Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0004134 (ataxia)
15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lamotrigine is an antiepileptic drug which is believed to suppress seizures by inhibiting the release of excitatory neurotransmitters. Efficacy has been demonstrated for lamotrigine as add-on therapy to existing regimens in patients with resistant partial seizures. Total seizure frequency was reduced by 17 to 59% compared with placebo, and 13 to 67% of patients experienced reductions of > or = 50% in seizure frequency. Secondarily generalised tonic-clonic seizures respond well to lamotrigine, and there is preliminary evidence of improvement in patients with primary generalised seizures, Lennox-Gastaut syndrome and in children with multiple seizure types. Seizure control has been maintained in patients who have continued to receive lamotrigine as monotherapy after discontinuation of other medications. Results of one trial suggest similar efficacy for lamotrigine monotherapy as for carbamazepine, but confirmation of its use in this setting awaits more extensive controlled comparisons with established agents. Adverse events associated with lamotrigine as add-on therapy are typical of antiepileptic drugs, namely dizziness, ataxia and other CNS-related symptoms. Rash, which has occurred in 10% of patients in placebo-controlled trials, may be severe and its appearance has led to discontinuation of therapy in 1% of patients. Lamotrigine appears well tolerated in the longer term, but this facet of its profile requires further monitoring. Influences of valproic acid and enzyme-inducing anti-epileptics on lamotrigine eliminate necessitate dosage modification of lamotrigine. Conversely, lamotrigine has little apparent influence on the pharmacokinetics of other agents, although it may increase plasma concentrations of the active metabolite of carbamazepine during concomitant administration. Thus, lamotrigine permits improved seizure control in some patients with refractory partial seizures, and may prove to be especially effective in secondarily generalised tonic-clonic seizures. As is usual at this stage in a drug's development, several aspects of the profile of lamotrigine are incompletely defined, notably its efficacy in other seizure types, in children, as monotherapy, and its longer term tolerability. Nonetheless, lamotrigine presently offers a worthwhile alternative for the physician confronted with the challenge of treating patients with intractable partial seizures with or without secondarily generalised seizures, and shows potential for broader applications in other areas of epilepsy management.
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PMID:Lamotrigine. A review of its pharmacological properties and clinical efficacy in epilepsy. 769 4

Lamotrigine is an antiepileptic agent which blocks voltage-dependent sodium channels, thereby preventing excitatory neurotransmitter release. Clinical evidence indicates that lamotrigine is effective against partial and secondarily generalised tonic-clonic seizures, as well as idiopathic (primary) generalised epilepsy. As monotherapy, lamotrigine 100 to 300 mg/day has similar medium term (30 to 48 weeks) efficacy to carbamazepine 300 to 1400 mg/day and phenytoin 300 mg/day against partial onset seizures and idiopathic generalised tonic-clonic seizures in adults with newly diagnosed epilepsy, and appears to be better tolerated than the older agents. As adjunctive therapy, lamotrigine (50 to 500 mg/day) has shown efficacy in short term ( < or = 6-months) placebo-controlled studies in adults with refractory partial epilepsy, reducing total seizure frequency (by < or = 60%) and producing improvement ( > or = 50% reduction in seizure frequency) in < or = 67% of patients. Both simple and complex partial seizures and secondarily generalised tonic-clonic seizures are reduced by lamotrigine, with generalised seizures (particularly absence seizures, atonic seizures and Lennox-Gastaut syndrome) tending to be more responsive than partial seizures. This reduction in seizure frequency is sustained on long term ( < or = 3 years) therapy and is reportedly accompanied by an improvement in psychological well-being. In children with refractory multiple seizure types, lamotrigine ( < or = 15 mg/kg/day; 400 mg/day) has proved effective as add-on therapy, with approximately equal to 40% of patients showing > or = 50% reductions in seizure frequency and approximately equal to 10 % achieving abolition of seizures after 3 months' treatment. Generalised seizures, including atypical and typical absence seizures, atonic and tonic seizures and Lennox-Gastaut syndrome are most responsive. The most common adverse events associated with lamotrigine are primarily neurological, gastrointestinal and dermatological. Maculopapular or erythematous skin rash, occasionally severe, occurs in approximately equal to 10% of patients and is the most common cause of treatment withdrawal. The risk of rash can, however, be minimised through adoption of a low, slow dosage titration schedule on initiating therapy. As monotherapy, lamotrigine produces less drowsiness than carbamazepine or phenytoin, and less asthenia and ataxia than phenytoin. Clinical experience would therefore suggest that lamotrigine is a particularly effective and generally well tolerated broad-spectrum agent for adjunctive treatment of both partial epilepsy and idiopathic generalised epilepsy in adults and children. Initial indications point to the drug filling an increasingly important future role in the monotherapy of newly diagnosed epilepsy.
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PMID:Lamotrigine. An update of its pharmacology and therapeutic use in epilepsy. 853 54

