UMLS:C0036572 - FACTA Search

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

Changes in amino acid concentrations were investigated in selected regions of rat brain prior to the onset and during the course of epileptiform seizures induced by L-homocysteine. The concentration of gamma-aminobutyric acid (GABA) decreased preictally in substantia nigra (-18%), caudate putamen (-26%), and inferior colliculus (-46%). After seizure onset, the GABA content was further reduced in substantia nigra (-31%) and additionally in hippocampus (-18%). Preictal taurine levels were elevated in globus pallidus (+26%) and caudate putamen (+13%) but returned to normal after seizure onset. However, in hippocampus, taurine decreased both preictally (-22%) and after seizure onset (-56%). Glycine was reduced preictally only in globus pallidus (-13%). After seizure onset the direction of its concentration change varied in the brain regions studied. Glutamate levels decreased preictally in hippocampus (-10%) and hypothalamus (-46%) but increased in globus pallidus (+14%). Normal levels were detectable after seizure onset in hypothalamus and globus pallidus but a further reduction in hippocampus (-59%) and significant reductions in substantia nigra (-15%) and caudate putamen (-17%) were detected. Aspartate was elevated in hippocampus, both preictally (+49%) and after seizure onset (+21%) while at the same phases in globus pallidus a consistent reduction (-30%) was observed. The glutamine content increased preictally in globus pallidus (+41%) and hypothalamus (+36%), and in all brain areas during the ictal phase of seizure, the hippocampus exhibiting a dramatic increase (approximately 300%). The contents of serine and alanine were altered in most regions studied only after seizure onset, with the exception of the hippocampus, where a decrease (-41%) of serine was observed preictally.
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PMID:Differential changes in the content of amino acid neurotransmitters in discrete regions of the rat brain prior to the onset and during the course of homocysteine-induced seizures. 287 Jan 35

Chemical (C) kindling by means of repeated spaced injections into the amygdala (AM) of a subconvulsive dose of L-glutamate and L-aspartate combined in a molar ratio of 1:3. (Glu/Asp) produced progressive seizure development culminating in generalized convulsion strikingly similar to electrically kindled Stage 5 seizure in rats. These C-kindled AM sites responded readily to electrical stimulation with very rapid development of kindled seizure. When a separate group of rats electrically kindled at the AM were subjected to identical C-kindling at the kindled AM site, a similar positive transfer effect was observed. In addition, 30 days following the last injection, kindled Stage 5 seizure was triggered with a single injection of Glu/Asp, one-half of the dose used for C-kindling. These results suggest that the glutamate and/or aspartate systems participate in the development and persistence of increased seizure susceptibility induced by AM kindling.
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PMID:Bidirectional transfer between kindling induced by excitatory amino acids and electrical stimulation. 289 70

Increased concentration of the excitatory neurotransmitter aspartic acid in actively spiking human epileptic cerebral cortex was recently described. In order to further characterise changes in the aspartergic system in epileptic brain, the behaviour of aspartic acid aminotransferase (AAT), a key enzyme involved in aspartic acid metabolism has now been examined. Electrocorticography performed during surgery was employed to identify cortical epileptic spike foci in 16 patients undergoing temporal lobectomy for intractable seizures. Patients with spontaneously spiking lateral temporal cortex (n = 8) were compared with a non-spiking control group (n = 8) of patients in whom the epileptic lesions were confined to the hippocampus sparing the temporal convexity. Mean activity of AAT in spiking cortex was significantly elevated by 16-18%, with aspartic acid concentration increased by 28%. Possible explanations for the enhanced AAT activity include increased proliferation of cortical AAT-containing astrocytes at the spiking focus and/or a generalised increase in neuronal or extraneuronal metabolism consequent to the ongoing epileptic discharge. It is suggested that the data provide additional support for a disturbance of central excitatory aspartic acid mechanisms in human epileptic brain.
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PMID:Aspartic acid aminotransferase activity is increased in actively spiking compared with non-spiking human epileptic cortex. 289 10

