Antiepileptic Effects of Tiagabine, a Selective GABA Uptake Inhibitor, in the Rat Kindling Model of Temporal Lobe Epilepsy

Summary: Purpose: We determined the antiepileptic profile of tiagabine (TGB), a selective γ-aminobutyric acid (GABA) uptake inhibitor, in the rat kindling model of temporal lobe epilepsy (TLE).
Methods : The anticonvulsant and adverse effects of TGB were examined in amygdala- or hippocampal-kindled rats and compared with those of other GABA uptake inhibitors (SKF89976A and NNC-7 1 1) and conventional antiepileptic drugs [AEDs: valproate (VPA) and carbamazepine (CBZ)]. In addition, the antiepileptogenic effects of TGB on amygdala kindling development were examined.
Results : TGB (2.5–40 mgkg intraperitoneally, i.p.) had potent and dose-dependent anticonvulsant effects on both amygdala-and hippocampal-kindled seizures. The order of anticonvulsant potency of the three GABA uptake inhibitors tested was: NNC-711 > TGB > SKF-89976A and paralleled the in vitro GABA uptake efficacy. In addition, daily treatment with TGB 10 mgkg for 10 days significantly retarded kindling development. Although adverse effects of TGB on motor systems were significantly less than those of VPA and CBZ, high toxic doses of TGB often caused EEG paroxysm and myoclonus.
Conclusions : Our results indicate the clinical usefulness of TGB for treatment of drug-resistant TLE.     

Tiagabine: Efficacy and Safety in Adjunctive Treatment of Partial Seizures

PURPOSE: To assess the efficacy and safety of tiagabine (TGB), a new antiepileptic drug (AED), as add-on therapy in patients with refractory partial seizures. METHODS: This response-dependent study used an open-label screening phase (in which patients were titrated to their optimal TGB dose, < or =64 mg/day) followed by a double-blind, placebo-controlled, crossover phase. Initial eligibility criteria included (a) seizures inadequately controlled by existing AEDs, and (b) six or more partial seizures during an 8-week baseline period. Patients showing benefit from TGB (> or =25% reduction in total seizure rate relative to baseline) were eligible for randomization into the double-blind phase, which comprised two 7-week assessment periods separated by a 3-week crossover period. RESULTS: Forty-four (50%) of the 88 enrolled patients entered the double-blind phase of the study during which there were significant reductions compared with placebo in all partial (p < 0.01), complex partial (p < 0.001), and secondarily generalized tonic-clonic seizure rates (p < 0.05). Thirty-three percent of patients experienced a reduction of > or =50% in the all partial seizure rate. Eight (22%) patients receiving TGB during the double-blind phase reported adverse events, of which dizziness and incoordination were the most frequent. Three patients withdrew from treatment during the double-blind phase because of adverse events; two during treatment with TGB and one during treatment with placebo. TGB did not affect plasma concentrations of other coadministered AEDs. CONCLUSIONS: TGB was significantly better than placebo in terms of seizure rate reduction and was generally well-tolerated in patients with difficult to control seizures.     

Tiagabine Monotherapy in the Treatment of Partial Epilepsy

Summary: Three studies were conducted to assess tiagabine (TGB) hydrochloride monotherapy in patients with partial seizures. The first was a double-blind, placebo-controlled trial of 11 patients (seven TGB, four placebo) undergoing evaluation for epilepsy surgery. Baseline antiepileptic drug (AED) therapy was discontinued abruptly before monotherapy. Although 24-h seizure rates increased during monotherapy in both groups, patients receiving TGB experienced fewer seizures than placebo patients. Subsequent studies (an open-label, dose-ranging study; n = 31 and a double-blind, randomized comparison of 6 and 36 mg/day TGB; n = 102 and 96, respectively) involved discontinuation of baseline AEDs. In the dose-ranging study, 19 of 31 patients (61%) converted to TGB monotherapy, with a mean final dose of 38.4 mg/day (range 24–54 mg/day) in those who completed the study ( n = 12). In the low- vs. high-dosage study, median 4-week complex partial seizure rates decreased significantly in patients from both dose groups who completed the monotherapy period ( p <0.05 compared with baseline). In the intent-to-treat analysis, significantly more patients in the high-dose group experienced a reduction in seizures of at least 50% compared with the low-dose group ( p = 0.038). Overall, the types of adverse events with TGB monotherapy were similar to those observed in add-on trials. These initial trials in difficult-to-treat epilepsy patients indicate that TGB monotherapy may provide a new approach to the treatment of patients with partial seizures refractory to other AEDs.     

