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)

The anticonvulsant action of progabide, an agonist of gamma-aminobutyric acid (GABA)A and GABAB receptors, was investigated in the kindling model of epilepsy in rats. Progabide shortened afterdischarge durations and attenuated the severity of the accompanying convulsive responses in previously kindled rats from the amygdala (AM), frontal cortex (FC), ventral and dorsal hippocampus (HIPP), in a dose-dependent manner. Although progabide was less effective in the dorsal HIPP kindled seizures, the efficacy was potent in AM, FC and ventral HIPP kindled seizures. On the other hand, the anticonvulsant action of baclofen, a selective agonist of GABAB receptors, was relatively weak in terms of the measurement of the afterdischarge duration of AM and HIPP kindled seizures even at toxic doses, compared with progabide. In addition, the anticonvulsant effects of progabide were partially reversed by treatment with the antagonist of benzodiazepine receptors, Ro 15-1788, whereas Ro 15-1788 administration alone did not alter AM kindled seizures. We concluded that the action of progabide may be mediated via the GABA/benzodiazepine receptor complex. These results support the hypothesis that a failure of GABAA-mediated inhibition is one of the bases of induction and generalization of seizures.
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PMID:An analysis of anticonvulsant actions of GABA agonists (progabide and baclofen) in the kindling model of epilepsy. 215 38

The interaction between pentobarbital and other modulators of GABAergic transmission (diazepam, ethanol and progabide) was investigated on maximal electroshock seizures and on the loss of righting reflexes in rats. Pentobarbital, diazepam and ethanol produced a dose-dependent protection against electroshock seizures, with pentobarbital being more potent (3- and 50-times) than diazepam and ethanol. Progabide neither provided protection nor caused loss of righting reflex. Subprotective doses of pentobarbital and diazepam, together or when combined with a single ineffective dose of ethanol or progabide, caused protection against seizures and loss of righting reflex for variable durations, while ethanol and progabide combination did not provide protection. The protective effect of diazepam was antagonized by RO15-1788, picrotoxin and bicuculline pretreatments. The antagonism of pentobarbital protection by a specific GABA receptor antagonist, bicuculline suggests involvement of the GABAergic system in the anticonvulsant effect of pentobarbital. These results indicate that, like diazepam, the anticonvulsant effect of pentobarbital appears to be mediated through a GABAergic mechanism.
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PMID:Involvement of a GABAergic mechanism in the anticonvulsant effect of pentobarbital against maximal electroshock-induced seizures in rats. 298 56

Progabide, a specific and clinically used GABA receptor agonist, was tested for its ability to suppress ethanol withdrawal syndrome. Male rats were rendered physically dependent on ethanol by feeding for 12 days on a liquid diet in which ethanol isocalorically replaced dextrose. Progabide (100-400 mg/kg i.p.), administered 8 h after ethanol was withdrawn, produced a dose-related inhibition of both tremors and audiogenically induced seizures. A single dose of 400 mg/kg of progabide completely suppressed all ethanol withdrawal reactions. Seizures were more sensitive to the drug than tremors. The results support the view that a decrease in GABA transmission plays a role in ethanol withdrawal symptoms and suggest that progabide may be tested as a possible treatment of ethanol withdrawal syndrome in man.
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PMID:Suppression by progabide of ethanol withdrawal syndrome in rats. 298 5

Progabide (PGB), a gamma-amino-butyric acid receptor agonist, was administered, according to an open-label long-term design, to 40 adult patients suffering from complex partial seizures, with or without secondary generalization, whose response to carbamazepine (CBZ) monotherapy was unsatisfactory. A reference-baseline period of two months with carbamazepine monotherapy was followed by a two-month "add-on" period where increasing doses of progabide were added without modifying the CBZ regimen; then CBZ was withdrawn over 15-60 days and patients were followed up to 12 months' progabide treatment. Twenty-seven patients completed the trial but 12 of them had to be returned to CBZ + PGB bitherapy due to an increase of seizures following CBZ withdrawal. A definite therapeutic effect could be observed in nine patients on PGB monotherapy and in six patients on CBZ + PGB bitherapy. Side-effects of clinical relevance occurred in three cases and were represented by remarkable anxiety in two patients and a rise in serum glutamic oxalo-acetic acid and pyruvic transaminases with clinical symptoms of liver dysfunction in one, with rapid recovery following progabide discontinuation. In conclusion, progabide was effective against complex partial seizures in about 40% of patients not responding satisfactorily to available antiepileptic drugs. Although the withdrawal of previous antiepileptic drugs was not possible in all patients, progabide monotherapy was sometimes more effective than CBZ monotherapy, and several patients in whom bitherapy had to be restored benefited from the association of progabide.
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PMID:Preliminary observations on the activity of progabide, administered as monotherapy in complex partial seizures. 306 61

