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)

Oxcarbazepine (OXC) is a new antiepileptic drug derived from carbamazepine (CBZ). OXC has shown efficacy in partial and secondarily generalized seizures in children and adults. It is not indicated in myoclonic epilepsies or absences. OXC has a high bioavailability and is 40% protein-bound. Its metabolism is different from that of CBZ. There is no epoxy derivative, but a monohidroxy derivative (MHD) that is responsible from its clinical efficacy. In several clinical trials OXC has demonstrated efficacy in partial seizures both as add-on and in monotherapy. In these trials, OXC has been found to be as efficacious as CBZ, valproic acid or phenytoin, but with fewer adverse events and better tolerability. The most frequent adverse events of OXC are sedation, somnolence, headache, dizziness, and nausea. Most frequently, adverse events are transient and are minimized with dose reduction. OXC has not been associated with severe hematological, renal, or hepatic adverse events. Aymptomatic hyponatremia has been observed in patients undergoing treatment with OXC, most frequently in patients with diseases or medications predisposing to hyponatremia.
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PMID:[Oxcarbazepine]. 1173 14

Oxcarbazepine is one of the recently introduced anti-epileptic drugs (AEDs) in the US. This drug has demonstrated efficacy as adjunctive therapy in adults and children, and as monotherapy in adults for the treatment of seizures of partial onset. There is also convincing evidence of its efficacy in patients with newly diagnosed and refractory trigeminal neuralgia. In addition, the initial efficacy results of oxcarbazepine in other neuropathic pain conditions and in bipolar disorders are encouraging. In this review, recommendations on the optimal clinical use of oxcarbazepine are given based on its pharmacokinetic profile, efficacy and tolerability in those various conditions.
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PMID:Oxcarbazepine. 1177 34

Oxcarbazepine (OXC) has been licensed for monotherapy and add-on therapy of focal epilepsy in Germany since February 2000. It is chemically related to carbamazepine, and its anticonvulsant effect has been proven in placebo-controlled double blind studies to be comparable to standard antiepileptic drugs such as carbamazepine, valproate, and phenytoin. Patients whose epilepsy is not well controlled with carbamazepine or in whom side effects occur with carbamazepine can be switched to oxcarbazepine overnight, i.e., without a titration phase. In a retrospective analysis on 51 patients with focal epilepsy, the exchange of carbamazepine with oxcarbazepine was investigated. An exchange in a dosage ratio of 1:1-1:1.5 led to a reduction in seizure frequency by more than 50% in 51% of patients. Oxcarbazepine was better tolerated than carbamazepine. During exchange, CNS toxicity occurred more often with high initial dosages and with an exchange ratio of 1:1.5. In patients pretreated with high dosages of carbamazepine, an exchange ratio of 1:1 and rapid subsequent titration to the maximally tolerated dosage may thus be preferable. In 35% (18/51) of patients treated with oxcarbazepine, hyponatremia developed, which was symptomatic in three patients. Sodium levels should be controlled after exchange and if side effects occur. In conclusion, the overnight switch to oxcarbazepine is an attractive option in patients insufficiently controlled by carbamazepine.
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PMID:[Ad hoc change from carbamazepine to oxcarbazepine--effectiveness and tolerance. A retrospective analysis]. 1178 35

(1) The reference treatment for partial epilepsy in adults and children is carbamazepine. (2) Oxcarbazepine is available in the European Union for the treatment of partial epilepsy in adults and children aged over 6 years, alone or in combination with other antiepileptic drugs. (3) The clinical file on oxcarbazepine monotherapy of recent-onset generalised or partial epilepsy mainly contains data from one trial versus carbamazepine, two trials versus phenytoin, and one trial versus valproate sodium. In these trials, 52-60% of patients had no seizures on oxcarbazepine, a proportion not significantly different from that obtained with the comparators. Oxcarbazepine may, in fact, be slightly less effective than carbamazepine. (4) For refractory partial epilepsy (especially forms refractory to carbamazepine), oxcarbazepine is more effective than a placebo, when combined with the inadequately effective treatment, as shown in two trials. Two dose-finding studies show that 2 400 mg/day oxcarbazepine is more effective than 300 mg/day. (5) In trials comparing single-drug treatments there were fewer withdrawals for adverse events among patients on oxcarbazepine than among those on carbamazepine or phenytoin. Compared with carbamazepine, the risk of cutaneous hypersensitivity reactions seems to be lower with oxcarbazepine, while the risk of hyponatraemia is higher. This risk of hyponatraemia necessitates laboratory monitoring. (6) The risk of clinically significant interactions appears to be lower on oxcarbazepine than on carbamazepine, and is limited mainly to combined contraceptives (contraceptive inefficacy) and phenytoin. (7) In practice, carbamazepine remains the reference treatment for partial epilepsy, but oxcarbazepine is one of several second-line options, either alone or in combination with other antiepileptics.
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PMID:Oxcarbazepine: new preparation. An alternative to carbamazepine in partial epilepsy. 1182 39