Determinants of tiagabine (TGB) efficacy and safety. A Polish multicenter study of 1307 patients with focal epilepsy

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.     

Review of Controlled Trials of Gabitril (Tiagabine): A Clinician's Viewpoint

Summary: A recent problem for doctors has been the choice of which new antiepileptic drug (AED) to select for treatment of pharmacoresistant epilepsy. This article summarizes the clinical experience to date regarding the efficacy and safety of tiagabine (TGB; Gabitril) as adjunctive therapy in patients with partial-onset seizures. In its early Phase II development, TGB was evaluated in two multicenter pilot studies. Each had an open-label enrichment phase followed by a treatment phase with randomized, double-blind, two-period, cross-over phases. Between 24 and 50% of patients experienced reductions in seizure rates of ≥50%, depending on the type of partial seizure. In Phase III, three double-blind, parallel group, placebo-controlled adjunctive studies determined the efficacy of TGB in patients with refractory partial seizures. The first was a dose-response study employing doses of TGB-HCl of 16, 32 or 56 mg/day. Significant reductions in seizure rates were found with 32 and 56 mg/day. The second and third studies evaluated the efficacy of dosing TGB twice, three times, and four times daily, all of which showed similar efficacy. TGB efficacy in partial seizures was supported in several open trials, and no tolerance to efficacy was noted in long-term continuation studies. Tolerability was documented in all trials. Most adverse events were mild or moderate and transient, occurring during dose titration. They were clearly dose-related. No relevant changes in hematologic and biochemical tests, vital signs, or body weight were attributable to TGB. TGB appears to be an effective new drug for partial seizures with an acceptable safety profile.     

Psychiatric outcome of epilepsy surgery in patients with psychosis and temporal lobe drug-resistant epilepsy: A prospective case series

ObjectivesTemporal lobe resistant epilepsy has been associated with a high incidence of psychotic disorders; however, there are many controversies; while some patients get better after surgery from their psychiatric condition, others develop psychosis or de novo depression. The aim of this study was to determine the psychiatric and seizure outcome after epilepsy surgery in patients with a previous history of psychoses.MethodsSurgical candidates with temporal lobe drug-resistant epilepsy and a positive history of psychosis diagnosed during the presurgical psychiatric assessment were included. A two-year prospective follow-up was determined after surgery. The DSM-IV Structural Interview, GAF (global assessment of functionality, DSM-IV), Ictal Classification for psychoses, and Engel's classification were used. The Student t test and chi-square–Fisher tests were used.ResultsDuring 2000–2010, 89 patients were admitted to the epilepsy surgery program, 14 patients (15.7%) presented psychoses and were included in this series. After surgery, six patients (43%) did not develop any psychiatric complications, three patients (21%) with chronic interictal psychosis continued with no exacerbation, three patients (21%) developed acute and transient psychotic symptoms, and two patients (14%) developed de novo depression. Seizure outcome was Engel class I-II in 10 patients (71%). Total GAF scores were higher after surgery in patients found to be in Engel class I–II (p < 0.05).ConclusionsPatients with comorbid psychosis and temporal lobe drug-resistant epilepsy may benefit from epilepsy surgery under close psychiatric supervision.     

Tiagabine

Summary: Tiagabine (TGB), a specific γ-aminobutyric acid (GABA)-uptake inhibitor, is a potential new antiepileptic drug with a novel mechanism of action. In animal models of epilepsy as well as in a placebo-controlled trial in patients with complex partial seizures, TGB showed significant anticonvulsant effects. TGB was well tolerated by most patients.     

Tiagabine: efficacy and safety in partial seizures – current status

Tiagabine hydrochloride (TGB) is a selective gamma-aminobutyric acid (GABA) reuptake inhibitor. TGB is effective as an add-on medication in adults and children 12 years and older in the treatment of partial seizures. Results of nonrandomized add-on trials with TGB show treatment success with seizure reduction of at least 50% in 33% to 46% of patients. In newly diagnosed patients with partial epilepsy, TGB monotherapy was as effective as carbamazepine. Comedication with TGB elevates the risk of nonconvulsive status (7.8% vs 2.7% without TGB). The most common side effects include dizziness/lightheadedness, asthenia/lack of energy and somnolence. TGB has no negative effects on cognition; it does not increase the risk of fractures or rash. TGB may interfere with color perception. TGB presents an intermediate risk for depression in patients with epilepsy (approximately 4%). Regarding the risk of overdose, 96–680 mg TGB (mean 224 mg) caused seizures or coma. TGB is an antiepileptic drug exhibiting a specific anticonvulsive mechanism of action, the efficacy of which is relatively low when used in comedication. Critical side effects, such as the induction of nonconvulsive status epilepticus, further limit its use.     

