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)

Tiagabine (TGB), a new potent gamma-aminobutyric acid (GABA) uptake inhibitor, is widely applied in adjunctive treatment of partial seizures in humans. Although, polytherapy is not an initial method of epilepsy treatment, clinicians often combine TGB with other antiepileptics as add-on therapy for assuring the anticonvulsant protection in patients with refractory seizures. To evaluate the character of pharmacological interactions between TGB and some antiepileptics, the isobolographic analysis was used as a suitable method for determining the exact types of interactions. Determination of an influence of TGB on the protective effects of diphenylhydantoin (DPH), carbamazepine (CBZ), valproate (VPA), phenobarbital (PB), lamotrigine (LTG), topiramate (TPM), and felbamate (FBM) in maximal electroshock-induced seizures was essential for this study. To exclude or confirm a pharmacokinetic character of observed interactions, the free plasma and brain concentrations of antiepileptic drugs (AEDs) studied were evaluated by using the immunofluorescence or high-pressure liquid chromatography (HPLC).TGB (up to 2.5 mg/kg) remained ineffective upon the electroconvulsive threshold, whilst the drug in doses of 5 and 10 mg/kg significantly raised the electroconvulsive threshold in mice. According to the isobolography, TGB appears to act synergistically with VPA. The remaining combinations tested exerted additive interactions. A pharmacokinetic character of interaction between TGB and VPA was evidently corroborated either in plasma or brains. Moreover, TGB significantly reduced the plasma and brain concentrations of DPH; however, pharmacokinetic events were not accompanied by any changes in anticonvulsant activity of the latter. Finally, the isobolographic analysis revealed that combinations of TGB with VPA exerted synergistic (supra-additive) interaction resulting from a pharmacokinetic interaction.
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PMID:Interactions of tiagabine with some antiepileptics in the maximal electroshock in mice. 1287 22

Tiagabine (TGB) is a novel anti-epileptic drug providing new therapeutic possibilities to patients with focal seizures resistant to treatment. Since there is no clear algorithm for the best add-on therapy, the aim of our work was to establish factors that statistically significantly affect tiagabine efficacy and toxicity in patients with focal seizures. Data in the study were obtained from over 200 neurologists all over Poland. A group of 1307 patients aged from 3.5 to 80 years with drug-resistant focal epilepsy participated in the study. They were under observation for 16 weeks when receiving TGB as an add-on therapy. Prior to TGB treatment they had at least 1 seizure per month (mean 7.42 +/- 9.86) during the past 3 months. On the study completion 40.47% of the patients were seizure-free for at least a month. Two factors turned out to be significant for TGB efficacy: the number of drugs used since the onset of epilepsy (p = 0.005) and seizure type (p = 0.047). The best outcome was attained in patients with simple partial seizures. Co-medication with phenytoin was better than TGB + carbamazepine or TGB + valproic acid. The factor determining the presence of side effects was the rate of TGB dose increment during the first six weeks of treatment. Toxicity of TGB was not related to its target dose. Tiagabine is a safe and efficient anti-epileptic drug for children and adults with focal epilepsy. Efficacy of tiagabine treatment depends on the number of drugs administered since the epilepsy onset and on the type of seizures. A slow dose increment is crucial for safety of TGB treatment.
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PMID:[Determinants of tiagabine (TGB) efficacy and safety. A Polish multicenter study of 1307 patients with focal epilepsy]. 1459 50

