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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Topiramate is a new antiepileptic drug which acts in the sodium channels, GABA and glutamatergic receptors. It is an efficient treatment in epilepsy and has been approved as co-therapy for partial seizures. Topiramate has a safe profile of side effects, however, as any other antiepileptic drug, could produce psychiatric side effects. We present the case of a woman who develops a schizophreniform disorder after topiramate treatment. Before this one, she also had a very similar disorder when she was treated with vigabatrin. The gabaergic action of topiramate is proposed as the principal reason for the psychotic crisis, in relation to an inhibition in the substantia nigra which could produce an overactivity in ascending dopaminergic systems.
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PMID:[Psychosis with topiramate]. 1100 Jul 3

Topiramate (TPM) is a novel neurotherapeutic agent currently indicated for the treatment of epilepsy and undergoing development for other central nervous system indications including neuropathic pain, bipolar disorder, and migraine prophylaxis. TPM is synthesized from D-fructose and contains a sulfamate moiety that is essential for its pharmacologic activity. TPM has been observed to significantly reduce body weight in patients treated for seizure, which has prompted the realization of preclinical studies to characterize the effects of TPM in the regulation of energy balance. Studies carried out in various strains of rats have provided good evidence for the ability of TPM to blunt energy deposition. Body composition analyses from rat trials have demonstrated that TPM inhibits fat deposition while reducing the activity of lipoprotein lipase (LPL) in various white adipose tissue depots. High doses of TPM (likely above the therapeutic dose range) have also been observed to reduce protein gain without catabolic effects. Although TPM cannot be described as a potent anorectic agent, it seems to have the ability to reduce food intake; significant reductions in food intake have been observed in female obese (fa/fa) Zucker rats and in female Wistar rats. TPM can also reduce energy deposition in the absence of alterations in food intake. This effect has been clearly emphasized in female lean (Fa/?) Zucker rats. In female Sprague-Dawley rats, TPM also increased energy expenditure and it has been observed to increase LPL activity in brown adipose tissue, which could indicate that TPM has the ability to enhance regulatory thermogenesis. In addition, TPM stimulates LPL activity in skeletal muscles, further emphasizing its potential to promote substrate oxidation. The mechanisms whereby TPM affects the regulation of energy balance have yet to be understood. TPM represents an antiepileptic drug (AED) with complex biochemical/pharmacologic actions. Its negative effects on energy deposition cannot be readily predicted from these actions, as AEDs are generally expected to stimulate body weight gain. Recent data, obtained from investigations aimed at assessing the effects of TPM on neuropeptidergic systems involved in the regulation of energy balance, have failed to demonstrate any significant effects of TPM on the neuropeptide Y and proopiomelanocortin systems. In conclusion, it is clear that TPM can reduce fat deposition by either reducing food intake or stimulating energy expenditure. The mechanisms whereby an AED such as TPM controls food intake and energy expenditure remains to be delineated. Copyright1999 ASCRS and ESCRS
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PMID:Influence of topiramate in the regulation of energy balance. 1105 2

The aim of this study was to assess the effectiveness of topiramate (TPM) as an add-on regimen in reducing seizure rate in a population sample of patients diagnosed with severe myoclonic epilepsy in infancy (SME). Eighteen patients were evaluated. The mean observation time was 10.5 months (range, 6-18 months). Seizure frequency and type were recorded. Topiramate was administered as an add-on regimen at a starting dose of 1 mg kg(-1)and titrated to a maximum of 6-8 mg per kg per day. Different escalation rates were used, mainly weekly or fortnightly increments of dose. Three patients (16.6%) became seizure free, and 10 (55.6%) had a >50% reduction in seizure frequency: six of them (22.2%) achieved a reduction greater than 75%. Side-effects were observed in nine patients, eight with a weekly titration schedule and one with a fortnightly schedule. TPM is effective as adjunctive therapy for SME. Side-effects were mild and transient, generally related to rapid dosage titration.
Seizure 2000 Dec
PMID:Topiramate in the treatment of severe myoclonic epilepsy in infancy. 1116 58