International Experience with Tiagabine Add-On Therapy

Summary: Tiagabine (TGB) hydrochloride is a novel antiepileptic drug (AED) that is a potent and specific inhibitor of γ-aminobutyric acid (GABA) uptake into glial and neuronal elements. In accordance with medical and regulatory standards, the clinical development program for TGB as an AED has assessed the value of TGB in add-on treatment, focusing mainly on partial seizures, including secondarily generalized seizures. Five add-on, placebo-controlled trials and six non-comparative, open-label, long-term multicenter trials have been or are being conducted in Australia, Europe, and the U.S.A. The results of these trials, involving 2,261 patients, indicate that TGB has efficacy as add-on therapy in patients with epilepsy difficult to control with existing AEDs. Efficacy of TGB is also sustained with long-term treatment. A clear dose-response has been demonstrated, and the minimal effective dose level is 30 mg. TGB is also tolerated, and with long-term therapy no new or more severe types of adverse events develop. These studies have included a wide age range of patients, including adolescents and the elderly.     

Clinical and EEG findings in six patients with altered mental status receiving tiagabine therapy

Tiagabine (TGB), a novel GABA reuptake inhibitor antiepileptic drug, has been reported to induce nonconvulsive status epilepticus (NCSE) in patients with generalized or partial onset seizures. We describe six patients with refractory partial epilepsy treated with add-on TGB. They developed acute intermittent or progressive chronic confusion associated with diffuse slowing of the electroencephalogram (EEG), shortly after an increase in dose of TGB. This remitted in each situation after reduction of the daily dose. The possibility of nonconvulsive status epilepticus or toxic encephalopathy is discussed.     

Comparison of the cognitive effects of tiagabine and carbamazepine as monotherapy in newly diagnosed adult patients with partial epilepsy: pooled analysis of two long-term, randomized, follow-up studies

PURPOSE: Patients with epilepsy are at greater risk for cognitive impairment than are age- and education-matched controls. Cognitive decline is a significant adverse event associated with many first-generation anticonvulsant drugs (AEDs); however, the past decade has seen the introduction of several new AEDs with more-favorable cognitive profiles. Tiagabine (TGB) is indicated as adjunctive therapy for the treatment of partial seizures. The cognitive effects of TGB and carbamazepine (CBZ) monotherapy were evaluated in adult epilepsy patients with partial seizures. METHODS: This analysis pooled data from two randomized studies with similar populations, dosing, and cognitive assessments. TGB was titrated to 20-30 mg/day and CBZ to 400-800 mg/day over a 6-week period. A control or no-drug group of untreated patients with a single epileptic seizure was included for comparison. Cognitive function was assessed at baseline and 52 weeks. RESULTS: Of the 105 epilepsy patients enrolled, 79 completed the 52 weeks of monotherapy (TGB, 74%; CBZ, 77%). Altogether, 19 untreated patients composed the no-drug group. During the 52-week follow-up, only one statistically significant difference was found between the treatment groups and the no-drug group [verbal fluency task: F(2, 92) = 3.16; p = 0.047]. On further analysis, it was determined that this statistical difference was solely based on the patients receiving CBZ performing worse than the control group (p = 0.048). Statistically significant improvements (p < 0.05) were found on six (26%) of 23 variables with TGB and CBZ, as well as the no-drug group, although the variables differed between the groups. Significant worsening in the test scores was not seen in any of the study groups. CONCLUSIONS: The results of this 52-week, follow-up study show that successful TGB monotherapy with 20-30 mg/day has a cognitive profile similar to that of successful long-term CBZ monotherapy with 400-800 mg/day in newly diagnosed patients with epilepsy and to that of untreated patients with a single seizure. We observed no significant decline in cognitive scores associated with TGB monotherapy.     