Oxcarbazepine, a keto-analogue of carbamazepine, was recently approved in the United States for the treatment of seizures of partial onset. Some patients treated with oxcarbazepine showed the development of hyponatremia, which in most instances was asymptomatic. Understanding the mechanisms by which oxcarbazepine can lead to a reduction of serum sodium levels could have therapeutic implications for the few patients in whom symptomatic hyponatremia develops. In this study, we evaluated sodium and water handling in patients with epilepsy and in healthy subjects titrated over 3 weeks to a maximum daily oxcarbazepine dose of 2,400mg. All subjects were evaluated in a hospital setting after an overnight fast and after an acute water-load test performed before oxcarbazepine exposure and after maintenance on the medication for 3 weeks. Before oxcarbazepine exposure, the percentage of water load excreted was normal as both groups excreted more than 80% of the administered water load. After the intake of oxcarbazepine, the water load resulted in a reduction of the serum sodium and free water clearance without a concomitant increase in the arginine vasopressin serum levels. Most subjects in both groups failed to excrete 80% or more of the water load, suggesting that the effect of oxcarbazepine is physiological. We found that, after the water load, serum sodium and free water clearance were diminished in both groups without a concomitant increase in the arginine vasopressin serum levels. These findings indicate that oxcarbazepine-induced hyponatremia is not attributable to the syndrome of inappropriate secretion of antidiuretic hormone. Possible mechanisms include a direct effect of oxcarbazepine on the renal collecting tubules or an enhancement of their responsiveness to circulating antidiuretic hormone.
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PMID:Effects of oxcarbazepine on sodium concentration and water handling. 1211 8

Epilepsy is a common comorbidity among developmentally disabled (DD) patients, and special considerations apply to its treatment. In particular, clinicians should try to avoid antiepileptic drugs (AEDs) with sedating properties or adverse cognitive effects that might further diminish quality of life for DD patients. Behavioral changes due to medication and significant pharmacokinetic interactions with other medications are also concerns. The newer AEDs, approved in the 1990s, offer new options for the treatment of individuals with developmental disability and epilepsy. Gabapentin does not interact with the hepatic metabolism of other AEDs or psychotropic agents, results in a statistically significant reduction in seizure frequency in mentally retarded children, and is generally well tolerated. Felbamate is an effective broad-spectrum AED, but has serious toxicity issues limiting its use. Lamotrigine has been extensively studied in the DD population, achieving seizure reduction rates of up to 50% in some trials. Although it is usually well tolerated in this population, its pharmacokinetic profile is influenced by concomitant medications. Levetiracetam has been found to be effective against kindled seizures and has been approved as adjunctive therapy for partial epilepsies. It does not cause any pharmacokinetic interactions, but may have behavioral side effects. Oxcarbazepine is a homologue of carbamazepine that has fewer drug interactions. It is approved for mono- or adjunctive therapy in patients with partial seizures, and its use in DD individuals appears to be worthwhile. Tiagabine is extensively bound to plasma proteins and is therefore subject to protein-binding displacement interactions by other highly protein-bound drugs, such as sodium valproate. While there are trial data showing its efficacy as adjunctive therapy in partial epilepsy in adults and children, there is a paucity of data specific to the DD population. Common side effects include sedation. Topiramate is a broad-spectrum AED approved as adjunctive therapy for partial and primary generalized tonic-clonic seizures. It appears to be particularly effective in patients with Lennox-Gastaut syndrome and those with cognitive disabilities. It appears to be better tolerated in the DD population than in the general population. Zonisamide has been effective in the DD population, yielding a seizure reduction of 50% in 41% of children in 1 trial. It has been associated with renal stone formation, sedation, and cognitive effects, however. The new AEDs have a role in treating seizures in the DD. Side effects that limit their use include anorexia, behavioral changes, and sedation. Seizure exacerbation can occur with the new AEDs and success is defined empirically and by improvements in quality of life.
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PMID:Antiepileptic drug treatment in the developmentally disabled: treatment considerations with the newer antiepileptic drugs. 1260 9

In this study, oxcarbazepine was began as monotherapy to evaluate the efficacy and safety of the drug. Forty-two patients (19 females, 23 males) with partial or generalized epilepsy more than 4 years of age were included (mean age, 11.9 +/- 3.4 years). The mean age at epilepsy onset 8.9 +/- 4 years. Complete blood count, liver function tests, electrolytes, lipid levels, electrocardiography, electroencephalography, and magnetic resonance imaging were performed in all patients. Oxcarbazepine dose was begun at 10 mg/kg/day twice daily and increased to 30 mg/kg/day at the end of the second week. Patients with inadequate seizure control even with the dose of 45 mg/kg/day or intolerable side effects were excluded. Intolerable headache and leukopenia led to discontinuation of the drug in two patients. At the sixth month, 35 of the patients (87.5%) were seizure free (91.7% of the generalized epilepsy patients and 81.2% of the partial epilepsy patients). The most frequent tolerable side effect was drowsiness in 12 patients. As a result, we found oxcarbazepine safe and effective in children with either generalized or partial epilepsy.
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PMID:Oxcarbazepine in the treatment of childhood epilepsy. 1265 18

