Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038220 (status epilepticus)
 7,272 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Kainic acid-induced multifocal status epilepticus in the rat is a model of medically intractable complex partial seizures and neurotoxicity. The exact mechanisms of kainic acid epileptogenic and neurotoxic effects are unknown, but enhanced glutamate release seems to be an important factor. PNU-151774E ((S)-(+)-2-(4-(3-fluorobenzyloxy) benzylamino) propanamide, methanesulfonate) is a broad-spectrum new anticonvulsant with Na+ channel-blocking and glutamate release inhibiting properties. We have examined the effect of pretreatment with this compound on both seizure activity and hippocampal neuronal damage induced by systemic injection of kainic acid in rats. Lamotrigine, a recently developed anticonvulsant with similar glutamate release inhibitory properties, was tested for comparison, together with diazepam as reference standard, on the basis of its anticonvulsant and neuroprotectant properties in this animal model. PNU-151774E, lamotrigine (10, 30 mg/kg; i.p.) and diazepam (20 mg/kg; i.p.) were administered 15 min before kainic acid (10 mg/kg; i.p.). In the vehicle-treated group, kainic acid injection caused status epilepticus in 86% of animals. Hippocampal neuronal cell loss was 66% in the CA4 hippocampal area at 7 days after kainic acid administration. Diazepam inhibited both seizures and neurotoxicity. Lamotrigine reduced hippocampal neuronal cell loss at both doses, even when it did not protect from seizures, although it showed a trend toward protection. On the other hand PNU-151774E protected from both hippocampal neurodegeneration and status epilepticus. Thus, these data support the concept that seizure prevention and neuroprotection might not be tightly coupled. Glutamate release inhibition may play a major role in neuroprotection, but an additional mechanism(s) of action might be relevant for the anticonvulsant activity of PNU-151774E in this model.
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PMID:PNU-151774E protects against kainate-induced status epilepticus and hippocampal lesions in the rat. 983 Dec 89

Phenytoin (5,5-diphenylhydantoin), which has been in use for 60 years, is still an important antiepileptic drug. Its primary mechanism of action is modulation of the sustained repetitive firing of neurones by direct inhibition and blockage of voltage-gated sodium channels in the neuronal cell membrane, and by delay of cellular reactivation. The plasma protein binding of phenytoin is normally between 90% and 95%. The drug is rapidly distributed from the blood to the tissues and is almost completely metabolized in the liver. The plasma phenytoin concentration normally reaches the steady-state level within 1-2 weeks. The half-life of phenytoin is less than 20 h in low doses, but is prolonged in high doses, newborn infants and elderly people. The half-life is shortened when phenytoin is given concomitantly with an enzyme-inducing drug, such as phenobarbital or carbamazepine. Phenytoin is effective for treating generalized tonic-clonic seizures, partial seizures with or without generalization, and convulsive status epilepticus. Over the years, many new, and even serious, adverse effects of phenytoin have been recognized. Phenytoin encephalopathy, manifesting as cognitive impairment and a cerebellar syndrome, is an important adverse neurological effect, the development of which depends on the saturation kinetics of phenytoin, individual differences in phenytoin metabolism, an inhibitory effect of certain drugs on phenytoin metabolism, or the ability of certain drugs to displace phenytoin from plasma proteins, leading to an increase in the plasma level of unbound phenytoin. Because of its potentially adverse effects, phenytoin is not recommended as the first choice for treating epileptic seizures, except as a co-drug for managing convulsive status epilepticus. In patients with epilepsy who also have intellectual disability, and are susceptible to balance disturbances and cognitive dysfunction, it is wise to replace phenytoin with another drug, such as carbamazepine or oxcarbazepine. The long-term use of phenytoin is not recommended for patients with loss of locomotion, marked cognitive impairment, or symptoms and signs of cerebellar disease. The prevention of phenytoin intoxication, with the subsequent development of phenytoin-induced encephalopathy, depends on careful observation of the patients and frequent monitoring of plasma levels of phenytoin and other concomitantly administered antiepileptic drugs.
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PMID:Phenytoin: effective but insidious therapy for epilepsy in people with intellectual disability. 1003 Apr 28

