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)

The role of gamma-aminobutyric acid (GABA) transmission in the control of convulsive epileptic seizures is considered from the perspective of the actions of drugs that augment GABA transmission in the brain. In particular, the effects of a directly acting GABAA receptor agonist, muscimol, is compared with the effects of a GABA-elevating agent, gamma-vinyl GABA (GVG, vigabatrin), in animal models of convulsive seizures. Evidence indicates that there are certain regions of the brain where enhanced GABA transmission is anticonvulsant; in other regions, blockade of GABA transmission exerts anticonvulsant actions. In addition, there are brain areas in which the effects of muscimol and GVG are distinct from one another, owing to a relatively low level of endogenous GABA transmission in those areas. The direct stimulation of postsynaptic GABA receptors (by direct receptor agonists) bypasses normal mechanisms of synaptic transmission and can evoke abnormal neurological symptoms, whereas the enhancement of presynaptic availability of GABA avoids these complications. GVG acts to boost presynaptic GABA stores, which can then be utilized physiologically; this may account for the relatively low incidence of CNS-related side effects with anticonvulsant doses of GVG. It is suggested that greater attention be focused on ways of enhancing endogenous GABA availability in future drug development for the control of seizure disorders.
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PMID:GABA and epilepsy: basic concepts from preclinical research. 133 May 9

We report long-term clinical, neurochemical, and electrophysiologic data of gamma-vinyl GABA (GVG, vigabatrin) in three groups of patients. GVG was started as add-on therapy for 75 patients with refractory complex partial seizures (group A) and for 36 mentally handicapped patients with severe epilepsy (group B). The third group (C) consisted of 20 patients with carbamazepine (CBZ) monotherapy, in half of whom GVG monotherapy was substituted. After 3 months, 55% of patients in group A and 42% in group B were responders (reduction in seizure frequency greater than 50%). After 6 (group A) and 3 years (group B) of follow-up, 27 and 33% of the patients, respectively, still had good response to GVG. Neurochemical measurements showed a twofold increase in CSF GABA concentrations and minimal or no changes in other neurotransmitter-related parameters. In group C, substitution of GVG as medication tended to normalize the lengthened latencies in somatosensory evoked potentials (SEPs) observed during CBZ treatment.
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PMID:Gamma-vinyl GABA (vigabatrin) in epilepsy: clinical, neurochemical, and neurophysiologic monitoring in epileptic patients. 139 36

The relationship between vigabatrin gamma-vinyl GABA (GVG, vigabatrin) daily dosage or steady-state plasma concentrations (CSS), platelet GABA-transaminase (GABA-T) inhibition, and seizure reduction were studied in 16 children with refractory epilepsy. After 2 months of observation and 1 month of single-blind add-on placebo, a fixed GVG dosage was added for 2 months. The dosage was then adjusted in two 2-month periods each, based on the patient's clinical response. In the fixed-dose period, GVG dosages of 56.8 mg/kg/day and CSS of 8.1 mg/L reduced GABA-T activity from 13.9 to 5.1 pmol/min/mg protein (p less than 0.001) and that of seizures from 51.4 to 22.3 seizures per month (p less than 0.01). Seizure reduction was correlated with dosage (r = 0.83, p less than 0.001), but not with CSS or with platelet GABA-T inhibition. After the GVG dose-adjustment periods, in which dosages of 84.4 mg/kg/day and CSS of 10.6 mg/L were reached, only a slight reduction was observed in both GABA-T activity (from 5.1 to 4.9 pmol/min/mg protein) and seizures (from 22.3 to 18.1 seizures per month). In GVG-responsive patients (excluding placebo-sensitive and GVG-resistant patients), a greater reduction of seizures was achieved (from 17.0 to 7.1 seizures per month, p less than 0.05), which was not accompanied by greater inhibition of GABA-T. GVG treatment in children should be started with a dosage of 50 mg/kg/day, increased to 75 or even 100 mg/kg/day when a partial response is observed. If seizures do not improve or if they become worse, the patient should be considered resistant and GVG should be discontinued.
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PMID:Gamma-vinyl GABA (vigabatrin): relationship between dosage, plasma concentrations, platelet GABA-transaminase inhibition, and seizure reduction in epileptic children. 139 37