Epilepsy is common in the elderly. The incidence of epilepsy is age-dependent, with a peak during the first year of life and higher incidence in those older than 75 years. Cerebrovascular disease is a common cause of epilepsy in the elderly. Drug treatment of the elderly is a challenge because of pharmacokinetic changes with aging, including impaired drug protein binding or displacement of drug from protein binding sites, potentially causing drug toxicity as a result of increased free drug concentrations. With aging, hepatic mass and blood flow decline along with renal function. Established anticonvulsant drugs have adverse effects and drug interactions that can make treating the elderly difficult. Newly available anticonvulsants cause fewer drug-drug interactions and less toxicity. Gabapentin is not metabolised, is not bound to protein, and has a favourable adverse effect profile and thus may be useful in the treatment of elderly patients. Lamotrigine reduced seizures between 20 and 30% in trials. Dose response was between 300mg per day and 500mg per day. This drug was well tolerated in open-label trials. Rash occurred in younger patients. Oxcarbazepine is rapidly absorbed and is converted to a monohydroxy derivative. Use with hepatic enzyme-inducing drugs necessitates an increase in dose. This drug may be substituted for carbamazepine. Hyponatraemia has been reported and monitoring is suggested. Topiramate blocks voltage-dependent sustained repetitive firing and has an effect on the gamma-aminobutyric acid (GABA) receptors. It affects glutamate responses and inhibits carbonic anhydrase. Topiramate has a dose response pattern up to 400mg per day. Cognitive effects limits its use in some patients. Nephrolithiasis has occurred with this drug. Tiagabine blocks GABA transporter proteins. Clearance is rapid and metabolism complete. Hepatic dysfunction prolongs clearance. The use of tiagabine has not been reported in the elderly. Zonisamide is rapidly absorbed and protein binding is 50%. Plasma half-life is 55 hours but is reduced to about 30 hours by hepatic enzyme-inducing drugs. Responder rate is 45%. Adverse effects include drowsiness, altered thinking and nephrolithiasis. Treatment of the elderly requires obligatory polypharmacy with potential drug interactions. Changes in body physiology alter absorption, binding, metabolism and elimination of drugs. Concomitant illness and sensitivity to drug effects narrow the therapeutic range and complicate pharmacokinetics in elderly patients. Newer anticonvulsant drugs have advantages that may outweigh risks and have therapeutic profiles that may aid in the treatment of this special population of patients.
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PMID:Choice and use of newer anticonvulsant drugs in older patients. 1120 Mar 5

Topiramate is a sulfamate derivative of the naturally occurring monosaccharide D-fructose. It was initially approved in the United States as adjunctive therapy for partial seizures in 1997. However, there is increasing evidence that it is effective in the treatment of generalized seizures and epilepsy syndromes. Initially, open-label studies using topiramate as add-on therapy in children with refractory generalized seizure types were performed. These showed improvement in patients with the following generalized seizure types: typical and atypical absence, atonic, myoclonic, generalized tonic-clonic, and juvenile myoclonic epilepsy. Double-blind, placebo-controlled multicentered studies in patients with refractory primary generalized tonic-clonic seizures and epilepsy syndromes were performed. The median reduction in seizure frequency for primary generalized tonic-clonic seizures was 56.7% for topiramate and 9% for placebo. Additionally, 13.6% of topiramate-treated patients were primary generalized tonic-clonic seizure free for the study period. In the topiramate-treated juvenile myoclonic epilepsy patients, primary generalized tonic-clonic seizures were reduced > 50% in 73% of patients. Open-label extension showed that primary generalized tonic-clonic seizures were reduced >50% in 63% of topiramate-treated patients for > or = 6 months, and 16% were primary generalized tonic-clonic seizure free > or = 6 months. Accumulating evidence suggests that topiramate has a broad spectrum of antiepileptic effect. Moreover, life-threatening organ toxicity has not been attributed to topiramate. Topiramate is an effective treatment for refractory generalized seizure types and epilepsy syndromes encountered in children.
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PMID:Use of topiramate in childhood generalized seizure disorders. 1121 56

The advent of numerous new treatment options in epilepsy therapy over the last decade is enabling a more flexible and individualized approach to patients with seizures. For some patients, these products offer added efficacy, reduction of troublesome side effects associated with standard anticonvulsants, and control over acute seizure exacerbations. This review profiles new formulations of anti-epileptic drugs. Tegretol-XR (TXR) and Carbatrol (CBTL), two extended-release preparations of carbamazepine (CBZ), which allow twice daily administration, minimising drug toxicity and improving efficacy. Topiramate sprinkles and lamotrigine chewable dispersible tablets allow easier administration in children. The rectal gel preparation of diazepam (Diastat) is useful for parents of patients with acute seizure exacerbations. Intravenous valproate (Depacon) and fosphenytoin (Cerebyx) provide parenteral treatment of acute seizures, without sedation or significant peripheral venous side effects. All of these new formulations expand treatment options for patients with epilepsy, who will benefit from them.
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PMID:New formulations of drugs in epilepsy. 1124 64

Topiramate is a structurally novel neurotherapeutic agent with a unique combination of pharmacological properties and currently is available in most world markets for treating several seizure disorders. Because its pharmacological profile was suggestive of possible activity as a neuroprotectant, topiramate was evaluated and found to be active in several animal models of stroke or neuropathic pain. This prompted an evaluation of topiramate as a possible neurotrophic agent. In this study, topiramate enhanced the recovery of facial nerve function after injury when administered orally at therapeutically relevant doses, and significantly increased neurite outgrowth in cell cultures derived from fetal rat cortical and hippocampal tissues.
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PMID:Topiramate promotes neurite outgrowth and recovery of function after nerve injury. 1130 40