Tiagabine in Clinical Practice

Summary: Among the newly introduced antiepileptic drugs (AEDs), tiagabine (TGB) stands out as a compound with a well-understood and documented mechanism of action. It is a lipophilic derivative of nipecotic acid that blocks γ-aminobutyric acid (GABA) reuptake by inhibition of the GAT-1 transportation system, and that has no other significant pharmacodynamic effect. The relationship between intake and blood levels is linear. Usual daily maintenance doses range from 20 to 50 mg. It is completely absorbed by the gastrointestinal tract, and its half-life is ∼7–9 h. TGB is sensitive to enzyme induction: when coprescribed with enzyme-inducing AEDs, its half-life is shortened to 2–3 h, whereas the daily dosage has to be increased into the upper range. It should be given 3 times per day. Placebo-controlled, double-blind, add-on studies conducted in patients with drug-resistant focal epilepsies have demonstrated its efficacy and overall safety. The clinical benefits appear to persist over time. Data on its use in monotherapy are scanty. The efficacy and tolerability of TGB in the pediatric age still remain to be investigated adequately. In daily practice, TGB appears to be a safe drug, but mild to moderate side effects are frequently seen, especially during titration: these include dizziness and fatigue, and are clearly abated when the drug is absorbed during meals. Titration should be especially slow, no faster than 5 mg weekly. Clinicians also should beware of the possible occurrence of confusion, which may be misdiagnosed as absence status, a short-lasting, quickly reversible central nervous system–related side effect that appears to be correlated with the peak plasma concentrations of TGB. Particularly beneficial indications for TGB and/or AED associations including TGB have not been pointed out, but there is a hint that it works best in temporal lobe epilepsies.     

Long-Term Safety of Tiagabine

Summary: Tiagabine (TGB) is now registered in >20 countries, and the total number of treated patients approaches 90,000. Short-term safety data were derived mainly from five placebo-controlled, add-on studies in adults with therapy-resistant partial epilepsy, and two conversion to TGB monotherapy studies. Central nervous system (CNS)-related adverse effects, most frequently dizziness, were common with TGB treatment during the titration period; the risk became similar to placebo rates during fixed-dose periods. Other adverse events that were more frequent in TGB- than in placebo-treated patients were asthenia, nervousness, tremor, concentration difficulties, depressive mood, and language problems. TGB doses should be titrated slowly and taken with food to avoid rapid increases in plasma concentrations, thus minimizing the risks of adverse events. Overall, >2,500 patients have been exposed to TGB during clinical trials, with 1,274 patients treated >12 months, the majority of whom received TGB 24–60 mg/day. No idiosyncratic reactions have been linked to the use of TGB, and no abnormalities in hematology or common chemistry values were reported. In all the epilepsy studies combined, 21% of patients discontinued treatment because of adverse events, usually during the first 6 months of treatment. No adverse effects on cognitive abilities were detected when the neuropsychological effects of TGB add-on therapy and monotherapy were evaluated. TGB does not appear to cause an excess risk of psychosis or increase the incidence of status epilepticus or spike/wave discharges. No evidence of a relationship between visual field constriction and TGB treatment was found in a study of 15 patients converted to TGB monotherapy (mean dose, 22 mg/day; mean duration, 2.5 years) who had a full ophthalmologic evaluation. In conclusion, the characteristics of TGB in the management of partial epilepsy are enhanced by its favorable side-effect profile in the cognitive area.     

Pre- rather than co-application of vigabatrin increases the efficacy of tiagabine in hippocampal slices

PURPOSE: The antiepileptic drug vigabatrin (VGB) increases intracellular availability of the inhibitory transmitter gamma-aminobutyric acid (GABA) by inhibition of GABA-transaminase. A blockade of the GABA uptake is the main mechanism of action of tiagabine (TGB). Based on this, the two antiepileptic drugs (AEDs) can be speculated to act synergistically so that their combined antiepileptic efficacy is supraadditive. METHODS: To test this, experiments were performed on hippocampal slices of guinea-pigs. As an epilepsy model, epileptiform field potentials (EFPs) were induced by omission of Mg2+ from the bath solution and recorded in stratum pyramidale of the CA3 region. VGB (7.5 microM) and TGB (0.75 microM) were added to the superfusate. RESULTS: VGB, given alone, failed to decrease the repetition rate of EFPs. Similarly, TGB applied alone only transiently led to a nonsignificant reduction of the EFP frequency. Combining VGB and TGB, their suppressive efficacy increased, yielding a significant reduction of EFP frequency, which, however, again did not persist. Pretreatment of the preparations with VGB for 2 h, followed by additional application of TGB, or TGB alone, drastically and persistently potentiated the effects. CONCLUSIONS: These results demonstrate that VGB and TGB show favorable pharmacodynamic interactions, provided VGB is allowed to block intracellular GABA degradation before GABA uptake block by TGB.     

