UMLS:C0238111 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0238111 (Lennox-Gastaut syndrome)
861 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Levetiracetam (LEV) has proven effective for partial seizures, suggesting the need to trial it in generalised epilepsy. Ten patients with generalised epilepsy were given compassionate use of LEV as a pilot study, attending 7 visits with seizure count (using diary) and compliance checked (pill count) with option for long term use. Seizure frequency was compared to baseline mean of the last 2 months and mean of follow-up. Patients were commenced on 500 mg I b.d, and titrated to a maximum of 3 g/day. There were 10 patients (7 females), aged 28-48, of whom 6 had primary generalised epilepsy (PGE) and 4 Lennox-Gastaut syndrome (LGS). At 7 month evaluation: 1 was seizure-free, 1 was 70% reduced, 3 were > or = 50% reduced, 2 were 30-35% reduced; 1 had no change; 1 was 10% increased and 1 was excluded because confounding pseudo seizures. Follow-up was 8-17 months (mean 13.8). The seizure-free patient became pregnant and had 2 seizures, but has been seizure-free for 2 months, at time of submission. A 16 months are three months seizure-free. One was 50% reduced at months 6 and 7, was 2 months seizure-free but then reverted to 50% per baseline. With respect to LGS, 1 withdrew due to aggression, 2 had 40% and 35% reduction at 13 and 15 months respectively and 1 had 25% increase (10% at 7 months). All patients were compliant. These data suggest that LEV may be effective for generalised epilepsy with a need for a larger clinical trial.
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PMID:A pilot study of compassionate use of Levetiracetam in patients with generalised epilepsy. 1533 34

In this review study, second-generation antiepileptic drugs (AEDs) (levetiracetam, gabapentin, topiramate, lamotrigine, zonisamide, oxcarbazepine, vigabatrin, pregabalin, rufinamide, tiagabine, lacosamide, and felbamate) and injectable AEDs (levetiracetam, lacosamide, fosphenytoin, lorazepam, and valproic acid) available in North America were compared with those available in Japan. Three second-generation AEDs (gabapentin, topiramate, and lamotrigine) were recently approved in Japan. Levetiracetam is currently under review for approval by the Japanese regulatory agency. An ideal AED would have a broad-spectrum activity to control multiple types of seizures, favorable safety profile, limited potential for drug-drug interaction, many bioequivalent formulations, long half life to allow infrequent administration, and antiepileptogenic effects that may provide a fundamental cure of epileptic patients by suppressing the development of epileptogenic network and neutralizing previously established epileptogenic foci in the brain. The second-generation AEDs have been developed to possess some of these ideal properties. All the second-generation AEDs are efficacious for the treatment of patients with partial seizures. In addition, levetiracetam, topiramate, lamotrigine, and zonisamide are effective for the treatment of patients with generalized tonic-clonic seizures, absences, myoclonic seizures, Lennox-Gastaut syndrome, and West syndrome; however, lamotrigine is not effective for the treatment of patients with myoclonic seizures. Rufinamide and felbamate are useful for the treatment of patients with Lennox-Gastaut syndrome; however owing to its serious adverse effects, including aplastic anemia and hepatic failure, felbamate is used as the last resort for the treatment of patients with intractable seizures. Vigabatrin is particularly effective for the treatment of patients with West syndrome; however, the patients need to be regularly monitored for the development of peripheral visual field defect. Gabapentin, oxcarbazepine, vigabatrin, and tiagabine are ineffective for the treatment of patients with absences and/or myoclonic seizures and may aggravate these conditions. Treatment with levetiracetam or topiramate (off-label use) is the new option for patients with refractory status epilepticus, which is characterized by downregulation of the inhibitory gamma-aminobutyric acid system, because these drugs act via different mechanisms and are rapidly titratable, especially intravenous levetiracetam. The pharmacokinetic profiles of levetiracetam, gabapentin, and pregabalin are favorable: these drugs exhibit minimal protein binding, do not undergo hepatic metabolism, are not involved in any clinically relevant drug interactions, and rarely lead to the development of serious adverse effects. In general, levetiracetam is probably the closest to being the ideal AED because of its broad-spectrum favorable pharmacokinetic profile and safety profile as well as because of the availability of its parenteral formulation. Among the injectable AEDs, fosphenytoin is a water-soluble prodrug and is used to treat patients with status epilepticus. Systemic and local side effects of this drug are fewer than those of phenytoin. Lorazepam, a benzodiazepine is used as the first-line AED for the treatment of patients with status epilepticus. The effects of this drug are more prolonged than those of diazepam. Intravenous administration of valproic acid is regarded as a new treatment option for patients with status epilepticus, because sedative and negative effects on the cardiorespiratory system of this drug are lesser than those of the traditional injectable AEDs. These novel medications will aid the improvement of the quality of life of epileptic patients through improved seizure control and reduced adverse effects.
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PMID:[Antiepileptic drugs in North America]. 2045 99

The Lennox-Gastaut Syndrome (LGS) is a childhood epileptic encephalopathy. Incidence: 1/1.000.000/year, prevalence: 15/100.000. LGS covers 5-10% of epileptic patients and 1-2% of childhood epilepsies. Also referred to as cryptogenic or symptomatic generalized epilepsy. LGS is characterized by: multiple seizures (atypical absences, axial tonic seizures and sudden atonic or myoclonic falls), diffuse slow cryptic EEG waves when awake (<3 Hz), fast rhythmic peaks (10 Hz) during sleep, mental retardation and personality disorders. The LGS is not responding to treatment. Some new drugs have proven to be effective in controlling the disease (Felbamate, Lamotrigine, Topiramate, Levetiracetam). The mortality rate is about 5%; only rarely death is due to epilepsy, which is usually caused by stroke or epileptic episodes. Here we describe the case of a 45-year-old female patient with LGS, severe hypokalemia, mental retardation and focal seizures. Normal renal function: creatinine 0.9 mg/dl, urea 26 mg/dl, creatinine clearance 96 ml/min, serum potassium levels to the minimum: 3.5 mEq/L. This level of potassium, however, had been achieved with the assumption of 8 oral tablets/day of potassium chloride. Osmotic diuresis, use of diuretics, Bartter, Gitelman (normal urinary calcium and magnesium) and pseudo-Bartter syndromes were all excluded whereas aldosteronism was found. Our findings lead to hypokalemia related to assumption of topiramate and hyperaldosteronism. Reduction in drug intake was not effective due to the increased seizures, so the drug was maintained, along with potassium supplementation. In conclusion, the patient has been diagnosed with hypokalemia and iatrogenic hyperaldosteronism, rare in our outpatient practice.
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PMID:[Hypokalemia in Lennox-Gastaut syndrome]. 2609 33