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)

We measured neurotransmitter markers in autopsied brain of infants with glycine encephalopathy (GE). Because patients with GE develop intractable seizures, special attention was devoted to those neurotransmitter systems implicated in human epilepsy. Mean levels of glycine in the frontal cortex of GE patients were three times higher than control values. No abnormalities were observed for concentrations of gamma-aminobutyric acid (and related receptors), other major neurotransmitter amino compounds, or activities of cholineacetyltransferase and aspartate aminotransferase. Mean acetylcholinesterase activity was significantly elevated by 46%. As experimental data suggest, glycine markedly potentiates the action of the excitatory neurotransmitter glutamic acid. To the extent that the brain seizures in patients with GE can be explained by this mechanism, pharmacotherapy with excitatory amino acid antagonists may represent a new approach to the treatment of GE.
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PMID:Brain neurotransmitters in glycine encephalopathy. 290 30

The hemlocks, Conium maculatum (poison-hemlock) and Cicuta spp. (waterhemlock), are poisonous plants that cause sizeable losss to the livestock industry. Clinical signs of poisonhemlock toxicosis are similar in all species of livestock and include muscular weakness, incordination, trembling, initial central nervous system stimulation, depression and death from respiratory paralysis. Poison-hemlock also causes skeletal defects in the offspring of cattle, pigs and sheep and cleft palate in pigs when ingested during specific periods of gestation. The primary toxicants in poison-hemlock are coniine and gamma-coniceine. Coniine predominates in mature plants and seed, whereas gamma-coniceine predominates in early growth of the plant. Waterhemlock is the most violently toxic poisonous plant known. The toxicant is cicutoxin, which acts on the central nervous system, causing violent convulsions and death. Clinical signs of poisoning appear within 15 min after ingestion of a lethal dose and include excessive salivation, nervousness, tremors, muscular weakness and convulsive seizures interspersed by intermittent periods of relaxation and a final paralytic seizure resulting in anoxia and death. Elevated activities of lactic dehydrogenase, aspartate aminotransferase and creatine kinase in blood are observed, indicative of muscular damage. Toxicoses from poisonhemlock and waterhemlock generally occur in early spring when both plants emerge before other, more palatable plants begin to grow. All parts of the poison-hemlock plant are toxic. The root or tubers of waterhemlock are toxic; however, experimental evidence concerning the toxicity of other plant parts is inconclusive.
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PMID:Toxicoses in livestock from the hemlocks (Conium and Cicuta spp.). 304 97

The activities of lipoyl dehydrogenase, aspartate transaminase, and alanine transaminase, and levels of lactate were estimated in cerebral cortex, cerebellum, and brainstem of rats intoxicated acutely with tetraethyl lead and chronically with lead acetate. A significant inhibition of lipoyl dehydrogenase was observed in both groups of animals, whereas transaminase activities were increased in inorganic lead toxicity. Oxidative decarboxylation and anaplerosis of pyruvate was assessed in brain slices using [1-14C]pyruvate. Pyruvate dehydrogenase activity was decreased in both organic and inorganic lead toxicity, whereas labelling of aspartate and alanine was increased in inorganic lead toxicity. In studies in vitro, lead acetate showed a more significant effect than tetraethyl lead. The higher anaerobic metabolism in inorganic lead toxicity, as evidenced by increased anaerobic lactate production by brain slices, could either be an adaptive mechanism or be due to the delayed maturation of brain in the developing rat. Such a mechanism does not occur in acute organic lead toxicity, as the compound brings about massive and rapid degenerative changes in brain, resulting in convulsive seizures and death of the animals.
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PMID:Pyruvate metabolism in the brain of young rats intoxicated with organic and inorganic lead. 654 9