Psychiatric history does not predict seizure outcome following temporal lobectomy for mesial temporal sclerosis

Purpose: A lifetime psychiatric history has been reported to be associated with poorer seizure outcome following temporal lobectomy for drug‐resistant focal epilepsy, but it remains unclear whether this is confounded by the nature of the epileptogenic pathology. Here we examined this association in a pathologically homogeneous group of patients with mesial temporal sclerosis (MTS). Methods: The study population included 72 consecutive patients who underwent a temporal lobectomy for drug resistant temporal lobe epilepsy (TLE) and had histopathologically proven MTS. All patients were assessed preoperatively by a neuropsychiatrist. Chi‐square analysis was undertaken to look for demographic, clinical, psychiatric, or neurologic factors associated with seizure outcome at 1 year. The relationship between having a psychiatric disorder and seizure outcome was examined by generating Kaplan‐Meier curves and comparing between groups the log rank test as well as generating Cox regression models to estimate hazard ratios. Key Findings: There were no significant associations between postsurgery seizure outcome and a current or lifetime history of any psychiatric disorder. Significance: A history of psychiatric disorder, in particular depression and psychosis, is not associated with a poorer surgical outcome in patients with MTS. These findings have implications for the clinical management of patients under consideration for temporal lobectomy.     

A Review of the Preclinical Pharmacology of Tiagabine: A Potent and Selective Anticonvulsant GABA Uptake Inhibitor

Summary: We review the neurochemical and behavioral profile of the selective γ-aminobutyric acid (GABA) up-take inhibitor, (R)-N-(4,4-di-(3-methylthien-2-yl)but-3-enyl) nipecotic acid hydrochloride [tiagabine (TGB), previously termed NNC 05-0328, NO 05-0328, and NO-328], which is currently in phase III clinical trials for epilepsy. TGB is a potent, and specific GABA uptake inhibitor. TGB lacks significant affinity for other neurotransmitter receptor binding sites and/or uptake sites. In electrophysiological experiments in hippocampal slices in culture, TGB prolonged the inhibitory postsynaptic potentials (IPSP) and inhibitory postsynaptic currents (IPSC) in the CA1 and CA3 produced by the addition of exogenous GABA. In vivo microdialysis shows that TGB also in-creases extracellular GABA overflow in a dose-dependent manner. Together these biochemical data suggest that the in vitro and in vivo mechanism of action of TGB is to inhibit GABA uptake specifically, resulting in an increase in GABAergic mediated inhibition in the brain. TGB is a potent anticonvulsant agent against methyl-6,7-dimethyox-4-ethyl-B-carboline-3-carboxylate (DMCM)-induced clonic convulsions (mice), subcutaneous pentylenetetrazol (PTZ)-induced tonic convulsions (mice and rats), sound-induced convulsions in DBA/2 mice and genetically epilepsy-prone rats (GEPR), and electrically induced convulsions in kindled rats. TGB is partially efficacious against subcutaneous PTZ-induced clonic convulsions, and photically induced myoclonus in Papio papio. TGB is weakly efficacious in the intravenous PTZ seizure threshold test and the maximal electroshock seizure (MES) test and produces only partial protection against bicuculline (BIC)-induced convulsions in rats. The overall biochemical and anticonvulsant profile of TGB suggests potential utility in the treatment of chronic seizure disorders such as generalized clonic-tonic epilepsy (GTCS), photomyoclonic seizures, myoclonic petit mal epilepsy, and complex partial epilepsy.     

Visual field constriction: accumulation of vigabatrin but not tiagabine in the retina

BACKGROUND: The antiepileptic drug (AED) vigabatrin (VGB) causes concentric visual field constriction. Anecdotal reports involving tiagabine (TGB) have implied that this may be a class effect of all AEDs with gamma-aminobutyric acid (GABA)-related actions. We investigated the pharmacokinetic and pharmacodynamic profiles of VGB and TGB in rat brain and eye. METHODS: Adult male rats (n = 8) were administered 0.9% saline (control), VGB (500 or 1,000 mg/kg), or TGB (5, 10, or 20 mg/kg). At 1 (TGB) and 4 hours (VGB) postdosing, the animals were killed, a blood sample was obtained, their brains were dissected into five anatomic regions, and the retina and vitreous humor were isolated from each eye. Samples were analyzed for GABA concentrations and the activity of the enzyme GABA-transaminase (GABA-T). Plasma and tissue drug concentrations were also determined. RESULTS: VGB treatment produced a decrease in the activity of GABA-T and a rise in GABA concentrations in all tissues investigated. This effect was most pronounced in the retina. VGB concentrations were as much as fivefold higher in the retina than in the brain. TGB was without effect on GABA concentrations and activity of GABA-T. TGB concentrations were notably lower in the retina than in the brain. CONCLUSIONS: Accumulation of VGB in the retina, with or without an increase in GABA, may be responsible for the visual field constriction reported clinically. In contrast, TGB had no effect on GABA concentrations and did not accumulate in the retina. These results suggest that TGB is unlikely to cause visual field defects in humans.     

