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)

A 5-year-old boy with a peculiar type of post-encephalitic/encephalopathic epilepsy is reported. He had been healthy showing normal development before its onset. Five days after the onset of an upper respiratory infection, he had a severe generalized seizure, that evolved into intractable seizures. They were highly resistant to almost all anticonvulsants and occasionally resulted in status epilepticus. High-dose phenobarbital therapy successfully controlled the convulsions, but was discontinued because of drug-induced aplastic anemia. Alternative bromide therapy was markedly effective in controlling the seizures.
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PMID:[A case of peculiar type of post-encephalitic/encephalopathic epilepsy: efficacy of bromide in the control of intractable seizures]. 1149 80

The first purpose of this study is to propose a new clinical entity, acute encephalitis with refractory, repetitive partial seizures (AERRPS), which satisfy the following five criteria: 1. a prolonged acute phase of more than 2 weeks; 2. partial seizures of the same seminology persisting from the acute phase to the convalescence; 3. seizures frequently evolving into convulsive status especially during the acute phase; 4. marked intractableness of seizures; 5. exclusion of related disorders such as known viral encephalitis or metabolic disorders. The second purpose is to evaluate the efficacy of therapeutic agents on AERRPS. We reviewed 21 cases reported previously, as well as one patient seen by us. Based on the data, we recommend that patients with AERRPS should be under a high dose intravenous barbiturate during the acute phase, followed by a high dose of phenobarbital or phenytoin in the convalescence. Clonazepam, zonisamide, and potassium bromide were sometimes effective during the recovery phase.
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PMID:[Efficacy of anticonvulsants on acute encephalitis with refractory, repetitive partial seizures (AERRPS)]. 1155 40

The aim of this study is to find out whether bromide was able to cause conversion of epilepsy to psychosis i.e., so-called paradoxical normalization such as has been seen in treatment with modern antiepileptic drugs. Spontaneous conversion has been known for three hundred years. Locock introduced bromide in the treatment of epilepsy in 1857. Belgrave wrote in 1868 on its effect on epileptic attacks and concommitant insanity. In 1868 Holm observed reduction of the frequency of seizures at the same time as psychotic symptoms or just dysphoria. In 1875 Voisin described a dose-dependent intoxication with psychosis and/or neurological signs. Stark in 1875 and Bannister in 1881 were the first to clearly describe the antagonism between epileptic seizures and psychotic symptoms, an antagonism or conversion described by many authors, both in cases with high and low dosage, and with and without intoxication. Thus, the title of this paper should be answered in the affirmative. Bromide has been used as a sedative and has rarely caused intoxication. Thus the presence of epilepsy is not a condition for the development of bromide intoxication. A case with epilepsy and fatal massive bromide intoxication is reported. It is discussed whether the pathological findings give support to Wolf's hypothesis of latent epileptic activity in subcortical pathways during "normalization".
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PMID:Does bromide cause conversion of epilepsy to psychosis? 1161 98

Potassium bromide was tried for two children with daily convulsive focal motor seizures with unconsciousness and focal motor seizure status. The treatment resulted in complete cessation of the attacks. It has been reported that bromide is effective for generalized tonic-clonic seizures and not for complex partial seizures, such as convulsive focal motor seizures with unconsciousness. However, our experiences provide evidence that bromide is one of the useful therapeutic agents for intractable symptomatic localization-related epilepsy.
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PMID:Two successful cases of bromide therapy for refractory symptomatic localization-related epilepsy. 1193 20

