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)

Carbromal is metabolized extensively in humans. The major metabolites known to date are bromoethylbutyramide, ethylbutyrylurea and inorganic bromide. After ingestion of a therapeutic dose of 1.0 g carbromal (4.2 mmoles) by four healthy volunteers highest concentrations in serum were found to be for carbromal 30 mumoles/l, for bromoethylbutyramide up to 20 mumoles/l and for ethylbutyrylurea 2--3 mumoles/l. In patients acutely poisoned by carbromal-containing sedatives serum concentrations measured were in the range of 200 mumoles/l carbromal, 350 mumoles/l bromoethylbutyramide and 50 mumoles/l ethylbutyrylurea. These patients were comatose, apneic, had isoelectric encephalographic records and decreased body temperature. The degree of central nervous depression as judged by clinical signs was found to correlate with the serum concentrations of carbromal and of bromoethylbutyramide. Pharmacological activity and acute toxicity of carbromal and its two metabolites were examined in rats and compared with the activity of phenobarbitone. For intraperitoneal injection LD-50 values were found to be for carbromal 1.8 mmoles/kg, for bromoethylbutyramide 1.5 mmoles/kg, for ethylbutyrylurea 5.0 mmoles/kg and for phenobarbitone 0.9 mmoles/kg. Carbromal and bromoethylbutyramide severely decreased body temperature. The relative narcotic activity was estimated to be for carbromal = 100; bromoethylbutyramide = 66; ethylbutyrylurea = 33; phenobarbitone = 100. The anticonvulsive activity against pentetrazol-induced generalized seizures was nearly identical for carbromal, bromoethylbutyramide and phenobarbitone. Anticonvulsant activity of ethylbutyrylurea was two to three times less than that of carbromal. Inorganic bromide was found to increase the narcotic activity of carbromal and of bromoethylbutyramide. The findings show that the clinical signs of central nervous system depression seen in patients acutely poisoned with carbromal are caused mainly by unchanged carbromal and by its metabolite bromoethylbutyramide.
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PMID:[On the toxicology of carbromal. III. Role of active metabolites in humans acutely poisoned with carbromal-containing sedatives (author's transl)]. 2 10

Anticholinergics (in particular, ipratropium bromide [Atrovent]) are first-line therapy in patients with chronic obstructive pulmonary disease (COPD). Although more studies are needed to support the use of combination therapy, adding an inhaled beta agonist to the therapeutic regimen is reasonable in patients who remain symptomatic and need quick relief. Patients frequently receive inadequate amounts of drug with standard doses delivered by metered-dose inhalers, often as the result of improper technique, so symptomatic patients may require higher doses. Caution is recommended when the dose of inhaled sympathomimetics is increased in COPD patients with ischemic heart disease or tachyarrhythmias. The addition of an oral sympathomimetic is seldom necessary. Theophylline may be considered in outpatients who remain symptomatic despite their use of inhaled bronchodilators, but heart disease, seizure disorders, and gastroesophageal reflux are contraindications. Corticosteroid therapy remains controversial but can be helpful in patients who still have severe disease despite maximum bronchodilator therapy. Antibiotics can be of benefit in COPD patients undergoing an exacerbation who have increasing dyspnea, cough, and phlegm production.
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PMID:Drug treatment of COPD. Controversies about agents and how to deliver them. 134 54