A case is described in which non-convulsive status epilepticus (NCSE) prompted further investigation leading to the diagnosis of Lafora body disease (LBD). The onset of NCSE was temporally related to the withdrawal of sodium valproate and introduction of carbamazepine, which may have been precipitating factors. NCSE has not previously been reported in LBD. Implications for its drug management are discussed.
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PMID:An unusual case of Lafora body disease. 1005 40

Felbamate demonstrates a unique therapeutic profile and often results in seizure control when other agents fail. Its use has been associated with risks for aplastic anaemia and hepatic failure. A number of confounding factors makes the actual incidence rate for each adverse effect difficult to determine. However, certain risk factors are common in reported cases. In order to minimise the risk, at the present time, it is necessary to rely on the clinical profile of the patients reporting these adverse effects. The patient reporting aplastic anaemia is usually female, Caucasian, and an adult. The dose did not appear to be a factor and the time to onset of aplastic anaemia was less than 1 year for all patients. Concomitant medications and diseases may play an important role. Patients with reported aplastic anaemia generally had a history of a serious allergy or toxicity to other anticonvulsants and/or a background of having had a cytopenia due to other anticonvulsants, and a diagnosis or serological evidence of concomitant immune disorder. The demographics associated with hepatic failure are less well defined. Patients were also predominantly female, were equally divided among adult and paediatric patients, and had a broad range of time to presentation of hepatotoxicity following felbamate therapy. Concomitant medications again play an important role with, in this case, valproic acid (sodium valproate), phenytoin and carbamazepine being the most frequent. In 50% of the population, hepatic failure was not felt to be due to felbamate but associated with confounding factors including status epilepticus, paracetamol (acetaminophen) toxicity, hepatitis and shock liver. Initial research has failed to provide a diagnostic indicator. However, work on a potential intermediate felbamate metabolite has suggested the formation of a reactive aldehyde whose end products have been detected in the urine of felbamate treated patients. Until these data are confirmed, the medical history, clinical picture, and laboratory testing, should be used to identify patients at risk. The risks for toxicity with felbamate should be evaluated before starting treatment. In addition, liver function tests and complete blood count (CBC) prior to therapy and at clinically rational intervals should be conducted. Patients must be educated in the likely prodromal symptoms of potential marrow/liver toxicity. Felbamate is too valuable an anticonvulsant to be relegated to the therapeutic scrap heap. With monitoring, patient education, and continued research to further elucidate risk factors, felbamate can be a viable therapeutic agent for patients with epilepsy.
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PMID:Felbamate in epilepsy therapy: evaluating the risks. 1048 99

A 57-year-old woman with a 7-year history of Parkinson's disease was admitted to our hospital because of a high fever, disturbance of consciousness, increased muscular rigidity, tachycardia and hyperhidosis after she stopped taking her prescribed levodopa + carbidopa (Menesit) 400 mg/day. In the laboratory examinations, the erythrocyte sedimentation rate was 109 mm/h, thrombocytes 7.8 x 10(4)/mm3, fibrinogen 457 mg/dl, FDP 74.8 micrograms/dl, thus suggesting disseminated intravascular coagulation (DIC). According to her biochemical examination, the serum AST (253 IU/l), ALT (178 IU/l), CK (7115 IU/l) and BUN (25 mg/dl) levels were all increased. These laboratory data and the clinical course indicated the patient to be suffering from neuroleptic malignant syndrome (NMS) with DIC. She was diagnosed to have NMS associated with DIC. She was treated with dantrolene sodium, bromocriptine, and gabexate mesilate, and her symptoms thereafter gradually improved. On day 7, she developed status epilepticus in spite of the clinical improvement in her symptoms of NMS and DIC including a clouding of consciousness. The status epilepticus was also attenuated by the use of thiamylal sodium. Patients with Parkinson's disease associated with NMS are considered to have a low incidence of DIC, status epilepticus, and in Japan this may be the first case report of the successful treatment of NMS with DIC and status epilepticus in a patient with Parkinson's disease.
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PMID:[A successfully treated parkinsonian patient with neuroleptic malignant syndrome complicated by status epilepticus and disseminated intravascular coagulation]. 1050 92