Lamotrigine (LTG) inhibits repetitive high frequency firing in depolarised neurones by selectively prolonging slow inactivation of the sodium channel, thereby suppressing the release of excitatory amino acids. It has been shown to be effective in 11 pivotal double-blind add-on trials in patients with refractory partial seizures with or without secondary generalisation. Subsequent anecdotal data support its efficacy for typical and atypical absences, myoclonic jerks, tonic or clonic seizures, Lennox-Gastaut syndrome and infantile spasms. Most recently LTG has been compared with carbamazepine and phenytoin in double-blind trials in patients with newly diagnosed partial and primary and secondary generalised tonic-clonic seizures. At the doses used, its efficacy was similar to the older agents for all seizure types, but LTG was better tolerated than both of the older agents. The commonest side-effects with LTG include headache, nausea, diplopia, dizziness, ataxia and tremor. Rash occurs in fewer than 5% patients. Its incidence can be reduced by starting treatment with a low dose, particularly in patients receiving concomitant sodium valproate which inhibits LTG metabolism. Enzyme inducers, such as carbamazepine, phenytoin and phenobarbital, accelerate its elimination, but LTG itself has no effect on hepatic metabolic processes. A pharmacodynamic interaction with carbamazepine necessitates a dosage reduction in some patients when LTG is introduced. LTG is a new antiepileptic agent with a long elimination half-life, a broad spectrum of activity, and a wide therapeutic ratio.
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PMID:Lamotrigine--an update. 895 Dec 13

The introduction on the French market of vigabatrin, gabapentin and lamotrigine has considerably diversified our conventional therapeutical schemes in epilepsies, as will be as amplified by the arrivals of topiramate, tiagabine and oxcarbazepine. Compared to the conventional drugs, these new products present more favorable pharmacokinetics, no or very weak interactions and a better tolerability, specially regarding the cognitive field. They should be used according to their spectrum of activity, function of their modes of action. In add-on trials on partial epilepsy patients all these new products have shown efficacy on partial and secondarily generalized seizures. Seizure frequency is reduced by at least 50 p. 100 in 30 to 50 p. 100 of the patients. A substantial number of patients can be rendered seizure-free with vigabatrin. Lamotrigine has a broader spectrum, as it is also efficacious on the different seizure types of generalized, symptomatic or idiopathic epilepsies. Main adverse events are non-specific central nervous system disturbances such as dizziness, drowsiness, ataxia, tremor or diplopia. More specifically, vigabatrin may induce weight gain and requires closer supervision in case of psychiatric history; lamotrigine which has also probable antidepressant properties, may induce skin rashs, rarely severe. Further data are needed for gabapentin which is now used at daily dosages which are two to three times those used in the initial studies. Gabamimetic agents may be worsening in some cases of generalized epilepsies, more specially on absence and myoclonic seizures. The most obvious benefits, some patients becoming seizure-free, are obtained in cases of intermediate severity, with a bitherapy including one of these new drugs. Developments in children are often delayed. Nevertheless the prognosis, including cognitive outcome, is considerably improved in infantile spasms with vigabatrin and in Lennox-Gastaut syndrome with lamotrigine and felbamate, the latter being highly toxic. For the moment in France, authorities have limited the use of all these new antiepileptic drugs to adjunctive therapy in epilepsies resisting to conventional drugs. But recent monotherapy data show similar efficacy with better tolerability. Once the pivotal, controlled studies have enabled to obtain regulatory approval, all these compounds must undergo a large-scale evaluation phase in order to better define dosages, long-term tolerability, indications and eventual contra-indications in the various epileptic syndromes, including children.
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PMID:[Therapeutic options provided by new antiepileptic drugs]. 929 53