The object of the study was to discover the changes in the plasma activities of hepatic enzymes in patients on anticonvulsant drugs. The plasma activities of aspartate transaminase (AST), alkaline phosphatase (ALP), alanine transaminase (ALT) and glutamyltransferase (GGT) were studied in 123 unselected patients on anticonvulsants. The results were compared with 123 control patients not on anticonvulsants matched for age and sex. Patients with known liver disease were excluded. The plasma activities of AST and ALP were similar in the two groups. ALT and GGT were raised in patients on anticonvulsants. No patient developed clinical evidence of liver disease. It was concluded that raised ALT and GGT are not in themselves indications to alter anticonvulsant therapy. Changes in AST and ALP would be more specific markers of liver dysfunction in patients on anticonvulsants.
Seizure 1993 Dec
PMID:Plasma activities of hepatic enzymes in patients on anticonvulsant therapy. 790 70

The chemistry, pharmacology, pharmacokinetics, clinical use, adverse effects, drug interactions, and dosage of felbamate are discussed. Felbamate (2-phenyl-1,3-propanediol dicarbamate) is chemically unrelated to any of the other currently marketed antiepileptic drugs (AEDs). It appears that felbamate, like phenobarbital and valproic acid, decreases the frequency of seizures by decreasing seizure spread and increasing seizure threshold. Oral felbamate is at least 90% absorbed, and peak concentrations are reached in one to six hours. The half-life is a little less than one day. A therapeutic range of plasma concentrations has not been determined. Felbamate has been used effectively as monotherapy and adjunctive therapy in patients with partial seizures with or without secondary generalization and as adjunctive therapy in children with partial or generalized seizures associated with Lennox-Gastaut syndrome. Felbamate may also be safe and effective in patients with generalized, absence, atypical absence, juvenile myoclonic, infantile, and gelastic seizures. The most frequently reported adverse effects of felbamate include nausea, anorexia, vomiting, headache, fatigue, somnolence, insomnia, and increased serum aspartate aminotransferase levels. The frequency of adverse effects is greater in patients receiving other AEDs in addition to felbamate. Felbamate affects the pharmacokinetics of phenytoin, carbamazepine, valproic acid, and methsuximide; other AEDs also affect the pharmacokinetics of felbamate. The dosage of felbamate should begin at 400 mg orally three times daily and then increase by 600 mg/day every two weeks to up to 3600 mg/day. If the patient is receiving other AEDs concurrently, their dosage should be decreased as the dosage of felbamate is increased. If the goal is to switch to felbamate, the dosage should be increased weekly as the dosages of other AEDs are reduced. Felbamate offers a safe and effective alternative to other AEDs in the treatment of partial and secondarily generalized seizures; partial and generalized seizures associated with Lennox-Gastaut syndrome; and atypical absence seizures, gelastic seizures, and other difficult to control seizures.
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PMID:Felbamate: a new antiepileptic drug. 794 90

Serum amino acid (AA) profiles are altered in epilepsy. It is not clear whether this is due to the disease process itself or to other variables such as seizure type, seizure frequency, duration of illness, medication, or altered liver function. We investigated serum AA profiles and liver enzymes in 73 epileptic patients and 90 healthy subjects and evaluated the data by analysis of variance to discriminate between age, sex, seizure type, duration of illness, seizure frequency, antiepileptic drug (AED) and increased serum liver enzyme levels, and their putative interaction with the serum AA profile. There was no correlation between the changes in the AA profile and age, duration of illness, seizure frequency, and seizure type. Seventy-two percent of the AED-treated patients and 33% of the unmedicated patients showed an increase in one or several serum liver enzymes [alanine aminotransferase (ALT), aspartate aminotransferase (AST), and/or gamma-glutamyl transferase (gamma-GT)]; particularly gamma-GT. We observed a significant increase in serum concentrations of glutamine and glycine and decreased levels of taurine, threonine, serine, valine, methionine, isoleucine, leucine, phenylalanine, histidine, tryptophan, and arginine in AED-treated patients but not in unmedicated patients. These results show that the changes in the serum AA profiles of epileptic patients treated with AEDs occur in patients with alteration of serum liver enzymes; whether this implies a causal relation is still uncertain.
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PMID:Serum amino acids, liver status, and antiepileptic drug therapy in epilepsy. 809 92