Here I have reviewed evidence from electron microscopic studies showing that each of several sustained limbic seizure syndromes is associated with a type of acute brain damage which is ultrastructurally indistinguishable from the brain damage induced by Glu and other excitotoxins. In addition, I have presented evidence that persistent stimulation of specific axonal tracts that use Glu as transmitter results in Glu-like excitotoxic degeneration of postsynaptic neurons innervated by such tracts. Phencyclidine and ketamine, which powerfully block the neurotoxicity of the Glu analog NMA, protect against seizure-related brain damage. This may be explained by either an anticonvulsant or antiexcitotoxic mechanism, or both. Recent evidence suggests that an excitotoxic mechanism (excessive activation of Glu/Asp receptors) may underlie both seizure-mediated and anoxic brain damage. The acute fulminating type of neuronal degeneration induced by Glu is a Na+ and Cl- but not Ca2+ dependent phenomenon. According to a recent study, however, Glu may induce neuronal necrosis not only by an acute Ca2+ independent process but by a more slowly evolving Ca2+ dependent process. If, as these data suggest, an excitotoxic mechanism underlies brain damage associated with anoxia and epilepsy, a better understanding of excitotoxic mechanisms may lead eventually to prophylactic approaches for preventing such forms of brain damage.
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PMID:Inciting excitotoxic cytocide among central neurons. 302 64

Intracerebroventricular injection in the rat of beta-D-aspartyl aminomethylphosphonate (Asp-Amp) 1 mumol, or Y-D-glutamylaminomethylsulphonate (GAMS) 1 mumol, increases the onset pressure for the initial tremor phase of the high pressure neurological syndrome (HPNS) by 50%. Asp-Amp also significantly increases the onset pressures for myoclonus and for tonic-clonic seizures. GAMS did not significantly change the onset pressures for myoclonus or tonic clonic seizures, but it caused the appearance of brief clonic seizures prior to the onset of the HPNS.
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PMID:The effect of two novel dipeptide antagonists of excitatory amino acid neurotransmission on the high pressure neurological syndrome in the rat. 304 Apr 42

The effect of chronic administration of gamma-vinyl GABA (GVG; vigabatrin) on levels of neurotransmission-related amino compounds was studied in lumbar cerebrospinal fluid of 65 patients with complex partial epilepsy. The first sample of cerebrospinal fluid was taken before a 3-month period of treatment with 3 g gamma-vinyl GABA/day, and the second was taken afterwards. From patients who showed a greater than 50% reduction in seizures (responders) or marked improvement in global performance, a third sample was taken at the end of the next 3-month phase, during which 3 g or 1.5 g gamma-vinyl GABA had been administered daily. During treatment with 3 g gamma-vinyl GABA/day, 55% of the patients showed more than 50% reduction in complex partial seizures; and at the same time free GABA, total GABA, homocarnosine, and glycine concentrations in the cerebrospinal fluid increased by 104%, 151%, 194% and 16%, respectively. After reduction of the daily dose to 1.5 g, the levels of free GABA, total GABA and homocarnosine were still increased by 65%, 115% and 102%, respectively. gamma-Vinyl GABA correlated with the levels of free GABA (P less than 0.002) and glycine (P less than 0.001). Concentrations of homocarnosine at baseline and homocarnosine and total GABA during gamma-vinyl GABA treatment were lower (P less than 0.005) in the group of non-responders than in the responder group. Glutamic acid, glutamine, aspartic acid, asparagine, and taurine levels did not change during gamma-vinyl GABA treatment. In conclusion, administration of gamma-vinyl GABA reduces epileptic seizures and produces dosage-dependent increases in levels of free GABA, GABA-containing peptides and of glycine in cerebrospinal fluid, without concomitant change in levels of excitatory amino acids.
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PMID:Inhibitory and excitatory amino acids in CSF of patients suffering from complex partial seizures during chronic treatment with gamma-vinyl GABA (vigabatrin). 314 62