GABA(A) receptors mediate fast inhibitory neurotransmission in the central nervous system (CNS), and approximately half of these receptors contain alpha1 subunits. GABA(A) receptor alpha1 subunits are important for receptor assembly and specific pharmacological responses to benzodiazepines. Plasticity in GABA(A) receptor alpha1 subunit expression is associated with changes in CNS excitability observed during normal brain development, in animal models of epilepsy, and upon withdrawal from alcohol and benzodiazepines. To examine the role of alpha1 subunit-containing GABA(A) receptors in vivo, we characterized receptor subunit expression and pharmacological properties in cerebral cortex of knockout mice with a targeted deletion of the alpha1 subunit. The mice are viable but exhibit an intention tremor. Western blot analysis confirms the complete loss of alpha1 subunit peptide expression. Stable adaptations in the expression of several GABA(A) receptor subunits are observed in the fifth to seventh generations, including decreased expression of beta2/3 and gamma2 subunits and increased expression of alpha2 and alpha3 subunits. There was no change in alpha4, alpha5, or delta subunit peptide levels in cerebral cortex. Knockout mice exhibit loss of over half of GABA(A) receptors measured by [(3)H]muscimol, [(3)H]2-(3-carboxyl)-3-amino-6-(4-methoxyphenyl)-pyridazinium bromide ([(3)H]SR-95531), and t-butylbicyclophosphoro[(35)S]thionate ([(35)S]TBPS) binding. [(3)H]Ethyl-8-azido-5,6-dihydro-5-methyl-6-oxo-4H-imidazo[1,5-a][1,4]benzodiazepine-3-carboxylate ([(3)H]Ro15-4513) binding is reduced by variable amounts in different regions across brain. GABA(A) receptor alpha1(-/-) mice lose all high-affinity [(3)H]zolpidem binding and about half of [(3)H]flunitrazepam binding in the cerebral cortex. The potency and maximal efficacy of muscimol-stimulated (36)Cl(-) uptake in cerebral cortical synaptoneurosomes are reduced in alpha1(-/-) mice. Furthermore, knockout mice exhibit increased bicuculline-induced seizure susceptibility compared with wild-type mice. These data emphasize the significance of alpha1 subunit expression and its involvement in the regulation of CNS excitability.
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PMID:Molecular and pharmacological characterization of GABA(A) receptor alpha1 subunit knockout mice. 1218 61

Sarin (O-isopropylmethylphosphonofluoridate) is a highly toxic nerve agent produced for chemical warfare. Sarin is an extremely potent acetylcholinesterase (AchE) inhibitor with high specificity and affinity for the enzyme. Death by sarin is due to anoxia resulting from airway obstruction, weakness of the muscles of respiration, convulsions and respiratory failure. The main clinical symptoms of acute toxicity of sarin are seizures, tremors and hypothermia. Exposure to sarin during incidents in Japan in 1994, 1995 and 1998, and possible exposure to low levels of sarin during the Gulf War, resulted in the deaths and injury of many people in Japan and caused possible long-term health effects on Gulf War veterans. Symptoms related to sarin poisoning in Japan still exist 1-3 years after the incident and include fatigue, asthenia, shoulder stiffness and blurred vision. Sarin produced seizures in rats and pigs. Recent studies showed that long-term exposure to low levels of sarin caused neurophysiological and behavioral alterations. Toxicity from sarin significantly increased following concurrent exposure to other chemicals such as pyridostigmine bromide. Further research to examine effects of sarin on the cellular and the molecular levels, gene transcription, endocrine system as well as its long-term impact is needed.
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PMID:Sarin: health effects, metabolism, and methods of analysis. 1238 97

The pharmacokinetics of a multidose regimen of potassium bromide (KBr) administration in normal dogs was examined. KBr was administered at 30 mg/kg p.o. q 12 h for a period of 115 days. Serum, urine, and cerebrospinal fluid (CSF) bromide (BR) concentrations were measured at the onset of dosing, during the accumulation phase, at steady-state, and after a subsequent dose adjustment. Median elimination half-life and steady-state serum concentration were 15.2 days and 245 mg/dL, respectively. Apparent total body clearance was 16.4 mL/day/kg and volume of distribution was 0.40 L/kg. The CSF:serum BR ratio at steady-state was 0.77. Dogs showed no neurologic deficits during maintenance dosing but significant latency shifts in waves I and V of the brainstem auditory evoked response were evident. Following a subsequent dose adjustment, serum BR concentrations of approximately 400 mg/dL were associated with caudal paresis in two dogs. Estimated half-life during the accumulation phase was shorter than elimination half-lives reported in other studies and was likely related to dietary chloride content. The range of steady-state concentrations achieved suggests individual differences in clearance and bioavailability between dogs. The described protocol reliably produced serum BR concentrations that are required by many epileptic patients for satisfactory seizure control.
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PMID:Pharmacokinetics and toxicity of bromide following high-dose oral potassium bromide administration in healthy Beagles. 1248 48