Intranasal (IN) administration is a promising approach for rapid-onset delivery of medications. In order to assess the feasibility of this approach for the emergency treatment of status epilepticus, three anticovulsants, i.e. diazepam (DZ), clonazepam (CZ), and a monocarbamate-based new compound (MCA) were studied in rabbits for the pharmacokinetics (PK) and pharmacodynamic (PD) response following intravenous (IV) and IN administrations. The animals were intranasally dosed with DZ (1 mg/kg), CZ (0.2 mg/kg), and MCA (5 mg/kg), dissolved in 200 microl of vehicle consisting of propylene glycol (PG), ethanol (EtOH), and water in the presence or absence of 1% sodium glycocholate (SGC) using single and repeated dosing schedules. Both DZ and CZ were absorbed very rapidly from 1% SGC/60% PG-30% EtOH-10% Water after IN single application; the T(max)'s were less than 2 min. The absorption rate of MCA was relatively slower with the peak time of 13-32 min. The bioavailability of single IN administration for DZ, CZ, and MCA determined over the first 2 or 4 h was found to be 77, 45, and 79%, respectively. The peak plasma level of DZ increased linearly with increasing the volume fraction of EtOH in the ternary cosolvent (20% to 60%). A repeated IN application of DZ, 5 min after the first dose, doubled the C(max) and AUC(0-2 h) values of the first one, whereas those of CZ and MCA resulted in an increase of 73-94% of the first dose. A single IN application of DZ- and CZ-containing formulations produced a PD response within 1.5 min, which was comparable to that of an IV injection. These results suggest that single or repeated IN applications of DZ, CZ, and MCA in a hydroalcohol-glycolic formulation might represent a viable approach to achieving a rapid systemic absorption of these anticonvulsants during the emergency treatment of status epilepticus and other types of seizures.
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PMID:Rapid-onset intranasal delivery of anticonvulsants: pharmacokinetic and pharmacodynamic evaluation in rabbits. 1079 28

Aspirin (acetylsalicylic acid), and its main metabolite sodium salicylate, have been shown to protect neurons from excitotoxic cell death in vitro. The objective of our study was to investigate the possible neuroprotective effects of sodium salicylate in vivo in rats with kainic acid-induced seizures, a model for temporal lobe epilepsy in human patients. Male Sprague-Dawley rats received intraperitoneal injections of kainic acid either alone, or with sodium salicylate given before and for 40h after kainic acid injections. The control group received either phosphate-buffered saline or sodium salicylate without co-administration of kainic acid. Animals developed status epilepticus, which was aborted 1.5-2h later with diazepam. On day 3 following kainic acid-induced seizures, animals received bromodeoxyuridine to measure cellular proliferation, and were killed under anesthesia 24h later. Brains were removed, sectioned, and analysed for gross histological changes, evidence of hemorrhage, DNA fragmentation, cellular proliferation, and microglial immunohistochemistry. We report that sodium salicylate did not protect neurons from seizure-induced cell death, and to the contrary, it caused focal hemorrhage and cell death in the hippocampal formation and the entorhinal/piriform cortex of rats with kainic acid-induced seizures. Hemorrhage was never observed in animals that received vehicle, kainic acid or sodium salicylate only, which indicated that sodium salicylate exerted its effect only in animals with seizures, and was confined to select regions of the brain that undergo seizure activity. Large numbers of cells displaying DNA fragmentation were detected in the hippocampal formation, entorhinal/piriform cortex and the dorsomedial thalamic nucleus of rats that received kainic acid or kainic acid in combination with sodium salicylate. Bromodeoxyuridine immunohistochemistry revealed large numbers of proliferating cells in and around the areas with most severe neural injury induced by kainic acid or kainic acid co-administered with sodium salicylate. These same brain regions displayed intense staining with a microglia-specific marker, an indication of microglial activation in response to brain damage. In all cases, the degree of cell death, cell proliferation and microglia staining was more severe in animals that received the combination of kainic acid and sodium salicylate when compared to animals that received kainic acid alone. We hypothesize that our findings are attributable to sodium salicylate-induced blockade of cellular mechanisms that protect cells from calcium-mediated injury. These initial observations may have important clinical implications for patients with epilepsy who take aspirin while affected by these conditions, and should promote further investigation of this relationship.
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PMID:The aspirin metabolite sodium salicylate causes focal cerebral hemorrhage and cell death in rats with kainic acid-induced seizures. 1092 56

