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)

Several interactions involving antiepileptic drugs are based on changes in the rate of their metabolism and elimination, with concomitant rise or fall of plasma levels. Thus, phenobarbital generally induces the production of the DPH metabolizing enzyme, but its presence inhibits the action of that enzyme. The net result depends upon the balance between these factors in individual patients. Either a decline, a rise, or no change of the DPH plasma level may occur after the onset of administration of phenobarbital. Drugs that may cause elevation of the DPH plasma level include disulfiram, sulthiame, bishydroxycoumarin, chloramphenicol, phenyramidol, benzodiazepines, sulfamethizole, and isoniazid. Isoniazid has been shown experimentally to be a strong inhibitor of DPH metabolism. The extent of DPH plasma level elevation by INH is related to the genetic make-up of individual patients. The highest and frequently toxic DPH plasma levels were seen in very slow INH inactivators. The incidence of clinically significant interactions is not high with most drug combinations; marked changes of antiepileptic drug levels occur only in apparently susceptible individuals. The effects of interactions are not necessarily detrimental; elevation of a low ineffective level may improve seizure control. A rise to a toxic level range requires reduction of the dose of primary drug or elimination of interfering drugs. Monitoring the blood levels of anti-epileptic drugs provides the best means to anticipate interactions and to regulate the doses when multiple medications have to be used.
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PMID:Interactions of antiepileptic drugs. 5 Feb 32

Isoniazid inhibited the metabolism of primidone in a patient with focal seizures. The steady-state serum level of primidone rose when the patient received both drugs simultaneoulsy. The serum levels of the primidone metabolites, phenobarbital and phenylethylmalonamide, fell and the rate of metabolism of primidone decreased. The results are similar to those observed when isoniazid is adminstered with diphenylhydantoin.
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PMID:Isoniazid as an inhibitor of primidone metabolism. 81 7

Incubation of rat brain synaptosomes and mitochondria with LPO inducers (Fe2+ and ascorbate) was accompanied by a decrease of deamination of serotonin (substrate of MAO-A) in mitochondria, but not in synaptosomes, with simultaneous stimulation of GABA and GLCA deamination, apparently owing to modification of catalytic properties of brain membrane-bound MAO. Oxidation of PEA (substrate of MAO-B) was insignificantly altered in both fractions. Reactions of deamination of serotonin, GABA, and GLCA (but not PEA), were highly sensitive to a selective inhibitor of MAO-A pyrazidol (pyrlindole). Isoniazid and hydrazides of quinoline carbonic acids (inhibitors of both modified MAO and copper-containing amine oxidases) strongly inhibited deamination of GABA and GLCA. During epileptiformic seizures in rats, genetically selected for high incidence of audiogenic epilepsia, stimulation in brain synaptosomes and mitochondria of LPO was observed. This was accompanied by a marked decrease in serotonin and PEA deamination, with a simultaneous increase in GABA and GLCA deamination in both fractions. The data obtained suggest that appearance of GABA-deaminating activity owing to modification of catalytic properties of MAO, might be an essential pathogenetic component in the development of epileptic seizures.
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PMID:The role of lipid peroxidation in the possible involvement of membrane-bound monoamine oxidases in gamma-aminobutyric acid and glucosamine deamination in rat brain. Focus on chemical pathogenesis of experimental audiogenic epilepsy. 152 Apr 3

Effect of some histamine (HA) agonists and antagonists were assessed on electroshock (MES) convulsions in mice and rats. In mice, pretreatment with the HA precursor, l-histidine (100, 500 and 1000 mg/kg) precipitated seizures after a subthreshold (30 mA) stimulus. Both incidence (%) and tonic hind limb extensor phase (THE) were more than that in vehicle treated controls. The H1 blockers, pheniramine (25 mg/kg) and promethazine (25 mg/kg) both protected against (60 mA) MES and both incidence of convulsions and THE were reduced. A similar protective effect was not seen with either the H2 blocker, cimetidine (up to 200 mg/kg), or atropine (1 mg/kg). In rats, both the classical antihistamines blocked MES seizures, whereas, the H2-blocker, cimetidine, and atropine were, ineffective. Further, both H1 blockers were ineffective in antagonizing seizures induced by pentylenetetrazole, INH, caffeine or strychnine. These results are discussed in light of a possible HA-ergic regulation of experimental convulsions.
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PMID:Histaminergic mechanisms in experimental convulsions. 187 53

We report earlier that isoniazid and foot-shock stress individually increase the maximal number of [35S]TBPS binding sites (Bmax) measured "ex vivo" in unwashed membranes from rat cerebral cortex and that the increase due to both treatments are prevented by pretreatment "in vivo" with diazepam which alone induced a significant decrease in the total number of [35S]TBPS binding sites. In the present paper, the effect of stress was studied on both the increase in [35S]TBPS binding and the convulsant activity induced by isoniazid in unstressed rats. Isoniazid induced a time dependent increase in [35S]TBPS binding. The isoniazid-induced increase in [35S]TBPS binding was markedly potentiated by foot-shock stress. Moreover, foot-shock stress markedly reduced the latency to the appearance of generalized seizures induced by isoniazid (300 mg/kg s.c.). The results provide evidence that the "in vivo" inhibition of GABAergic transmission elicited by isoniazid results in an increase of [35S]TBPS binding in the rats cerebral cortex. The finding that stress, like isoniazid, enhances [35S]TBPS binding suggests that this treatment also inhibits the function of GABAergic synapses.
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PMID:Foot-shock stress enhances the increase of [35S]TBPS binding in the rat cerebral cortex and the convulsions induced by isoniazid. 205 36