A review of the antiepileptic drug tiagabine

Tiagabine (TGB), a recently approved antiepileptic drug (AED), has a specific mechanism of action that is unique among AEDs. A potent AED with linear, predictable pharmacokineties, it inhibits gamma-aminobutyric acid (GABA) reuptake into neurons and glia. Tiagabine does not have any clinically relevant effects on hepatic metabolism or on serum concentrations of other AEDs, nor does it interact with commonly used non-AEDs. The most common side effects of TGB in controlled studies are dizziness, asthenia, somnolence, accidental injury, infection, headache, nausea, and nervousness. These events are usually mild to moderate in severity and generally do not require medical intervention. At dosages of 30-56 mg daily, TGB is an effective add-on treatment for partial seizures. Although patients who have medically refractory epilepsy can be converted to TGB monotherapy, more controlled studies are necessary to confirm the efficacy of TGB as monotherapy and to determine the effective dosage range.     

Characteristics of patients initiated on the new antiepileptic drugs: a PADS study

Whereas randomized controlled trials remain a standard for evaluating and comparing efficacy and safety of the new antiepileptic drugs (AEDs), postmarketing drug research offers a useful means of comparing efficacy and safety of new AEDs. However, differences in baseline characteristics of patients in different drug groups create the potential for bias in drug comparison studies. In this study, baseline demographic characteristics of 1,386 patients initiating lamotrigine (LTG), tiagabine (TGB), or topiramate (TPM) were compared to identify patient characteristics that may influence AED use in epilepsy patients. Data were collected at 14 epilepsy centers and included medications, seizure types and syndromes, and prior adverse events. There were 402 patients in the LTG group, 725 TPM, and 259 TGB. The groups differed both in their number of concurrent AEDs (p<0.001) and in their number of prior AEDs (p<0.01). There was no difference in proportion with partial versus generalized epilepsy syndromes. The groups differed in the proportions of patients with complex partial seizures (p=0.049), primary generalized tonic-clonic seizures (p=0.01), and myoclonic seizures (p=0.03). Baseline behavioral adverse event rate was lowest in patients initiating TPM (p<0.01); LTG patients had the lowest rate of prior AED-related rash (p=0.02). There was no relationship between AED assignment and patient age, age of epilepsy onset, epilepsy duration, institutionalization status, gender, or psychiatric history. Numerous epidemiological differences were identified among patients placed on the new AEDs, including current and prior AED profiles, seizure types, and prior adverse event history. Accounting for these differences is of crucial importance because they may bias conclusions of nonrandomized post-marketing trials comparing the drugs.     

Tiagabine as add-on therapy may be more effective with valproic acid – open label, multicentre study of patients with focal epilepsy

The aim of the current study was to review the efficacy of tiagabine (TGB) as add-on therapy in patients with drug-resistant focal epilepsy under normal daily clinical practice, and try to identify those who had improvement. This was an open multicentre study conducted in Poland. A group of 330 patients were analysed. Patients received TGB up to 30-50 mg/day with adjustment within the therapeutic range and titration period. For statistical evaluation chi-square test and logistic analysis were used. At the 16-week follow-up visit, 71.4% patients were reported as responders, i.e. had a 50% or greater decrease in seizure frequency compared with baseline (P<0.001). One-third of patients were seizure-free at 16-week evaluation (P<0.001). The beneficial effect of TGB on seizure reduction was most marked in patients with partial seizures (P<0.001). Patients who used valproic acid (mean dose 1307 mg/day) had 61-85% higher chances for disappearance of seizures or reduction of their number by 50% or more. Patients who used carbamazepine (mean dose 800 mg/day) at a dose 1000 mg or higher mg/day had twice lower chance for reduction of seizures by 50% or more (OR=0.45; 95 CI 0.25-0.82). There was no statistical impact of sex, age and aetiology on probability of therapeutic effect.