A three way single blind cross-over comparison of progabide, valproate and placebo, as adjunctive therapy, was undertaken in 64 patients with therapy-resistant partial and generalised seizures. The study was not completed because of the incidence of elevated hepatic enzymes on progabide. Analysis of efficacy showed progabide to be inferior to valproate against all seizure types, particularly against tonic-clonic seizures. Valproate was superior to placebo against all seizure types, partial and tonic-clonic seizures. Progabide did not differ significantly from placebo in any instance. In addition progabide caused elevation of hepatic enzymes which was symptomatic in one case, and was associated with an interaction with phenytoin which resulted in symptoms of intoxication in some cases.
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PMID:A comparative study of progabide, valproate, and placebo as add-on therapy in patients with refractory epilepsy. 309 23

Progabide (PGB) is a gamma-aminobutyric acid (GABA)-agonist drug undergoing clinical evaluation for the treatment of spasticity, movement disorders, and epilepsy. Drug interactions were studied during a randomized, double-blind, crossover trial of the efficacy and toxicity of PGB in patients with partial seizures taking phenytoin (PHT) and carbamazepine (CBZ). In twenty-two of 32 patients (69%) receiving PGB, PHT dosage was reduced, while only four patients (12%) had their dosage reduced during placebo treatment (p less than 0.001). Carbamazepine dosage was decreased in five of 32 patients (16%) during the active treatment, while two patients (6%) had a dosage reduction when receiving placebo (p greater than 0.75). The mean PHT concentrations at the end of baseline, PGB, and placebo treatments were significantly different: 17.5, 20.4, and 16.8 mg/L, respectively (p less than 0.05). Nevertheless, careful adjustment of PHT dosage maintained serum concentration within +/- 25% of target values in both the PGB and placebo periods. Among patients who first received PGB and then placebo, PHT concentrations remained elevated relative to dose suggesting that PGB exerts a prolonged effect on PHT disposition. The addition of PGB to regimens including PHT results in a significant increase in serum PHT concentrations. This drug interaction most likely occurs as a result of PGB mediated inhibition of hepatic microsomal enzymes.
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PMID:Effect of progabide on serum phenytoin and carbamazepine concentrations. 342 61

Progabide, an experimental GABA-ergic antiepileptic drug, was given in a placebo-controlled double-blind cross-over trial to 19 adult patients with chronic partial epilepsy refractory to previous high-dose antiepileptic drug therapy. A mean daily dose of 32 mg/kg (range, 16 to 63) of progabide did not significantly change the seizure frequency. In patients with a therapeutic response, progabide led to an increase in the plasma concentration of phenytoin and phenobarbital. Comedication with carbamazepine was associated with a poor response to progabide. Side effects were mild except for a several-fold increase of SGOT and SGPT, which required withdrawal of progabide in one patient. Progabide does not seem to be the drug urgently needed for failures of previous high-dose drug therapy.
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PMID:Progabide for refractory partial epilepsy: a controlled add-on trial. 351 2