Generalized tonic-clonic seizures are the most common type of convulsive disorders in children. They are always a sign of an epileptogenic cerebral dysfunction and present either acutely, predominantly as a single event with detectable origin, or chronically, recurring as an epileptic syndrome. In view of the etiology and classification of convulsions it is important to differentiate between primarily and secondarily generalized seizures. This distinction is first of all based on an exact description of the very beginning and of the course of the seizures, on the EEG findings and on any connection between the seizures and a particular time of day. Primarily generalized tonic-clonic seizures with and without associated petit mal seizures are manifestations of an idiopathic epilepsy and are most probably genetically determined, secondarily generalized seizures on the other hand are often signs of a central nervous lesion or of another symptomatic form of epilepsy. Benign idiopathic partial seizures, however, take the from of secondarily generalized convulsions during the morning sleep. Prolonged tonic-clonic seizures of any origin require vigorous treatment with anticonvulsants, if necessary in an intensive care unit. Recurrent seizures are treated with long-term anticonvulsant medication. The first-line treatment is valproic acid or phenobarbitone (or if necessary, a bromide) in primarily generalized seizures and carbamazepine or phenytoin in secondarily generalized convulsions. The recommended duration of this therapy and the risk of recurrence of seizures vary widely with the underlying etiology and the type of epilepsy.
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PMID:[Grand mal epilepsy in childhood]. 143 12

A 4-year-old German Shepherd Dog was evaluated because of chronic hind limb lameness and recurrent seizures. Diagnostic evaluation of the dog confirmed rheumatoid arthritis and idiopathic epilepsy. The rheumatoid arthritis was treated with prednisone and piroxicam. The seizures were treated with phenobarbital plus clonazepam. The seizures were refractory and potassium bromide was substituted for clonazepam. The dog was reevaluated 4 months after initiation of potassium bromide treatment because of recurrence of arthritis signs. During hospitalization, the dog had neurologic signs, which progressed from depression to recumbency and stupor. Anisocoria, muscle pain, and hyporeflexia were noticed. Bromide toxicosis was diagnosed on the basis of toxic serum bromide concentration (2.7 mg/ml; therapeutic range, 1.0 to 2.0 mg/ml). Following cessation of potassium bromide treatment, the neurologic signs resolved. The seizures recurred 6 weeks after potassium bromide was discontinued. Bromide treatment was reinitiated at half the initial dosage. After 6 weeks, the serum bromide concentration was 1.9 mg/ml, and no seizures had been reported by the dog's owners. Therapeutic serum bromide concentrations in dogs has been reported to be 0.5 to 2.3 mg/ml. The serum bromide concentration at which toxic signs are expected is variable in human beings because individuals differ in their tolerance of the drug. Clinical trials are necessary to determine the toxic serum bromide concentrations in dogs. This case of bromism in a dog suggests that the dosage of potassium bromide should be based on serial measurement of serum bromide concentrations.
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PMID:Bromide toxicosis (bromism) in a dog treated with potassium bromide for refractory seizures. 148 95

This study determined the effects of injections of different cholinergic agents in the central medial intralaminar nucleus of the thalamus on seizures induced by intravenous injection of pentylenetetrazol. Injections of the cholinesterase inhibitor, neostigmine bromide, induced a stiff, tremulous state and lowered myoclonic, clonic and tonic seizure thresholds. The nicotinic agonist, tartrate, depressed arousal and facilitated all types of seizure, while its antagonist, d-tubocurarine chloride, heightened arousal and transformed pentylenetetrazol-induced convulsions, with tonic seizures occurring at a very low threshold without preceding myoclonic or clonic seizures or EEG spikes. The muscarinic agonist (+/-)pilocarpine hydrochloride, in very large doses, induced slight hyperactivity and facilitated tonic seizures but did not affect myoclonic or clonic seizures. Its antagonist, (-)scopolamine hydrobromide, slightly depressed arousal and myoclonic and clonic seizure thresholds. Injections of mixtures of agonists and antagonists (d-tubocurarine chloride + nicotine tartrate or (+/-)pilocarpine hydrochloride + (-)scopolamine) had little effect on spontaneous behavior or seizures. These results suggest that the midline thalamus regulates seizures and arousal, under the control of cholinergic neurotransmission. Nicotinic and muscarinic receptors have opposing roles in mediating these functions.
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PMID:Characterization of cholinergic regulation of seizures by the midline thalamus. 152 52