The effect of diazepam on inbred mutant E1 mice, which develop convulsive seizures after repeated sessions of being tossed up, was examined. Acute administration of diazepam (32 mg/kg, i.p.) completely inhibited the convulsions. At that time, the dopamine level was increased in the cortex and hippocampus, and the norepinephrine level in the cerebellum was decreased. 5-Hydroxytryptamine levels were not changed. As for amino acids, the glutamine level increased and the levels of GABA, glutamic acid, aspartic acid, alanine and other amino acids were not changed.
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PMID:Depressed convulsions by diazepam and its effects on brain monoamines and amino acids in E1 mice. 319 91

The alteration of amino acids content in cerebrospinal fluids (CSF) from 31 cases of epilepsy and 10 cases of headache (as control) was studied using high performance liquid chromatography (HPLC). In patients with epilepsy, it was found that the CSF levels of GABA and aspartic acid had a tendency to decrease, but these changes were not statistically significant. In simple partial seizures, the CSF levels of glutamic acid and glycine also showed a tendency to decrease. The decrease of CSF GABA found in epileptics had a tendency to normalize following treatment with valproic acid. At the same time, administration of valproic acid induced a decrease of aspartic acid in the CSF of epileptics. These results suggest that administration of valproic acid may induce an increase in GABA and a decrease in aspartic acid in the CSF of epileptics.
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PMID:Alteration of amino acid content of cerebrospinal fluid from patients with epilepsy. 322 34

CPP has a potent anticonvulsant effect against sound-induced seizures in audiogenic DBA/2 mice. Pretreatment with CPP (0.01-10 nmol i.c.v., 45 min) protects against successive phases of sound-induced seizures in a dose-dependent fashion (ED50, tonic phase, 0.023 nmol; clonic phase, 0.039 nmol; wild running, 0.17 nmol). Systemic administration of CPP (0.001-0.1 mmol/kg i.p., 45 min) produces a similar protection (ED50, tonic phase, 0.0012 mmol/kg; clonic phase, 0.0026 mmol/kg; wild running, 0.021 mmol/kg). Following the administration of a fully anticonvulsant dose of CPP (0.1 mmol/kg i.p., 45 min) to adult DBA/2 mice regional brain glucose (cerebellum and striatum) levels are elevated and lactate (striatum and hippocampus) levels decrease. The CPP-induced changes in alanine, serine and glycine paralleled those of lactate. Aspartate levels are significantly decreased by CPP in the striatum (-21%) and the hippocampus (-23%).
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PMID:Anticonvulsant action and biochemical effects in DBA/2 mice of CPP (3-((+/-)-2-carboxypiperazin-4-yl)-propyl-1-phosphonate), a novel N-methyl-D-aspartate antagonist. 330 90

An association has recently been proposed between the incidence of seizures and prolonged consumption of the phenylalanine-containing artificial sweetener, aspartame. Since consumption of aspartame, unlike dietary protein, can elevate phenylalanine in brain, and thereby inhibit the synthesis and release of neurotransmitters known to protect against seizure activity, the effect of oral doses of aspartame on the sensitivity of mice to the proconvulsant agents, pentylenetetrazole and fluorothyl was studied. Doses of aspartame were used which increased phenylalanine more than tyrosine in brain, as occurs in humans after the consumption of any dose of aspartame. Pretreatment with aspartame significantly increased the percentage of animals convulsing after administration of pentylenetetrazole and significantly lowered the CD50 for this convulsant. The average time to onset of seizures induced by fluorothyl in control mice was 510 sec; pretreatment with oral doses of 1000, 1500 and 2000 mg/kg of aspartame 1 hr earlier significantly reduced the time required to elicit seizures (394, 381 and 339 sec, respectively). The seizure-promoting effect of aspartame could be demonstrated 30, 60 or 120 min after the 1000 mg/kg dose. The seizures induced by either convulsant were potentiated by equimolar amounts of phenylalanine, a major endogenous metabolite of aspartame, while the other metabolites, aspartic acid and methanol, were without effect. Administration together with aspartame of the large neutral amino acid valine, which competes with phenylalanine for entry into the brain, completely abolished the seizure-promoting effect of aspartame.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Administration of aspartame potentiates pentylenetetrazole- and fluorothyl-induced seizures in mice. 335 66

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