This study evaluated the potency and rapidity of some anticholinergics (atropine, biperiden, and trihexyphenidyl) and benzodiazepines (diazepam and midazolam) as an anticonvulsant treatment against seizures induced by six nerve agents (tabun, sarin, soman, cyclosarin, VR, and VX) and summarized the relationship between anticonvulsant activity and nerve agent-induced lethality and neuropathology. Guinea pigs, previously implanted with cortical electrodes for EEG recording, were pretreated with pyridostigmine bromide (0.026 mg/kg im) 30 min prior to challenge with 2x LD50 dose (sc) of a given nerve agent; in a separate experiment, animals were challenged with 5x LD50 sc of soman. One minute after agent challenge the animals were treated im with 2 mg/kg atropine SO(4) admixed with 25 mg/kg 2-PAM Cl. Five minutes after the start of EEG seizures, animals were treated im with different doses of anticholinergics or benzodiazepines and observed for seizure termination. The time to seizure onset, the time to seizure termination, and 24-h lethality were recorded. The anticonvulsant ED50 of each drug for termination of seizures induced by each agent was calculated and compared. Brain tissue from animals that survived 24 h was examined for pathology. All drugs were capable of terminating seizure activity, with midazolam and trihexyphenidyl being significantly more potent than the other drugs, and midazolam being more rapid in controlling seizure than atropine, trihexyphenidyl, or diazepam against each agent. Seizures induced by sarin or VX required lower doses of all the test anticonvulsants. The dose of a given drug that was an effective anticonvulsant against a 2x LD50 challenge of soman was equally effective against seizures induced by a 5x LD50 challenge. All nerve agents were capable of producing neuropathology. Seizure control was strongly associated with protection against acute lethality and brain pathology.
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PMID:Control of nerve agent-induced seizures is critical for neuroprotection and survival. 1269 25

The effects of four organophosphorous compounds, three oximes and atropine sulphate, injected through an indwelling cannula into the third ventricle of unanaesthetized dogs were examined. The effects of 200 mug of dyflos were involuntary micturition, defaecation, akinesia of hind limbs and pronounced disturbances of awareness; those of 100 mug of ethyl pyrophosphate were tremor, restlessness and signs of fear; 500 mug to 5 mg of dyflos and 250 mug to 500 mug of ethyl pyrophosphate caused vomiting, salivation, twitches of facial muscles and recurrent epileptiform seizures. The injection of 40 to 80 mg of dimefox and of 50 mg of schradan elicited involuntary micturition, vomiting, salivation and defaecation. These effects occur probably after these substances have passed into the blood stream and have been converted in the liver to potent anticholinesterases. This view is supported by the finding of reduced blood cholinesterase activity. At a dose level of 12.5 mg, 1,1'-trimethylenebis(4-hydroxyiminomethylpyridinium bromide) produced strong convulsions. At this dose level pralidoxime iodide and diacetyl monoxime produced no observable effects. Atropine sulphate in a dose of 1 mg caused disturbances in consciousness and behaviour followed by convulsions. Intraventricular atropine and to a minor extent intraventricular oximes were able to antagonize the effects of intraventricular ethyl pyrophosphate. Pralidoxime iodide exerted a strong antagonistic effect also on intravenous injection.
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PMID:Effects of organophosphorous compounds, oximes and atropine injected into the third ventricle of unanaesthetized dogs. 1388 82

This study evaluated the effectiveness of fosphenytoin as a single or adjunctive anticonvulsant treatment for nerve agent-induced status epilepticus. Guinea pigs, implanted with cortical electroencephalographic (EEG) recording electrodes, were pretreated with pyridostigmine bromide (0.026 mg/kg, intramuscular (i.m.)) 30 min before challenge with 56 micrograms/kg, subcutaneous (s.c.), (2 x LD50) of the nerve agent soman. One min after soman, the animals were treated (i.m.) with 2 mg/kg atropine sulfate admixed with 25 mg/kg of the oxime 2-pralidoxime chloride, and the EEG was observed for seizure onset. When administered (intraperitoneal, i.p.) therapeutically 5 min after seizure onset, only the highest fosphenytoin dose (180 mg/kg) was capable of terminating seizure activity in 50% of the animals tested (3 of 6). When fosphenytoin (18-180 mg/kg) was administered as a pretreatment, i.p., 30 min before soman challenge, seizures were blocked or terminated in a dose-dependent fashion (ED50 = 61.8 mg/kg; 40.5-94.7 mg/kg = 95% confidence limits). Combinations of diazepam and fosphenytoin were also tested for effectiveness. No dose of fosphenytoin (18-56 mg/kg), given in conjunction with a fixed dose of diazepam (4.8 mg/kg, i.m.) 5 min after seizure onset, enhanced the anticonvulsant effect of diazepam. When fosphenytoin (18 or 32 mg/kg, i.p.) was given as a pretreatment and diazepam was given 5 min after seizure onset, the 32 mg/kg dose of fosphenytoin significantly reduced the time for seizure control. These studies show that fosphenytoin, either alone or in combination with diazepam, has little or no therapeutic anticonvulsant effectiveness for nerve agent-induced status epilepticus.
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PMID:Effects of fosphenytoin on nerve agent-induced status epilepticus. 1503 46


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