We investigated the effects of pancuronium bromide pretreatment on cerebral blood flow (CBF) during bicuculline-induced seizures in anesthetized piglets. Arterial blood pressure, gases, pH, cerebral electrocortical activity, and CBF (radioactive microsphere) were monitored at baseline, 10 min after administration of pancuronium (0.3 mg/kg i.v.; n = 9) or vehicle (normal saline; n = 8), and again at 5, 15, and 60 min after bicuculline (3 mg/kg i.v.). No change in CBF from baseline was observed at 10 min after either saline or pancuronium treatment, before induction of seizures. In the saline group, CBF was 36 +/- 3 mL.min-1.100 g-1 before bicuculline and increased to 166 +/- 24 and 205 +/- 35 mL.min-1.100 g-1 at 5 and 15 min, respectively, after bicuculline, returning toward baseline by 60 min. In the pancuronium group at 5 min after bicuculline, CBF increased from 45 +/- 7 to 169 +/- 26 mL.min-1.100 g-1, but fell to 88 +/- 17 mL.min-1.100 g-1 at 15 min in contrast to saline-treated piglets. Also, at 15 min of seizures, differences between groups were observed in arterial blood pressure, gases, and pH. Although these variables were in the normal range with pancuronium treatment, the saline-treated animals had increased arterial blood pressure (81 +/- 6 mm Hg) and PCO2 (6 +/- 0.4 kPa) and decreased PO2 (7 +/- 0.5 kPa) and pH (6.91 +/- 0.06). Electrocortical activity was abnormal during seizures in both groups. At 60 min, reversal to normal activity was observed in six of nine pancuronium-treated animals versus two of eight saline-treated animals. These data suggest that pancuronium limits cerebral hyperemia during prolonged seizures by attenuating increases in blood pressure as a result of elimination of skeletal muscle activity. This leads to minimal alteration of arterial PCO2, PO2, and pH during seizures.
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PMID:Effects of pancuronium bromide on cerebral blood flow changes during seizures in newborn pigs. 163 28

The final step in neutrophil bacterial killing is formation of a toxic halide complex. For this reason, we studied neutrophil function in children receiving bromide anticonvulsant therapy. Whole blood and serum were obtained from 7 patients with seizure disorders treated orally with triple bromide elixir to examine neutrophil function as measured by luminol enhanced chemiluminescence (CL). Serum bromide concentrations [Br-] were determined concomitantly. There was a direct correlation between [Br-] and CL activity of neutrophils (r = 0.87) with peak CL responses significantly higher than controls when [Br-] were in the therapeutic range (10-20 mM). With [Br-] above 25 mM, CL activity was reduced. Serum from patients also enhanced CL of control neutrophils with a similar relationship to measured [Br-]. To confirm that enhanced neutrophil activity was attributable to [Br-] use, [Br-] ranging from 0-50 mM were added to control neutrophils in otherwise normal physiologic conditions and the CL assay was performed. Results expressed as percent of control values were as follows: [Br-] 5 mM, 110%; 10 mM, 158%; 15 mM, 194%; 20 mM, 252%; 25 mM, 136%; 30 mM, 364%; and 50 mM, 205%. These data demonstrate that Br- enhances phagocytic and bactericidal activity of neutrophils and suggest that Br- therapy may augment host defense capabilities.
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PMID:Enhanced neutrophil function in children on bromide therapy. 192 22