Patients with epilepsy on long term antiepileptic drug (AED) therapy deserve special consideration not only concerning seizure control but also the effect on anaesthetic metabolism and hepatorenal functions. In the present study, we examined the effects of sevoflurane anaesthesia on plasma inorganic fluoride (F-) level and hepatorenal function in patients with and without AED therapy. Twenty-two patients (12 with AEDs = AED group, and ten without AEDs = control group = C group), ASA I, who were free of hepatorenal disease, received approximately 2-3 h sevoflurane anaesthesia. Plasma F- analysis was performed at the stages of: 1) induction of anaesthesia, 2) conclusion of anaesthesia, 3) 15 h after the conclusion of anaesthesia, using an ion-selective electrode calibrated with a standard solution of sodium fluoride. Pre- and postoperative hepatic (aspartate aminotransferase, alanine aminotransferase, alkaline phosphatase, total bilirubin) and renal (blood urea nitrogen, creatinine) function was tested. There were no significant differences between the two groups in the average age (AED group = 9.4 and control group = 10.1 y.o.), body weight, duration of anesthesia, and MAC hours (2.6 and 2.4). The mean peak F- levels were 15.5 and 13.6 microM, in AED and C groups (not significant), respectively. No patient exhibited F- values greater than 50 microM, the hypothetical nephrotoxic threshold. The patients showed no abnormal values either in hepatic or renal function tests postoperatively. These results suggest approximately 2-3 h sevoflurane anaesthesia to be safe in patients taking AEDs.
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PMID:Clinical characteristics and biotransformation of sevoflurane in paediatric patients during antiepileptic drug therapy. 888 Aug 18

The clinical trial development programme of mirtazapine (Org 3770), performed in Europe and the United States, demonstrated an outstanding safety profile of this compound. The evaluation of the safety was based on data from all patients who took at least one dose of study medication during studies comparing mirtazapine with placebo, amitriptyline or other active comparators. A general indication of mirtazapine's safety is the significantly lower percentage of patients (65%) who complained of any adverse clinical experiences compared with the placebo- (76%) or amitriptyline-treated group (87%). Moreover, drop-out rates due to adverse clinical experiences were significantly lower than in the amitriptyline-treatment group. Mirtazapine has virtually no anticholinergic, adrenergic or typical selective serotonin reuptake inhibitor (SSRI) side effects. The only significantly higher incidences versus placebo were seen in the adverse clinical effects of drowsiness (23% versus 14%), excessive sedation (19% versus 5%), dry mouth (25% versus 16%), increased appetite (11% versus 2%) and weight increase (10% versus 1%). These complaints were typically mild and transient in nature, and decreased over time despite increased doses of mirtazapine. In contrast, significantly higher incidences of headache (5% versus 10%) and weight decrease (2% versus 6%), symptoms commonly seen in depressed patients, were recorded in the placebo-treated patients. Also, typical SSRI adverse events, such as nausea, vomiting, diarrhoea and insomnia, and symptoms of sexual dysfunction were registered less frequently in mirtazapine-treated patients than in the placebo-treated patients. Approximately 10% of the mirtazapine-treated patients in the clinical trial programme were older than 65 years. The pattern of adverse clinical experiences seen in this group of patients is fully in line with that seen in the overall patient population. The analysis of vital sign indices, i.e. blood pressure and heart rate, showed that no changes occurred with mirtazapine treatment; this pattern was fully comparable to that seen with placebo. Furthermore, very low incidences of clinically relevant changes in laboratory indices, such as the liver enzymes alanine aminotransferase and aspartate aminotransferase or neutropenia, were recorded in each treatment group. Mirtazapine has a very low seizure-inducing potential: only one case was recorded in a patient with a history of seizures during previous treatment with clomipramine. The low seizure-inducing potential combined with a lack of cardiotoxic properties allows safety in an overdose of mirtazapine, even in elderly patients. The only symptom seen in the patients taking an overdose of mirtazapine alone or in combination with other drugs was excessive but transient somnolence, which resolved spontaneously within a few hours. In conclusion, the new antidepressant mirtazapine offers clinicians a unique combination of strong efficacy and good safety.
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PMID:Safety of mirtazapine: a review. 893 8