gamma-Aminobutyric acid (GABA) is considered to be the major inhibitory neurotransmitter in the brain and loss of GABA inhibition has been clearly implicated in epileptogenesis. GABA interacts with 3 types of receptor: GABAA, GABAB and GABAC. The GABAA receptor has provided an excellent target for the development of drugs with an anticonvulsant action. Some clinically useful anticonvulsants, such as the benzodiazepines and barbiturates and possibly valproic acid (sodium valproate), act at this receptor. In recent years 4 new anticonvulsants, namely vigabatrin, tiagabine, gabapentin and topiramate, with a mechanism of action considered to be primarily via an effect on GABA, have been licensed. Vigabatrin elevates brain GABA levels by inhibiting the enzyme GABA transaminase which is responsible for intracellular GABA catabolism. In contrast, tiagabine elevates synaptic GABA levels by inhibiting the GABA uptake transporter, GAT1, and preventing the uptake of GABA into neurons and glia. Gabapentin, a cyclic analogue of GABA, acts by enhancing GABA synthesis and also by decreasing neuronal calcium influx via a specific subunit of voltage-dependent calcium channels. Topiramate acts, in part, via an action on a novel site of the GABAA receptor. Although these drugs are useful in some patients, overall, they have proven to be disappointing as they have had little impact on the prognosis of patients with intractable epilepsy. Despite this, additional GABA enhancing anticonvulsants are presently under development. Ganaxolone, retigabine and pregabalin may prove to have a more advantageous therapeutic profile than the presently licensed GABA enhancing drugs. This anticipation is based on 2 characteristics. First, they act by hitherto unique mechanisms of action in enhancing GABA-induced neuronal inhibition. Secondly, they act on additional antiepileptogenic mechanisms. Finally, CGP 36742, a GABAB receptor antagonist, may prove to be particularly useful in the management of primary generalised absence seizures. The exact impact of these new GABA-enhancing drugs in the treatment of epilepsy will have to await their licensing and a period of postmarketing surveillance. As to clarification of their role in the management of epilepsy, this will have to await further clinical trials, particularly direct comparative trials with other anticonvulsants.
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PMID:The new generation of GABA enhancers. Potential in the treatment of epilepsy. 1147 40

The choice of an antiepileptic drug depends firstly on its efficacy in specific seizure types and epilepsies. However, it is imperative to consider whether possible adverse events will outweigh any benefits. The advantages and disadvantages of vigabatrin, lamotrigine, gabapentin, topiramate, tiagabine and felbamate are considered in some detail, and oxcarbazepine, stiripentol, remacemide, zonisamide and levetiracetam more briefly. Vigabatrin is effective for partial seizures and infantile spasms, but visual field defects are limiting its use. Lamotrigine has a wide spectrum, needs to be prescribed with care. Gabapentin is unlikely to cause adverse effects, but has relatively poor efficacy. Topiramate is widely effective, but can be poorly tolerated. Tiagabine is relatively untried in childhood epilepsies. The use of felbamate is restricted to severe refractory epilepsies. Stiripentol can be effective in severe myoclonic epilepsy in infancy. Zonisamide has a special place in the progressive myoclonus epilepsies. Levetiracetam, remacemide and oxcarbazepine have been used mainly for partial seizures: further studies of their roles in other circumstances are required.
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PMID:Newer antiepileptic drugs: advantages and disadvantages. 1150 96

Idiopathic epilepsies comprise a wide variety of partial and generalized syndromes that have in common a known or presumed genetic etiology and the lack of overt abnormalities other than the epilepsy itself. Most of these epilepsies have a benign natural history and/or show a favorable response to antiepileptic drug (AED) therapy, but pharmacoresistance does occur in some patients. In general, therapeutic algorithms in idiopathic partial epilepsies (IPEs) are similar to those used for symptomatic partial epilepsies, but aggressive pharmacologic therapy is rarely indicated in these patients. In self-limited conditions such as benign epilepsy of childhood with centrotemporal spikes or some forms of benign epilepsy with occipital paroxysms, AED treatment may not even be indicated unless seizures interfere significantly with quality of life. Valproate (VPA) is usually regarded as the drug of choice in idiopathic generalized epilepsies (IGEs). Most patients become rapidly seizure free, and poor compliance or prescription of an inappropriate AED because of misdiagnosis are the most common causes of treatment failure in IGEs. In those patients who did not respond well to VPA (or in whom VPA is considered contraindicated), the choice of alternative AEDs is guided by syndromic diagnosis and associated possible coexistence of multiple seizure types. Lamotrigine is establishing itself as a useful agent for many refractory IGEs, and might be considered for first-line use in selected patients. Topiramate (TPM) is another promising new agent in the management of refractory tonic-clonic seizures of nonfocal onset, but its potential efficacy against other primarily generalized seizure types has not been clearly established. Some of the older drugs, particularly ethosuximide (ESM), barbiturates, and benzodiazepines (BZDs), still have an important role in the management of refractory IGEs, especially in combination with VPA. Because carbamazepine (CBZ), phenytoin (PHT), tiagabine (TGB), vigabatrin (VGB), and gabapentin (GBP) may precipitate or aggravate absence and/or myoclonic jerks, their role in IGE syndromes associated with multiple seizure types is limited mostly to adjunctive use in patients unresponsive to first-line therapy.
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PMID:The management of refractory idiopathic epilepsies. 1152 Mar 20


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