Oxcarbazepine is a second-generation antiepileptic drug (AED) with proven efficacy in managing partial epileptic seizures, with or without secondary generalization, in adults and children. The overlap between the underlying pathophysiologic mechanisms of some epilepsy models and neuropathic pain models supports the rationale for using certain AEDs in the treatment of neuropathic pain. Several AEDs have reportedly produced analgesia in a range of neuropathic pains, including painful diabetic neuropathy (PDN) and post-herpetic neuralgia. Increasing evidence suggests that oxcarbazepine can provide significant analgesia in several neuropathic pain conditions, including trigeminal neuralgia and PDN, and is also may be effective in treating neuropathic pain refractory to other AEDs, such as carbamazepine and gabapentin. The analgesic effects of oxcarbazepine, and its generally improved safety and tolerability profile compared with other standard AEDs, suggests that oxcarbazepine will be an important addition to the neuropathic pain armamentarium. The rationale and evidence to support the efficacy of oxcarbazepine are presented here.
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PMID:Rationale and evidence for the use of oxcarbazepine in neuropathic pain. 1269 90

Oxcarbazepine is a molecule chemically related to carbamazepine that shares most of the pharmacological and therapeutic effects of carbamazepine while displaying a more favorable profile regarding tolerability and drug-drug interactions. In contrast to carbamazepine, oxcarbazepine is metabolized through cytochrome P450-independent reductases, and is thus devoid of inductive effects on hepatic oxidative metabolism. Oxcarbazepine has been shown to be useful both as monotherapy and adjunctive therapy in patients with partial seizures with or without secondary generalization. The drug has been documented as safe and effective in adults as well as children aged 4-16 years. Additional data suggests that oxcarbazepine might improve cognition and psychomotor performance and might increase alertness, in contrast to the cognition/psychomotor impairment observed with some other antiepileptic drugs. Both the pharmacokinetic advantages over other anticonvulsant drugs and the lack of pharmacological interactions with oxcarbazepine may point to this drug as a first-line treatment for the management of partial and tonic-clonic epilepsy.(c) 2001 Prous Science. All rights reserved.
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PMID:Oxcarbapezine: anticonvulsant profile and safety. 1276 21

Oxcarbazepine (Trileptal, Timox) is structurally related to carbamazepine and has anticonvulsant activity. Studies suggest that the anticonvulsant activity of oxcarbazepine is mediated via the blocking of neuronal ion channels. In patients aged <18 years, the efficacy of oxcarbazepine monotherapy was similar to that of phenytoin in children with partial onset or generalized tonic-clonic seizures in a 48-week trial. Additional supporting findings demonstrated that 43-71% of patients with partial onset, generalized or undetermined epilepsy were seizure free after oxcarbazepine monotherapy (mean dosage 27.7-50 mg/kg/day; duration 1-5 years). In contrast, one small nonblind trial showed more patients treated with oxcarbazepine monotherapy than with carbamazepine monotherapy had recurrent seizures during 16 months of therapy (although the conclusions that can be drawn from this trial are limited). As adjunctive therapy, oxcarbazepine was significantly better than placebo at reducing seizure frequency in children and adolescents with refractory partial onset seizures with or without secondary generalization: the median percentage change in partial onset seizure frequency was 35% vs 9%, respectively, during 16 weeks of therapy. In noncomparative trials of adjunctive oxcarbazepine (mean dosage of 34.5-56.7 mg/kg/day), 7-11% of patients with partial onset or generalized seizures were seizure free during treatment, and 20-54% had seizure reductions of > or=50%. Oxcarbazepine was generally well tolerated during monotherapy and adjunctive therapy; 2.5% and 10% of patients withdrew from well controlled trials of oxcarbazepine monotherapy and adjunctive therapy. Oxcarbazepine monotherapy was better tolerated than phenytoin and events observed in oxcarbazepine-treated patients were transient. Oxcarbazepine metabolism is largely unaffected by induction of the cytochrome (CYP) P450 system. However, oxcarbazepine can inhibit CYP2C19 and induce CYP3A4 and CYP3A5, thereby interfering with the metabolism of other drugs (e.g. phenytoin). In addition, oxcarbazepine decreases plasma levels of oral contraceptives and alternative contraceptive methods should be used. In conclusion, oxcarbazepine (as both monotherapy and adjunctive therapy) has shown efficacy in the treatment of partial onset seizures in children with epilepsy. Nevertheless, the generally favorable tolerability profile and relatively low potential for drug interactions of oxcarbazepine make it a valuable option in the treatment of childhood epilepsy.
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PMID:Oxcarbazepine: a review of its use in children with epilepsy. 1289 38


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