Studies of neuroactive amino acids and their regulatory enzymes in surgically excised focally epileptic human brain are reviewed. Concentrations of glutamate, aspartate and glycine are significantly increased in epileptogenic cerebral cortex. The activities of the enzymes, glutamate dehydrogenase and aspartate aminotransferase, involved in glutamate and aspartate metabolism are also increased. Polyamine synthesis is enhanced in epileptogenic cortex and may contribute to the activation of N-methyl-D-aspartate (NMDA) receptors. Nuclear magnetic resonance spectroscopy (NMRS) reveals that patients with poorly controlled complex partial seizures have a significant diminution in occipital lobe gamma aminobutyric acid (GABA) concentration. The activity of the enzyme GABA-aminotransaminase (GABA-T) which catalyzes GABA degradation is not altered in epileptogenic cortex. NMRS studies show that vigabatrin, a GABA-T inhibitor and effective antiepileptic, significantly increases brain GABA. Glutamate decarboxylase (GAD), responsible for GABA synthesis, is diminished in interneurons in discrete regions of epileptogenic cortex and hippocampus. In vivo microdialysis performed in epilepsy surgery patients provides measurements of extracellular amino acid levels during spontaneous seizures. Glutamate concentrations are higher in epileptic hippocampi and increase before seizure onset reaching potentially excitotoxic levels. Frontal or temporal cortical epileptogenic foci also release aspartate, glutamate and serine particularly during intense seizures or status epilepticus. GABA in contrast, exhibits a delayed and feeble rise in the epileptic hippocampus possibly due to a reduction in the number and/or efficiency of GABA transporters.
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PMID:Neuroactive amino acids in focally epileptic human brain: a review. 1055 79

Seven related Quarter Horse foals that died by 7 weeks of age were examined for glycogen branching enzyme (GBE) deficiency. Clinical signs varied from stillbirth, transient flexural limb deformities, seizures, and respiratory or cardiac failure to persistent recumbency. Leukopenia (5 of 5 foals) as well as high serum creatine kinase (CK; 5 of 5), aspartate transaminase (AST; 4 of 4), and gamma glutamyl transferase (GGT; 5 of 5) activities were present in most foals, and intermittent hypoglycemia was present in 2 foals. Gross postmortem lesions were minor, except for pulmonary edema in 2 foals. Muscle, heart, or liver samples from the foals contained abnormal periodic acid Schiff's (PAS)-positive globular or crystalline intracellular inclusions in amounts proportional to the foal's age at death. Accumulation of an unbranched polysaccharide in tissues was suggested by a shift in the iodine absorption spectra of polysaccharide isolated from the liver and muscle of affected foals. Skeletal muscle total polysaccharide concentrations were reduced by 30%, but liver and cardiac muscle glycogen concentrations were normal. Several glycolytic enzyme activities were normal, whereas GBE activity was virtually absent in cardiac and skeletal muscle, as well as in liver and peripheral blood cells of affected foals. GBE activities in peripheral blood cells of dams of affected foals and several of their half-siblings or full siblings were approximately 50% of controls. GBE protein in liver determined by Western blot was markedly reduced to absent in affected foals, and in a half-sibling of an affected foal, it was approximately one-half the amount of normal controls. Pedigree analysis also supported an autosomal recessive mode of inheritance. The affected foals have at least 2,600 half-siblings. Consequently, GBE deficiency may be a common cause of neonatal mortality in Quarter Horses that is obscured by the variety of clinical signs that resemble other equine neonatal diseases.
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PMID:Glycogen branching enzyme deficiency in quarter horse foals. 1181 63

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