The aim of the study was to evaluate the efficacy of lamotrigine (LTG, Lamictal) in patients with long-lasting epilepsy. The group of 11 patients, 4F, 7M aged 16-45 years, mean 31.3 years was included in the study. Complex partial seizures and complex partial with sec. generalization ones occurred in 5 patients, only simple and complex partial seizures in 4 and in 2 cases we observed primary generalized nonconvulsive seizures. The mean seizure frequency was 20/month before LTG treatment. The mean duration of epilepsy was 20 years. Monotherapy with carbamazepine was used in 2 patients, 9 took 2 antiepileptic drugs. The time of investigation and treatment was 4 months with 3 control visits. During LTG treatment the number of conventional antiepileptic drugs was reduced in 7 patients. The dose of the basic antiepileptic drug was not changed. We evaluated how LTG had influenced the frequency, severity and duration of seizures, patients' mental state and adverse events appearance. Good result of treatment--seizure frequency reduction at least 50%--was observed in 5 patients (45.5%), moderate--seizure frequency reduction below 50%--in 1 patient (9%), bad result--no change in seizure frequency or its increase--in 5 cases (45.5%). In 5 patients the drug influenced positively seizure severity and duration. Beneficial psychotropic effect of the drug was found in 2 patients with mental disturbances. Adverse effects occurred in 3 patients. They were vertigo and ataxia in 1 patient, drowsiness in 1 case and dyspeptic symptoms in 1 patient. Adverse events were mild and transient in 2 patients. In 1 patient with vertigo and ataxia they resulted in the drug being discontinued after 3 month treatment. On the whole lamotrigine shows a positive influence on the frequency, severity and duration of seizures in some patients with therapy resistant epilepsy. The drug is well tolerated and seems to have positive psychotropic effects.
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PMID:[The assessment of lamotrigine effectiveness in patients with drug-resistant epilepsy]. 976 May 48

Lamotrigine is a novel anticonvulsant, which has proven to be effective both as add-on and monotherapy. 13 studies have demonstrated efficacy in 1096 children with a variety of seizure types. Tolerability information in these studies was collected in a standard fashion, where investigators reported all adverse events regardless of the perceived relationship to the test therapies. Generally, lamotrigine treatment in these clinical trials was generally given at higher initial doses and faster dose escalations than are currently recommended. Most adverse events associated with lamotrigine were mild to moderate in severity and did not result in discontinuation of treatment. Results from placebo-controlled, add-on trials showed that 85% of lamotrigine recipients experienced an adverse event compared with 83% of placebo recipients. Lamotrigine was associated with an increased risk of adverse events in the nervous system (dizziness, tremor, ataxia, and diplopia), gastrointestinal tract (nausea), and urinary tract (infection). The incidence of most adverse events was lower among lamotrigine recipients in monotherapy trials than in add-on trials, suggesting that concurrent anticonvulsant treatment or drug interactions can be confounding risk factors above that of lamotrigine treatment alone. Skin rash associated with hospitalisation and the discontinuation of study drug was reported more frequently by lamotrigine recipients than by placebo recipients and more frequently by children than by adults. The simultaneous use of valproic acid (sodium valproate) was associated with an increased incidence of rash. Lamotrigine, an effective broad spectrum anticonvulsant, is well tolerated in children. The qualitative features of adverse events that occur with lamotrigine treatment are similar for children and adults. The incidence of rash may be reduced with proper initial dosing and dose escalation.
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PMID:The tolerability of lamotrigine in children. 1123 19

Lamotrigine is a broadly effective antiepileptic drug in mono- and add-on therapy for children and adolescents with focal and generalized epilepsies. Some epileptologists consider lamotrigine as the drug of primary choice in older school children and adolescents because of its good tolerability (no increase of body weight, no impairment of cognitive functions, due to new data probably no teratogenic properties). Lamotrigine can be used with good efficacy in numerable epilepsy diseases, such as tuberous sclerosis, juvenile neuronal lipofuscinosis and Rett syndrome. The first studies show that lamotrigine is also effective in children under 2 years of age. For therapy of difficult-to-treat epilepsies the combination of lamotrigine with valproate has proved as especially useful. This clinical observation is supported by new results of animal experiments. The dose-dependant and typical CNS side effects vertigo, ataxia, nausea, tremor and diplopia are found most frequently. The rate of allergic skin rashes which was very high before 1998 has decreased markedly by new dosage guidelines and is now as low as in older antiepileptic drugs. Lamotrigine does not impair cognitive functions, especially not memory and language. It has mood-stabilizing features and may improve quality of life. In animal experiments lamotrigine shows antiepileptogenic and neuroprotective effects.
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PMID:[Optimizing epilepsy therapy in children and adolescents with lamotrigine]. 1603 48