Clinical experience with gamma-vinyl GABA (GVG, vigabatrin) has accumulated mainly in Europe, where the drug has been licensed in several countries since 1989. Short-term efficacy studies in adolescent and adult patients with intractable drug-resistant epilepsy have shown that approximately 50% exhibit a reduction in seizure frequency of one-half or more but rarely complete seizure control. The best results are in patients with partial seizures with or without secondarily generalization. GVG responders have been followed for periods of up to 5 years, and overall 10-20% may exhibit subsequent seizure breakthrough, as probably occurs with any drug in such chronic patients. The most common side effect is drowsiness. Reversible behavior disorders, psychoses, and depression rarely occur in predisposed individuals. No new long-term side effects have been reported but vigilance is necessary. Studies of GVG as a first-line drug in newly diagnosed epileptic patients are proceeding.
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PMID:Gamma-vinyl GABA (vigabatrin): clinical experience in adult and adolescent patients with intractable epilepsy. 142 98

The effects of adding vigabatrin (GVG) to the antiepileptic regimens of 16 children with refractory epilepsy have been studied. One-half of the regimens included sodium valproate (VPA). Parameters studied were seizure reduction, platelet GABA-T activity, and steady-state plasma concentrations (CSS) of GVG and VPA. Add-on GVG reduced the seizure frequency both in patients receiving VPA (from 42.9 to 4.5 seizures/month, p < 0.01) and in those without VPA (from 60.0 to 31.7 seizures/month, p < 0.05). GVG also reduced GABA-T activity in both groups (from 19.4 to 5.4, p < 0.001 and from 8.3 to 4.5 pmol/min/mg of protein, p < 0.05, respectively). Seizure reduction and GABA-T inhibition were greater in patients taking VPA than in those who were not. In patients receiving VPA, no significant changes were observed in VPA CSS values before and after the addition of GVG. On the other hand, no differences were found in GVG CSS values between patients with and without VPA. It is concluded that the coadministration of GVG to valproate reduces the frequency of seizures in refractory epileptic children and does not affect the steady-state plasma concentrations of either drug. Therefore, their association could be useful in clinical practice.
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PMID:Coadministration of vigabatrin and valproate in children with refractory epilepsy. 147 47

The involvement of GABAergic transmission within the thalamus in the generation and control of spike and wave discharges (SWD) in generalized non-convulsive or absence epilepsy was studied in rats with spontaneous SWD and in non-epileptic rats. In epileptic rats, bilateral injections of gamma-vinyl GABA (GVG, 10 micrograms/side) or muscimol (10 ng/side) into the medial part of the ventral lateral thalamus, i.e. the specific relay nuclei, significantly increased spontaneous cortical SWD whereas similar injections into the most lateral part of the thalamus, i.e. the area of the reticular nuclei, significantly suppressed these seizures. Injections of GVG (20 micrograms) or muscimol (20 ng) into the midline thalamus had no direct effect on the spontaneous SWD. In non-epileptic rats, injections of GVG (25 micrograms/side) or muscimol (100 ng/side) into the thalamic relay nuclei produced short SWD on the cortical EEG. These results suggest that GABAergic neurons in the reticular nuclei and their projections to the specific relay nuclei of the thalamus are involved in the elicitation and control of generalized non-convulsive seizures.
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PMID:Evidence for a critical role of GABAergic transmission within the thalamus in the genesis and control of absence seizures in the rat. 165 Feb 72

The effect of 12-day intraperitoneal i.p. administration of vigabatrin (GVG, gamma-vinyl GABA) to rats on the neurotransmission-related amino acids in various brain regions (cortex, hippocampus, cerebellum, and spinal cord), cisternal fluid (CSF) and blood was studied. Results showed that GVG administration increased the levels of GABA in cortical and subcortical regions of the brain and CSF without affecting GABA and benzodiazepine receptors in the cortex. In addition, a dose-dependent decrease was noted in the concentration of glutamate in the hippocampus and in the concentrations of aspartate and glutamine in the cortex, hippocampus, and cerebellum. The changes in the levels of amino acids in the brain, except for that of GABA, were not reflected in the CSF, however, and the levels of amino acids in discrete brain regions did not show any correlation with those in the serum or in the CSF. The results suggest that GVG administration might suppress development and spread of seizures not only by elevating the level of the inhibitory amino acid GABA, but also by decreasing the levels of excitatory amino acids in the brain.
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PMID:Effects of vigabatrin (gamma-vinyl GABA) on neurotransmission-related amino acids and on GABA and benzodiazepine receptor binding in rats. 167 76