A long-term open multicenter trial was carried out in 15 European centers with therapy-resistant epileptics to evaluate the efficacy and safety of progabide, a new antiepileptic GABA receptor agonist; 187 patients, suffering from partial epilepsy (57%), primary generalized epilepsy (20%), secondary generalized epilepsy (21%), and unclassified generalized epilepsy (2%), participated in the study. All patients had a total seizure frequency higher than one per month in spite of standard antiepileptic medication; 46% had a mean partial seizure frequency from daily to weekly. Progabide was administered at a mean daily dose of 30.5 mg/kg/day as an add-on to the standard antiepileptic drugs up to one year in 115 patients; 37 patients (19.8%) dropped out because of reasons which were not drug-related (bad compliance, lost to follow-up); in 12 patients (6.5%) progabide was withdrawn for side effects and in 20 (10.7%) for lack of efficacy. 71.3% of patients treated for one year (62% considering the 'cumulative' number of patients) experienced more than a 50% reduction in seizure frequency. This reduction was equally present in patients with partial epilepsy (63.9%) and with generalized epilepsy (62.2% of patients with primary and 57.1% with secondary generalized epilepsy). No signs of tolerance phenomena to the antiepileptic effect of progabide were observed. No side effects were reported in 56.7% of the patients. Clinical side effects were mild and transient, leading to progabide discontinuation in 6.5% of the patients only; an increase in SGPT was observed in 5.7% of the patients, these increases were transient and without any clinical symptom.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Long-term treatment of epilepsy: open multicenter trial with progabide in epileptic patients. 383 Feb 7

Stimulation of GABA receptors (e.g. by progabide, a new GABA receptor antagonist, or by muscimol) enhances the liberation of norepinephrine in limbic forebrain areas of the rat and reduces 5-hydroxytryptamine turnover. On repeated administration, this latter effect is associated with an up-regulation of 5-HT2 receptors as it occurs after electroconvulsive shock. The monoaminergic changes induced by progabide, though dissimilar from those induced by tricyclics, are probably connected with the antidepressant action on the compound observed in double-blind clinical trials. In the basal ganglia, GABA receptor agonists reduce dopamine turnover and potentiate the cataleptogenic action of neuroleptics. They also antagonize the sterotypic behaviour induced by dopaminomimetics, indicating an additional action beyond the dopamine synapse. On repeated co-administration with neuroleptics, progabide antagonizes the tolerance to the cataleptogenic action, the supersensitivity to dopaminomimetics, and the increase in 3H-spiperone binding which are caused by sustained neuroleptic treatment. This appears to be the basis for the clinical action of progabide in neuroleptic-induced dyskinesia, L-dopa-induced involuntary movements, and possibly mania. GABA receptor agonists decrease cellular excitability in several animal models and antagonize seizures, whatever their origin (GABA-mediated or GABA unrelated mechanisms). Progabide has been shown to be effective in various forms of epilepsy in double-blind and long-term clinical trials. The compound exerts a therapeutic action in patients resistant to "classical" antiepileptic drugs, in the virtual absence of major side effects.
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PMID:Pharmacology of the GABAergic system: effects of progabide, a GABA receptor agonist. 608 42

Progabide (4-([(4-chlorophenyl) (5-fluoro-2-hydroxyphenyl)-methylene]amino) butanamide) is a gamma-aminobutyric acid (GABA) receptor agonist which readily enters the brain. In the body, progabide is metabolized to three active metabolites: SL 75102, gabamide and GABA. Progabide and SL 75102 readily enter the brain and GABA and gabamide are also formed within this organ. Both progabide and SL 75102 exhibit a broad spectrum of anticonvulsant activities against seizures which involve GABA-mediated events (bicuculline, picrotoxinin and pentylenetetrazol) or which are apparently independent of GABAergic mechanisms (penicillin, strychnine, electroshock and audiogenic seizures). These data support the hypothesis that direct GABA receptor stimulation is an effective means of controlling convulsions of various origins. Progabide and SL 75102 have relatively minor secondary effects in comparison to commonly used antiepileptics. Myorelaxation occurs, but only at doses higher than the ED50 values in convulsant tests. Furthermore, these compounds are not sedative. Finally, these GABA agonists have a complex action in the extrapyramidal system. Anticonvulsant doses are antagonistic to dopamine receptor-mediated behaviors, whereas much lower doses seem to facilitate the effects of dopaminergic transmission.
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PMID:gamma-Aminobutyric acid (GABA) receptor stimulation. I. Neuropharmacological profiles of progabide (SL 76002) and SL 75102, with emphasis on their anticonvulsant spectra. 627 29


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