Encephalopathy with electrical status epilepticus during sleep or ESES is an age-dependent and self-limited syndrome whose distinctive features include a characteristic age of onset (with a peak around 4-5 years), heterogeneous seizures types (mostly partial motor or unilateral seizures during sleep and absences or falls while awake), a typical EEG pattern (with continuous and diffuse paroxysms occupying at least 85% of slow wave sleep) and a variable neuropsychological regression consisting of IQ decrease, reduction of language (as in acquired aphasia or Landau-Kleffner syndrome), disturbance of behaviour (psychotic states) and motor impairment (in the form of ataxia, dyspraxia, dystonia or unilateral deficit). Despite the long-term favourable outcome of epilepsy and status epilepticus during sleep (SES), the prognosis is guarded because of the persistence of severe neuropsychological and/or motor deficits in approximately half of the patients. No specific treatment has been advocated for this syndrome, but valproate sodium, benzodiazepines and ACTH have been shown to control the seizures and the SES pattern in many cases, although often only temporarily. Subpial transection is proposed in some instances as in non-regressive acquired aphasia. Recent data support the concept that ESES syndrome may include a large subset of developmental or acquired regressive conditions of infancy.
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PMID:Encephalopathy with electrical status epilepticus during slow sleep or ESES syndrome including the acquired aphasia. 1099 61

A 57 year old woman with post-traumatic complex partial seizures was admitted because of recurrent episodes of altered mental state over the preceding 4 years, each lasting up to 5 days. There was a history of dietary protein intolerance since childhood and two of her daughters had died in the neonatal period from unexplained encephalopathies. In hospital she developed fluctuating confusion, amnesia, and sudden episodes of unresponsiveness. An EEG was consistent with complex partial status epilepticus but there was no response to benzodiazepines. Nasogastric feeding and sodium valproate were given and shortly afterwards she lapsed into a deep coma. Blood ammonia and urinary orotate were raised, and genetic testing confirmed that she was a carrier of a mutation in exon 3 of the ornithine transcarbamylase gene (C to T at position 92). Treatment with protein restriction, carnitine, and sodium phenylbutyrate led to a full recovery over a period of 3 months. To our knowledge this is the oldest age of onset yet described in a manifesting carrier. She is the fifth patient with heterozygous ornithine transcarbamylase deficiency reported to have had a severe reaction to sodium valproate. Hyperammonaemic encephalopathy should be considered in patients of any age who experience fluctuating confusion.
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PMID:Late onset heterozygous ornithine transcarbamylase deficiency mimicking complex partial status epilepticus. 1108 Feb 38

Acid-sensing ion channels (ASICs) constitute a recently discovered family of excitatory cation channels, structurally related to the superfamily of degenerin/epithelial sodium channels. ASIC1b and ASIC3 are highly expressed in primary sensory neurons and are thought to play a role in pain transmission related to acidosis. ASIC1a, ASIC2a, and ASIC2b are also distributed in the central nervous system where their function remains unclear. We investigated here the regulation of their expression during status epilepticus (SE), a condition in which neuronal overexcitation leads to acidosis. In animals treated with pilocarpine (380 mg/kg) to induce SE, we observed a marked decrease of ASIC2b mRNA levels in all hippocampal areas and of ASIC1a mRNA levels in the CA1-2 fields. These changes were also observed after protective treatment from neuronal cell death with diazepam (10 mg/kg) and pentobarbital (30 mg/kg). These findings suggest a key role of channels containing ASIC1a and ASIC2b subunits in both normal and pathological activity of hippocampus.
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PMID:Regional and subunit-specific downregulation of acid-sensing ion channels in the pilocarpine model of epilepsy. 1116 39


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