Isoniazid overdose is known to result in the rapid onset of seizures, metabolic acidosis, and prolonged obtundation. Pyridoxine has been reported to be effective in treating isoniazid-induced seizures. We report three cases of obtundation secondary to isoniazid overdose that was immediately reversed by intravenous pyridoxine. In two of these cases, status seizures were stopped by intravenous pyridoxine administration, but the patients remained comatose for prolonged periods. The comas were immediately reversed by the administration of additional pyridoxine. In the third case, the patient's lethargy was treated by intravenous pyridoxine on presentation and was followed by immediate awakening. Pyridoxine is effective in treating not only isoniazid-induced seizures, but also the mental status changes associated with this overdose. The dose required to induce awakening may be higher than that required to control seizures.
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PMID:Reversal of prolonged isoniazid-induced coma by pyridoxine. 129 May 58

Isoniazid (INH) poisoning is a known cause of metabolic acidosis and seizures. The following case report describes a 14-year-old boy with an INH overdose who suffered profound metabolic acidosis (pH of 6.69) and who completely recovered with no obvious sequelae.
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PMID:Complete recovery from severe metabolic acidosis associated with isoniazid poisoning in a young boy. 260 6

Isonicotinic hydrazide, a drug that decreases the level of GABA, when injected subcutaneously in control and scrapie-infected hamsters induced tonic-clonic seizures in scrapie hamsters significantly earlier (P less than 0.0001) than in control animals. This suggests depression of the GABAergic system in scrapie-infected hamsters. To determine whether this lesion is pre or postsynaptic we measured the level of GABA, glutamate, cGMP and cAMP and the GABA-benzodiazepine receptor complex.
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PMID:Isonicotinic hydrazide causes seizures in scrapie-infected hamsters with shorter latency than in control animals: a possible GABAergic defect. 285 87

The anticonvulsant potential of 6-chloro-2-(ethylamino)-4-methyl-4-phenyl-4H-3,1-benzoxazine (etifoxine), a non-benzodiazepine tranquilizer, was evaluated in mice in comparison to valproate, phenytoin and clobazam. Maximal seizures were induced by electroshock (MES) and the chemical convulsants pentetrazol (PTZ), picrotoxin (PTX), bicuculline (BIC), isoniazid (INH), nicotine (NIC) and strychnine (STR). Tonic extensor convulsions were prevented by etifoxine in the following rank order of potency (ED50 values with seizure tests): 39.5 (PTX), 101 (PTZ), 101 (MES), 154 (INH), 181 (NIC), 397 (BIC), and greater than 800 mg/kg p.o. (STR). Clonic seizures were induced by threshold doses of PTZ, PTX and pilocarpine (PIL) and antagonized by etifoxine at ED50 values of 181 (PIL), 221 (PTZ), and greater than 800 mg/kg p.o. (PTX). Hence, etifoxine blocked both tonic and clonic seizures but was more potent against the tonic component. The anticonvulsant profile of etifoxine appeared similar to that of valproate. However, in terms of potency, protective indices (ED50 rotarod/ED50 seizure test) and therapeutic indices (LD50/ED50 seizure test) etifoxine was on an average 3.7, 12 and 14 times superior to valproate, respectively. It is concluded that etifoxine has a marked anticonvulsive potential and may be beneficially used in epileptic disorders, especially of the grand mal type.
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PMID:Etifoxine: evaluation of its anticonvulsant profile in mice in comparison with sodium valproate, phenytoin and clobazam. 285 23

Rats were treated with different doses of isoniazid (INH) causing convulsions. Lethal dose (DL50) and effective convulsant dose (ED50) were calculated. Reduced glutathione (GSH) and related aminoacids were administered to rats receiving INH: the latency and duration of convulsions were recorded; cerebral gamma-aminobutyric acid (GABA) concentrations were determined in rats receiving INH and an association of GSH and INH. GSH and its related aminoacids as cysteine and glycine greatly decreased the duration of INH-induced seizures, while glutamic acid did not protect against convulsions caused by INH. Furthermore, INH causes a decrease in cerebral GABA levels to about half and GSH repeated pretreatment did, however, not prevent the INH induced decline of GABA content: hence, the anticonvulsant effect of GSH can not be ascribed to the restoration of normal levels of anti-epilectically acting GABA, but can be attributed to cysteine and glycine, aminoacids linked to GSH.
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PMID:Anti-convulsant effects by reduced glutathione and related aminoacids in rats treated with isoniazid. 289 86

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