In therapy lasting between 8 and 79 (means = 31) months 22 epileptic dogs had been unsuccessfully treated with phenobarbital and/or primidone. Both drugs had been administered in their maximum dosages. In an add-on therapy, these dogs were given potassium bromide at a rate of 17 to 58 mg/kg daily for a period of 7 to 61 (means = 21) months. We could quantitatively evaluate the seizure data from 19 of the dogs: four became free of seizures; seven showed a greater than 50% reduction in seizure frequency; in two dogs, the seizures were reduced by greater than 50% but the number of seizure-days by less than 50%; in the remaining six dogs the therapy was unsuccessful. We achieved the best therapeutic results in animals that suffered only grand mal seizures. Grand mal in addition to other types of seizures and tonic seizures were affected to a lesser extent if at all. At the beginning of the therapy we saw temporary side effects--weakness in the hind limbs and sedation; these were temporary and dependent on the dosage. Serum concentrations differed even with the same dosage among individual dogs. The therapeutic range of bromide serum concentration was from 0.7 to 2.0 mg/ml. Most of the animals tolerated concentrations up to 1.5 mg/ml quite well. To begin an add-on therapy with potassium bromide we would recommend a daily dose of 30 to 40 mg/kg. During treatment, the dose should be determined for each individual dog.
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PMID:[Effectiveness of bromide in therapy resistant epilepsy of dogs]. 194 87

Triple bromide elixir was used as an adjunctive antiepileptic drug in 11 children whose seizure disorders were intractable to other antiepileptic therapy. The patients' ages ranged from 2 to 17 years. The seizure disorders treated included photosensitive epilepsy (one case), acquired epileptic aphasia (one case), Lennox-Gastaut syndrome (three cases), and symptomatic localization-related epilepsies (six cases). Two patients' seizures completely stopped with bromide therapy. Four patients had a significant and sustained improvement on bromide therapy, while three more had a transient improvement. In these six patients with complete or significant control, the mean therapeutic dose was 33 mg bromide/kg daily, and the mean therapeutic serum concentration was 14.1 mmol/L (range, 4 to 30.5 mmol/L). The combination of bromide with valproate appeared to be particularly effective in these patients. Toxicity was minimal, and in only one patient was the medication stopped, because of anorexia and weight loss. Given the low cost, long half-life, and minimal toxicity when serum bromide concentrations are followed, bromide therapy should be considered as adjunctive antiepileptic drug therapy for patients whose seizures are intractable to other drugs.
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PMID:Bromide therapy for pediatric seizure disorder intractable to other antiepileptic drugs. 229 42

Pentylenetetrazol (PTZ, 45 mg/kg, ip) impaired retention of a one-trial step-through inhibitory avoidance task when injected into male Swiss mice 10 min after training, as indicated by retention performance 48 h later. The amnestic effect of PTZ was prevented by naltrexone (0.01 or 0.10 mg/kg, ip) administered after training, but prior to PTZ-treatment. On the contrary, neither naltrexone methyl bromide (0.01, 0.10, or 10.0 mg/kg, ip), a quaternarium analog of naltrexone, nor MR2266 (0.01 or 0.10 mg/kg, ip), a putative kappa opiate receptor antagonist, modified the behavioral effects of PTZ. On the other hand, the body seizures produced by PTZ were unaffected by any of the three opiate receptor antagonists that were given before the convulsant. Taken together, these results suggest that the effects of PTZ on retention are mediated, at least in part, by opioid peptides of central origin, and rules out a possible participation of opioid peptides derived from prodynorphin-precursor molecule. Administration of beta-endorphin (0.01 or 0.10 microgram/kg, ip) 10 min prior to testing attenuate the retrograde amnesia caused by PTZ. The effect of beta-endorphin was prevented by the simultaneous administration of naltrexone (0.10 mg/kg, ip) prior to testing. Naltrexone has no effect of its own upon retrieval. These results suggest that the impairment of retention induced by PTZ is probably due, at least in part, to a release of opioid peptides in the brain during the post-training period. PTZ given after training do not affect consolidation or memory storage, as mice thus treated may retrieve the learned information when they are submitted to an appropriate neurohumoral and/or hormonal state in the test session, that is, beta-endorphin injection. Therefore, the action of PTZ would be primarily at the level of the mechanism that make stored information available for late retrieval.
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PMID:The impairment of retention induced by pentylenetetrazol in mice may be mediated by a release of opioid peptides in the brain. 282 89


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