The treatment of partial seizures in children is based on the use of first generation and recently introduced antiepileptic drugs as well as nonpharmacological treatments such as the ketogenic diet, vagus nerve stimulation and surgical therapy. The present review discusses the efficacy and tolerability of different treatment options for partial seizures in childhood. Few adjunctive or monotherapy, placebo-controlled or comparative trials of the first-generation antiepileptic drugs and some of the more recently introduced antiepileptic drugs have been performed in children. This can be explained by the fact that it is only relatively recently (1989) that the International League against Epilepsy proposed that randomised, controlled trials be included among the required criteria for assessing the efficacy and tolerability of an antiepileptic agent. This led to controlled, comparative trials among older antiepileptic drugs (phenobarbital, phenytoin, carbamazepine and valproic acid), both in adults and in paediatric patients, being performed relatively 'late', based on when these drugs were first introduced. Carbamazepine and valproic acid may still be considered as first-line antiepileptic therapies for children with partial seizures. Phenobarbital and phenytoin are mostly considered as last choice drugs because of their adverse event profiles. The new generation of antiepileptic agents has added to the first- and second-line treatment options for paediatric partial seizures. To date, there are sufficient data to support the clinical use of some of the recently introduced antiepileptic drugs (e.g. oxcarbazepine, topiramate, gabapentin and lamotrigine) as adjunctive or first-line monotherapy. Because of the risk of visual field constriction with vigabatrin, the use of this drug is currently limited to patients refractory to other medications. Tiagabine, felbamate, levetiracetam and zonisamide have been shown to be effective in adults with partial seizures; however, at present there are not yet enough data on the efficacy of these drugs in children to support consideration of their use as either first-line or add-on therapy in this patient population, although controlled studies are expected shortly. Furthermore, the use of felbamate is considerably limited by rare, but severe, hepatic and haematological toxicity. Controlled trials for paediatric partial seizures are still lacking for the ketogenic diet and vagus nerve stimulation, though they may represent, in given patients, useful adjunctive alternative treatments for refractory partial seizures. In conclusion, further trials are needed to determine an optimal sequence of first- and second-line therapies and to establish whether other newer antiepileptic drugs merit consideration as initial therapy in children with partial seizures.
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PMID:Treatment of partial seizures in childhood : an overview. 1487 Nov 58

Tiagabine inhibits gamma-aminobutyric acid uptake into neurons and glia. This mechanism of action is specific and unique among the antiepileptic drugs (AEDs). Tiagabine is efficacious in animal seizure models at subtoxic doses. There is no evidence of clinically important teratogenicity, carcinogenicity or mutagenicity in animals treated acutely or chronically with tiagabine. Tiagabine has no clinically relevant effect on hepatic metabolism or serum levels of other AEDs, has no clinically significant effects on laboratory values and has not been shown to have any clinically important interactions with common non-AEDs. Tiagabine has linear, predictable pharmacokinetics that do not vary significantly with age. Adverse effects are usually mild to moderate in severity and almost always resolve without medical intervention. The most common adverse events in controlled studies are dizziness, asthenia, somnolence, accidental injury, infection, headache, nausea and nervousness. Tiagabine is effective as add-on therapy for partial seizures in patients with medically refractory epilepsy in doses ranging from 32-56 mg daily. Despite its short half-life of 2-3 hours in patients on enzyme-inducing AEDs, tiagabine is effective when dosed 2-3 times a day. Conversion to tiagabine monotherapy can be achieved in patients with medically refractory epilepsy, though additional studies are needed to establish the effective dosage range. The introduction of drugs like tiagabine that have known mechanisms of action which differ from existing treatments further increases the range of options for patients with epilepsy.
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PMID:Tiagabine. 1509 57

Epilepsy remains difficult to treat with more than 30% of patients being refractory to conventional anticonvulsant therapy. Combination therapy may improve seizure control in some of these patients. Tiagabine is a new anticonvulsant that has a unique mechanism of action as a selective gamma-aminobutyric acid (GABA) re-uptake inhibitor (SGRI). Twenty consecutive patients with refractory epilepsy were treated with tiagabine, and prior to tiagabine administration the mean number of anticonvulsants that each patient had taken was five. Tiagabine therapy was initiated at a dose of 5 or 10mg per day and was increased at weekly increments of 5 or 10 mg per day, respectively. Thirty-five percent of patients receiving tiagabine (20-40 mg per day, mean 34.29 mg per day) achieved a > or =50% reduction in seizure frequency. Tiagabine was effective when added to carbamazepine, lamotrigine, or oxcarbazepine. Tiagabine appeared more effective at higher doses. Side effects were predominately central nervous system-related, the most common being dizziness. For optimal results, tiagabine should be initiated at low doses and titrated slowly. This observational study has demonstrated tiagabine to be effective and safe in patients with refractory epilepsy.
Seizure 2004 Oct
PMID:Treating refractory epilepsy with tiagabine: clinical experience. 1532 25