Ten patients, suffering from drug-resistant complex partial seizures were treated for a period of up to 3 years with vigabatrin (Sabril). Vigabatrin is a novel antiepileptic agent, whose action is based on the inhibition of gamma-aminobutyric acid (GABA) aminotransferase, the enzyme responsible for the catabolism of the neurotransmitter GABA. Samples of lumbar cerebrospinal fluid were obtained from the patients prior to commencing vigabatrin therapy, and thereafter at 6 months, 1 year, 2 years, and up to 3 years following the initiation of vigabatrin treatment. The influence of vigabatrin on the cerebrospinal fluid concentrations of free and total GABA, homocarnosine, homovanillic acid, 5-hydroxyindoleacetic acid, and 3-methoxy-4-hydroxyphenylethylene glycol, as well as of the drug itself, was assessed. All patients demonstrated a clinical response to vigabatrin, and the drug was well tolerated over the entire observation period. Mean (+/- SD) reduction of seizure frequency was 65% +/- 23% (range, 26% to 100%) when comparing the end of the treatment period to the previgabatrin baseline. The cerebrospinal fluid concentrations of both free and total GABA and of the dipeptide homocarnosine showed approximately 2- to 5-fold increases over baseline values, with free GABA and homocarnosine being the more sensitive variables. Cerebrospinal fluid concentrations of homovanillic acid, 5-hydroxyindoleacetic acid, and 3-methoxy-4-hydroxyphenylethylene glycol were not altered in a significant manner over the observation period. These findings support the concept that the effects of vigabatrin are restricted to an effect on GABA catabolism and do not extend to the neurotransmitters dopamine and norepinephrine. Clinical efficacy and elevation of GABA and homocarnosine concentration were sustained over the period of observation.
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PMID:Effect of long-term vigabatrin therapy on selected neurotransmitter concentrations in cerebrospinal fluid. 171 63

Seizure susceptibility and GABA metabolism were altered in the substantia nigra [SN] of adult male Sprague Dawley rats when these animals were acclimating to an altered plasma osmolality. Changes in GABA metabolism were measured in vivo in SN of the freely moving rat. Suitable precautions were taken to avoid any post-mortem flux of glutamate to GABA and to correct for the underestimation of GABA build up in SN due to the finite diffusion rate of gamma-vinyl GABA [GVG] after stereotaxic injection of small amounts into one side of the brain. Control experiments provided evidence that changes in osmolality, within a normal physiological range, did not affect significantly gamma-aminobutyric acid transaminase [GABA-T]. Also kindling via the medial septum [MS], in the absence of electrical stimulation did not alter GABA metabolism in SN, thus providing a stable baseline for studies of osmotic effects. Hyperosmolality was associated with a rise in seizure thresholds, with a marked reduction of the rate of GABA synthesis in SN, and with a substantial increase in turnover time of the GABA pool. Hypoosmolality, of a degree known to be associated with mild cerebral edema and swelling localized to astrocytes, markedly reduced seizure threshold, and reduced GABA pool size in SN, but did not alter the rate of GABA synthesis significantly. These results demonstrate by new and independent means the relationship between GABA metabolism in the SN and seizure susceptibility in vivo.
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PMID:Alterations of GABA metabolism and seizure susceptibility in the substantia nigra of the kindled rat acclimating to changes in osmotic state. 178 28

There is evidence implicating the nigral gamma-aminobutyric acid (GABA) system in the control of seizures. Our previous studies have demonstrated that, in rat pups, intranigrally infused gamma-vinyl-GABA (GVG, 5-20 micrograms) strongly suppresses flurothyl-induced tonic but not clonic seizures. Furthermore, nigral infusions of bicuculline or muscimol abolish the anticonvulsant effect of GVG. In this study, we report that in adult rats bilateral infusions of GVG (20 micrograms) into the substantia nigra pars reticulata (SNR) significantly elevated the thresholds for both clonic and tonic seizures induced by flurothyl. Lower doses (5 and 10 micrograms) did not significantly protect adult rats against seizures, but there was a significant effect of GVG dose. Unilateral infusion of GVG (20 micrograms) in the SNR did not alter the thresholds for flurothyl-induced seizures. Intranigral infusions of bicuculline following pretreatment with GVG abolished the protective effect of GVG on flurothyl-induced seizures, indicating that the anticonvulsant effect of GVG is most likely mediated by the nigral GABAA receptor. Intranigral administration of muscimol after GVG pretreatment significantly suppressed flurothyl-induced seizures, but the combined effect of the two drugs was not as strong as that of GVG alone. The data suggest that GVG protects adult rats against flurothyl-induced seizures. In adults, however, the dose of GVG required to protect against both clonic and tonic seizures is higher than that needed in rat pup SNR.
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PMID:Effects of substantia nigra gamma-vinyl-GABA infusions on flurothyl seizures in adult rats. 181 29

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