxidase method was positive. Although the clinical and radiological findings are nonspecific, neurosyphilis should be considered in any patient in whom a nonspecific mass lesion is demonstrated by CT and MR imaging.
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PMID:Neurosyphilis manifesting as a focal mass lesion: computed tomographic and magnetic resonance imaging features--case report. 169 49

The E1 (epileptic) mouse is considered a model for complex partial seizures in humans. Seizures in E1 mice begin around 7-8 weeks of age and persist throughout life. To determine if astrocytic gliosis was present in adult seizing E1 mice, the distribution of glial fibrillary acidic protein (GFAP) was studied in the hippocampus using an antibody to GFAP. The mean number of GFAP-positive cells per square millimeter of hippocampus was approximately 15- to 40-fold higher in adult E1 mice than in nonseizing control C57BL/6J (B6) mice or in young nonseizing E1 mice. Relative GFAP concentration (expressed per milligram of total tissue protein) in hippocampus and cerebellum was estimated by densitometric scanning of peroxidase-stained western blots. GFAP concentration was 2.7-fold greater in hippocampus of adult seizing E1 mice than in the control B6 mice. No differences in GFAP content were detected between the strains in the cerebellum. Because gangliosides can serve as cell surface markers for changes in neuronal cytoarchitecture, they were analyzed to determine if the gliotic response in E1 mice was associated with changes in neural composition. Although the total ganglioside concentration of hippocampus, cerebral cortex, and cerebellum was similar in adult E1 and control B6 mice, a synaptic membrane enriched ganglioside, GD1a, was elevated in the adult E1 cerebral cortex and hippocampus. The findings indicate that E1 mice express a type of gliosis that is not accompanied by obvious neuronal loss.
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PMID:Biochemical correlates of epilepsy in the E1 mouse: analysis of glial fibrillary acidic protein and gangliosides. 172 17

Soman, an organophosphorous irreversible inhibitor of acetylcholinesterase, was studied for its effect on the rat blood-brain barrier (BBB) during the first 24 h of intoxication. Young adult male Sprague-Dawley rats, injected with Evans blue-dye and surviving a subsequent single convulsive dose of soman (114 micrograms/kg, 0.9LD50), presented focal and diffuse penetration of dye in areas of brain normally considered protected by the BBB. Invasion was widest during the first hour when signs of excitation, respiratory distress and convulsions peaked and was absent at 24 h. During this time period, cholinesterase inhibition, as measured by enzyme assay, persisted in brain and blood at 10% and 6% of control values respectively. Brains of nonconvulsing animals and animals pretreated with nembutal (45 mg/kg, I.P.) or with diazepam (10 mg/kg, I.P.) were free of extravasated dye. A ranking of dye-breached brain areas suggested that cerebellar and cerebral cortex were most frequently involved while brain stem was rarely stained. Ultrastructural analysis of breached areas with horseradish peroxidase as a tracer molecule, revealed that the probable subcellular mechanism of the induced breach was enhanced vesicular transport, a mechanism similarly described for seizure. Consequences of the breach were emphasized with the detection of significantly elevated levels of an exogenously administered quaternary compound, 3H-hexamethonium. These findings present additional evidence that an anticholinesterase-induced breach of the rat blood-brain barrier is convulsive dependent, demonstrates BBB mechanisms similar to that of seizure, and can allow CNS penetration of blood-borne drugs and circulatory proteins that normally would be slowed or excluded by an intact BBB.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of an anticholinesterase compound on the ultrastructure and function of the rat blood-brain barrier: a review and experiment. 207 Mar 59