GABAA receptors mediate fast phasic inhibitory postsynaptic potentials and participate in slower tonic extrasynaptic inhibition. Thy1alpha6 mice with ectopic forebrain expression of GABAA receptor alpha6 subunits exhibit increased extrasynaptic GABAA receptor-mediated background conductance and reduced synaptic GABAA receptor currents in hippocampal CA1 neurons [W. Wisden et al. (2002) Neuropharmacology 43, 530-549]. Here we demonstrate that isolated CA1 neurons of these mice showed furosemide-sensitivity of GABA-evoked currents, confirming the functional expression of alpha6 subunit. In addition, receptor autoradiography of the CA1 region of Thy1alpha6 brain sections revealed pharmacological features that are unique for alpha6betagamma2 and alpha6beta receptors. The existence of atypical alpha6beta receptors was confirmed after completely eliminating GABAA receptors containing gamma1, gamma2, gamma3 or delta subunits using serial immunoaffinity chromatography on subunit-specific GABAA receptor antibodies. Behaviourally, the Thy1alpha6 mice showed normal features with slightly enhanced startle reflex and struggle-escape behaviours. However, they were more sensitive to GABAA antagonists DMCM (shorter latency to writhing clonus) and picrotoxinin (shorter latency to generalized convulsions). Tiagabine, an antiepileptic GABA-uptake inhibitor that increases brain GABA levels, delayed picrotoxinin-induced convulsions at a low dose of 3.2 mg/kg in Thy1alpha6 mice, but not in control mice; however, the overall effect of higher tiagabine doses on the convulsion latency remained smaller in the Thy1alpha6 mice. Altered balance between extrasynaptic and synaptic receptors thus affects seizure sensitivity to GABAergic convulsants. Importantly, the increased extrasynaptic inhibition, even when facilitated in the presence of tiagabine, was not able fully to counteract enhanced seizure induction by GABAA antagonists.
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PMID:Behavioural correlates of an altered balance between synaptic and extrasynaptic GABAAergic inhibition in a mouse model. 1545 96

The identification and subsequent development of the GABA transport inhibitor tiagabine has confirmed the important role that GABA transporters play in the control of CNS excitability. Tiagabine was later demonstrated to be a selective inhibitor of the GABA transporter GAT1. Although selective for GAT1, tiagabine lacks cell type selectivity and is an equipotent inhibitor of neuronal and glial GAT1. To date, four GABA transporters have been cloned, i.e., GAT1-4. The finding that some of these display differential cellular and regional expression patterns suggests that drugs targeting GABA transporters other than GAT1 might offer some therapeutic advantage over GAT1 selective inhibitors. Furthermore, it is particularly interesting that several recently defined GABA transport inhibitors have been demonstrated to display a preferential selectivity for the astrocytic GAT1 transporter. That cellular heterogeneity of GAT1 plays a role in the control of CNS function is confirmed by the demonstration that inhibition of astrocytic GABA uptake is highly correlated to anticonvulsant activity. At the present time, a functional role for the other GABA transporters is less well defined. However, recent findings have suggested a role for the mouse GAT2 (homologous to the human betaine transporter) in the control of seizure activity. In these studies, the non-selective GAT1 and mouse GAT2 transport inhibitor EF1502 (N-[4,4-bis(3-methyl-2-thienyl)-3-butenyl]-3-hydroxy-4-(methylamino)-4,5,6,7-tetrahydrobenzo[d]isoxazol-3-ol) was found to exert a synergistic anticonvulsant action when tested in combination with the GAT1 selective inhibitors tiagabine and LU-32-176B (N-[4,4-bis(4-fluorophenyl)-butyl]-3-hydroxy-4-amino-4,5,6,7-tetrahydrobenzo[d]isoxazol-3-ol). Additional studies will be required to define a role for the other GABA transporters and to further identify the functional importance of their demonstrated cellular and regional heterogeneity. A summary of these and other issues are discussed in this brief review.
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PMID:GABA transporters as drug targets for modulation of GABAergic activity. 1545 99