There is growing evidence from both uncontrolled and controlled clinical studies that lamotrigine (LTG) significantly augments clozapine (CLZ) in the treatment of refractory schizophrenia (RS) [Dursun, S.M., McIntosh, D., Milliken, H., 1999. Clozapine plus lamotrigine in treatment-resistant schizophrenia. Arch. Gen. Psychiatry 56, 950; Dursun, S.M., Deakin, J.F.W., 2001. Augmenting antipsychotic treatment with lamotrigine or topiramate in patients with treatment-resistant schizophrenia: a naturalistic case-series outcome study. J. Psychopharmacol. 15, 297-301; Tiihonen, J., Hallikainen, T., Ryynanen, O.P., Repo-Tiihonen, E., Kotilinen, I., Eronen, M., Toivonen, P., Wahlbeck, K., Putkonen, A., 2003. Lamotrigine in treatment-resistant schizophrenia; a randomized placebo-controlled cross over trial. Biol. Psychiatry 54, 1241-1248; Kremer, I., Vass, A., Gorelik, I., Bar, G., Blanaru, M., Javitt, D.C., Heresco-Levy, U., 2004. Placebo-controlled trial of lamotrigine added to conventional and atypical antipsychotics in schizophrenia. Biol. Psychiatry. 56, 441-446]. However, the precise mechanism of action of this synergistic augmentation between clozapine and lamotrigine remains unclear. Therefore, the goal of this research is to explore the mechanism of action of this synergistic interaction between CLZ and LTG, utilizing a pharmacological animal model of schizophrenia by using phencyclidine (PCP). The effects of CLZ plus LTG were assessed by measuring PCP-induced hyper-locomotion and stereotyped behaviours in rats. Adult male rats (250-300 g) were pre-treated via intra-peritoneal (i.p.) injection with vehicle or drug 30 min before a PCP (5 mg/kg) or saline challenge. The behaviours were recorded and analysed for a 90-min period using the Etho Vision-computer based system. PCP produced hyper-locomotion, which was maximal at 30 min. LTG (10 mg/kg) significantly increased hyperlocomotion induced with PCP. However, a combination treatment of CLZ (5 mg/kg) plus LTG (10 mg/kg) significantly blocked the potentiation of PCP-induced hyper-locomotion observed with LTG (10 mg/kg) alone. Furthermore, the PCP-induced locomotion in the combination CLZ plus LTG-treated rats was significantly decreased when compared to vehicle. Therefore, LTG at doses that do not induce ataxia enhanced PCP-induced hyper-locomotion in rats, whereas the combination of LTG and CLZ significantly decreased PCP-induced hyper-locomotion consistent with clinical data.
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PMID:Effects of clozapine plus lamotrigine on phencyclidine-induced hyperactivity. 1630 24

Lamotrigine and felbamate are 2 newer anticonvulsant medications used to control refractory partial and generalized seizures. Although several cases of lamotrigine toxicity secondary to acute intentional or unintentional overdose have been described, there is little published information related to potential side-effects associated with the therapeutic use of these agents. Described is a case of a 22-year-old woman who presented to the emergency department after experiencing 2 seizure-like episodes. Findings on evaluation included nystagmus, ataxia, widening of the QRS complex and right-axis deviation on ECG. The patient reported only therapeutic use of her medications. The lamotrigine level was 14.8 mg/L. The mechanism of action for lamotrigine is blockade of the sodium channels; therefore, the patient was treated with intravenous sodium bicarbonate with resultant QRS narrowing following administration.
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PMID:Lamotrigine as a possible cause of QRS prolongation in a patient with known seizure disorder. 1733 51

Vestibular migraine is considered to be the second most common cause of vertigo and the most common cause of spontaneous episodic vertigo. The duration of attacks varies from seconds to days, usually lasting minutes to hours, and they mostly occur independently of headaches. Long-lasting individual attacks are treated with generic antivertiginous and antiemetic drugs. Specific antimigraine drugs are unlikely to be very effective for rescue. The mainstay of the management of vestibular migraine is prophylactic medication. To date, there are no controlled trials available; the body of knowledge builds on case series and retrospective or observational studies. Most drugs are also used for the prevention of migraine headaches. The choice of medication should be guided by its side effect profile and the comorbidities of patients. Betablockers such as propanolol or metoprolol are preferred in patients with hypertension but in the absence of asthma. Anticonvulsants include topiramate when patients are obese, valproic acid and lamotrigine. Lamotrigine is preferred if vertigo is more frequent than headaches. Calcium antagonists include verapamil and flunarizine. If patients have anxiety, tricyclic antidepressants such as amitryptiline or nortryptiline or SSRIs and benzodiazepines such as clonazepam are recommended. Acetazolamide is effective in rare genetic disorders related to migraine-like episodic ataxia; however, its place in vestibular migraine is still to be established. Nonpharmacological measures such as diet, sleep, hygiene and avoidance of triggers are recommended as they are for migraine. Vestibular rehabilitation might be useful when there are complications such as loss of confidence in balance or visual dependence.
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PMID:Management of vestibular migraine. 2169 18


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