Kainic acid (KA) is a potent neuroexcitatory drug widely used in the experimental study of seizure activity. Subcutaneous injection of KA into rats (10 mg/kg in saline 10 mg/ml; pH 7.0) induced longlasting status epilepticus followed by damage of CNS tissue in the entorhinal/pyriform cortex and in the hippocampus. The studies covered by this report demonstrated the formation of cytotoxic brain edema characterized by massive swelling of perineuronal and perivascular astroglia with microcirculation disturbance after KA injection, resulting in parenchymal necrosis of the affected region; furthermore perivenous hemorrhages and necroses corresponding to herniation lesions of the brain appear. Tracer studies with Na-fluorescein, Evans blue, albumin, and horseradish peroxidase revealed only a mild increase in the permeability of cerebral vessels, topographically unrelated to areas of brain edema. Treatment of brain edema with dexamethasone did not influence the incidence and severity of edematous brain damage. Treatment with mannitol, however, completely prevented the lesion in 54% of animals injected with KA. The present results indicate that brain edema plays an important role in the pathogenesis of epileptic brain damage following systemic KA intoxication. It is suggested that in this model brain edema develops due to massive ionic imbalance caused by KA induced persistent neuronal excitation. In addition the model demonstrates the possible pathogenetic role of selective astrocytic swelling in the production of local hippocampal ischemia followed by herniation and its sequels. Such pathology originating from astrocytes probably may occur also in closed brain injury.
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PMID:Some mechanisms of brain edema studied in a kainic acid model. 213 Jun 48

Epilepsy complicates severe head trauma. Development of persistent seizures appears to correlate with the extent of trauma. Although early reports suggested that prophylactic administration of antiepileptic drugs would prevent epileptogenesis, controlled studies have failed to corroborate this assumption. Head trauma initiates a sequence of responses that includes altered blood flow and vasoregulation, disruption of the blood-brain barrier, increases in intracranial pressure, focal or diffuse ischemia, hemorrhage, inflammation, necrosis, and disruption of fiber tracts. The presence of an intracranial hematoma has a robust association with the development of post-traumatic epilepsy. Extravasation of blood is followed by hemolysis and deposition of heme-containing compounds into the neuropil, initiating a sequence of univalent redox reactions and generating various free radical species, including superoxides, hydroxyl radicals, peroxides, and perferryl ions. Free radicals initiate peroxidation reactions by hydrogen abstraction from methylene groups adjacent to double bonds of fatty acids and lipids within cellular membranes. Intrinsic enzymatic mechanisms for control of free radical reactions include activation of catalase, peroxidase, and superoxide dismutase. Steroids, proteins, and tocopherol also terminate peroxidative reactions. Tocopherol and selenium are effective in preventing tissue injury initiated by ferrous chloride and heme compounds. Treatment strategies for prevention or prophylaxis of post-traumatic epilepsy must await absolute knowledge of mechanisms. Antioxidants and chelators may be useful, given the speculation that peroxidative reactions may be an important component of brain injury responses. However, potential treatment strategies involving gamma-aminobutyric acid (GABA) agonists, NMDA receptor antagonists, and barbiturates need further scientific assessment.
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PMID:Post-traumatic epilepsy: cellular mechanisms and implications for treatment. 222 73

The protein transport of the neocortical blood vessels during experimental focal seizures was investigated in adult Wistar rats. The seizure focus was produced by the local application of isosmotic and isohydric 4-aminopyridine solution, while the electrocorticogram was monitored. The protein transport of the vessels was assessed through the histochemical detection of intravenously injected horseradish peroxidase. Serial sections of the whole seizure focus were evaluated in the light microscope, and the areas of protein extravasation were measured planimetrically. Two groups of animals were treated with diphenylhydantoin for 8 days, and the electro-corticographic and seizure experiments were then performed. Three main features of the pathological protein transport were found: 1) the increase in protein permeability was not mediated by a hypertensive crisis during the seizure; 2) the pathologic changes in the neurons and glia always preceded the breakdown of the blood-brain barrier; 3) this breakdown is probably closely related to neuronal hyperactivity, since it was prevented by diphenylhydantoin.
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PMID:Vasogenic brain edema in focal 4-aminopyridine seizures: the role of neuronal hyperactivity. 235 56


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