Efficacy and tolerability of tiagabine was evaluated in patients with non-controlled partial seizures in a multicentre, open-label, parallel group study. Tiagabine was administered either two (b.i.d.) or three times daily (t.i.d.) as adjunctive therapy and titrated stepwise to a target of 40 mg/day during a 12-week, fixed-schedule titration period; this was followed by a 12-week flexible continuation period. The primary efficacy endpoint was the proportion of patients completing the fixed-schedule titration period. A total of 243 patients were randomised and received treatment, 123 to b.i.d. and 120 to t.i.d. dosing. Fewer patients in the b.i.d. (76 and 62%) than in the t.i.d. (87 and 72%) group completed the fixed-schedule titration period (OR: 0.562; 95% CI: 0.309-1.008; P=0.0532). The median percentage decrease in all types of seizure (excluding status epilepticus) during the fixed schedule titration period was 33.4% for the b.i.d. and 23.8% for the t.i.d. groups (P=0.9634; Van Elteren's test). The proportion of responders was similar for the b.i.d. and t.i.d. groups. There were no significant differences between dosage regimens in the change in median seizure rates from baseline. Adverse events were more frequent during the titration than the continuation period. Most events were mild and related to the central nervous system. Although their incidence was similar between treatment groups, severity was more frequent in the b.i.d. group. Our results suggest that during titration tiagabine is better tolerated with t.i.d. dosing, but during long-term maintenance, a t.i.d. schedule is as effective and well tolerated as b.i.d.
Seizure 2005 Mar
PMID:A randomised open-label study of tiagabine given two or three times daily in refractory epilepsy. 1569 59

Tiagabine is an anticonvulsant gamma-aminobutyric acid reuptake inhibitor commonly used as an add-on treatment of refractory partial seizures in persons over 12 years old. Four of the 5 cases reported here indicate that tiagabine might also be remarkably effective in suppressing nocturnal bruxism, trismus, and consequent morning pain in the teeth, masticatory musculature, jaw, and temporomandibular joint areas. Tiagabine has a benign adverse-effect profile, is easily tolerated, and retains effectiveness over time. Bed partners of these patients report that grinding noises have stopped; therefore, the tiagabine effect is probably not simply antinociceptive. The doses used to suppress nocturnal bruxism at bedtime (4-8 mg) are lower than those used to treat seizures.
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PMID:Tiagabine may reduce bruxism and associated temporomandibular joint pain. 1625 40

Tiagabine is an antiepileptic drug used as adjunctive therapy for partial seizures that is believed to selectively inhibit the presynaptic reuptake of gamma aminobutyric acid (GABA). We describe a case of a tiagabine overdose that resulted in status epilepticus (SE) in a patient with no seizure history. A 14-year-old girl with a history of asthma presented with convulsive SE after ingestion of an unknown amount of her sister's tiagabine in a suicide attempt. Attempted anticonvulsant therapy included a total of diazepam 10 mg IV, lorazepam 6 mg IV, pyridoxine 5 g IV, and fosphenytoin 20 mg PE/kg. All were without effect. A computed tomography and electrocardiogram were normal. Continuous bedside EEG monitoring showed suppression of seizure activity following intravenous midazolam. A tiagabine level obtained on ED arrival was 420 ng/mL (therapeutic 20-103 ng/mL). The patient was discharged to psychiatry within 1 week with no neurologic sequelae.
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PMID:Tiagabine overdose: a case of status epilepticus in a non-epileptic patient. 1644 May 16

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