Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038220 (status epilepticus)
 7,272 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied all adult patients who between 1984 and 1989 were initially diagnosed at our hospital as having nonconvulsive status epilepticus. Thirty-two patients fulfilled the criteria, which included ictal EEG recordings. The annual incidence was 1.5 in 100,000 inhabitants. The median age at onset of status was 51 years. Ten patients had status as their first epileptic manifestation, but most patients had a previous history of epilepsy. Median duration of epilepsy at onset of status was 4 years. Fourteen patients had focal ictal seizure activity on EEG and thus met the criteria for complex partial status. Eighteen patients had generalized seizure activity on EEG, but only 6 of these had a history of absence epilepsy or juvenile myoclonic epilepsy. None had Lennox-Gastaut syndrome. The clinical features of status in the remaining 12 patients were in some respects similar to those of the patients with complex partial status. We hypothesize that the EEG seizure activity in these patients may have been generalized from an initial focus.
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PMID:Nonconvulsive status epilepticus in adults: thirty-two consecutive patients from a general hospital population. 139 25

Twelve patients with benign juvenile myoclonic epilepsy (BJME) representing 4% of our population of epileptics (n = 275) are presented. Only two patients (17%) had myoclonic jerks as the only seizure type. Seven (58%) had generalized tonic-clonic seizures (GTCS) and myoclonus. Three patients (25%) had absence seizures (AS), GTCS, and myoclonic jerks. Electroencephalographic evidence of photosensitivity was found in four (33%). Auditory precipitation of seizures was found in one patient. As is the case with other primary generalized epilepsies, the onset of BJME seems to be age specific. In our series the mean age of onset in years was 4.3 for AS, 14.75 for myoclonic jerks, and 16.4 for GTCS. It took an average of 8.5 years from the onset of BJME (range, 2-20 years) and 6.5 years from the onset of GTCS (range, 2 months-6 years) until the condition was properly recognized. Five patients experienced at least one episode of myoclonic status epilepticus. Generalized, paroxysmal, symmetric polyspike and slow wave discharges are the typical EEG finding. These complexes, however, showed considerable interpatient variability. Sleep deprivation proved to be the most valuable activating procedure. Valproic acid monotherapy effectively controlled myoclonic jerks as well as associated GTCS in most patients.
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PMID:Some clinical and EEG aspects of benign juvenile myoclonic epilepsy. 642 Jan 45

This review emphasizes clinical manifestations, recognition of specific epileptic syndromes, use of antiepileptic drugs, and surgical evaluation and outcome. Juvenile myoclonic epilepsy is increasingly recognized but still underdiagnosed. Good evidence exists for a relationship between Landau-Kleffner syndrome (acquired epileptic aphasia) and electrical status epilepticus during sleep, which reflects the course of the aphasia. In focal onset seizures, the type of aura may be as valuable for determining the lobe of seizure onset as electroencephalographic and neuroimaging techniques. In temporal lobe seizures, postictal language assessment was used to determine the side of origin, and hippocampal and temporal volumetry using magnetic resonance imaging proved reliable indicators of the side of involvement. Valproate sodium and carbamazepine were equally effective for secondarily generalized tonic-clonic seizures, but carbamazepine was superior to valproate for complex partial seizures. One study suggests that in children, increased daytime sleep tendency persists 4 to 5 months after discontinuation of antiepileptic drugs and that neither drugs nor seizure activity are necessarily involved. Many recent publications were devoted to surgical treatment. The main issues reviewed concern patient selection and correlation between preoperative parameters and outcome after surgery.
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PMID:Clinical aspects of epilepsy including diagnosis, management, pharmacotherapy, and surgery. 848 66

We report 2 girls, aged 10 and 13 years, with juvenile myoclonic epilepsy (JME) who had episodes of nonconvulsive status epilepticus (NCSE). Symptoms included only mild lethargy, slow responses, and trembling of the eyelids. There was no ataxia or myoclonus of the limbs or body, and they were always able to respond. Electroencephalograms during these episodes showed almost continuous generalized polyspike-waves in both patients. Patients with JME can develop NCSE, which may be overlooked because of the subtle clinical symptoms.
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PMID:Two patients with juvenile myoclonic epilepsy and nonconvulsive status epilepticus. 859 87

This study analyzes the relative frequency and age of onset of the different seizure types in a 20-year cohort of a pediatric neurology outpatient clinic of an urban hospital that serves the majority of the city's population (Tel Aviv Medical Center). Only patients with two or more unprovoked seizures were included. Neonatal seizures were excluded from the analysis. The different seizure types in descending order of frequency were: partial seizures secondarily generalized (20.6%), complex partial seizures (12.5%), West syndrome (9%), simple partial seizures (8.6%), benign rolandic epilepsy of childhood (8%), absence seizures (7%), generalized tonic-clonic seizures (6.6%), generalized tonic seizures (5%), myoclonic seizures (2.2%), benign occipital epilepsy of childhood (2%), mixed type seizures (1.8%), Lennox-Gastaut syndrome (1.5%), juvenile myoclonic epilepsy (0.9%), atypical absence (0.6%), Landau-Kleffner syndrome, Ohtahara syndrome, myoclonic astatic epilepsy, electrical status epilepticus in sleep and startle epilepsy (0.2% each), and unclassified seizures (12%). The findings of this study confirm that there are more pediatric patients with partial seizures (52%) than primary generalized seizures (33%) and that partial seizures secondarily generalized is the most frequent seizure type in this age group.
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PMID:Epidemiology of epilepsy in childhood: a cohort of 440 consecutive patients. 949 91

The main principles of antiepileptic drug treatment of epilepsy in patients with intellectual disability are basically the same as for other patients with epilepsy. However, some specific issues need to be taken into account These are primarily associated with the diagnostic difficulties of epilepsy in this population. In addition, a number of other relevant issues, including the degree and location of brain lesion, the nature of the underlying disease, the higher frequency of difficult-to-treat epilepsies, the additional intellectual impairment caused by inappropriate antiepileptic medication, or by frequent and prolonged seizures, the appropriate use of monotherapy versus rational polytherapy, and the use of broad-spectrum antiepileptic drugs will be discussed in the present paper. Although the goals of treatment are to keep the patient seizure-free and alert while preventing possible mental deterioration, we have to accept compromises between these primary goals in many cases. Some people with epilepsy and intellectual disability are very vulnerable to insidious neurotoxic effects; for example, sedative effects caused by phenobarbital, or cognitive and/or cerebellar dysfunction caused by long-term phenytoin, especially together with other drugs. Because of the adverse effects of phenobarbital and phenytoin, these drugs are no longer recommended as a first-choice drugs when long-term antiepileptic medication is required. In primary generalized tonic-clonic seizures, valproate, oxcarbazepine/carbamazepine and lamotrigine are recommended in this order of preference. The corresponding recommendations are: in typical absences, valproate, ethosuximide and lamotrigine; in atypical absences, valproate and lamotrigine; in juvenile myoclonic epilepsy, valproate, lamotrigine and clobazam; in infantile spasms vigabatrin, ACTH and valproate; in Lennox-Gastaut syndrome, valproate, lamotrigine and vigabatrin; in atonic seizures, valproate and lamotrigine; in simple and complex partial seizures with or without secondary generalization, oxcarbazepine/carbamazepine, valproate/ vigabatrin and lamotrigine; and in status epilepticus lorazepam, diazepam and clonazepam together with phenytoin or fosphenytoin. In cases of poor response to the monotherapy recommended above, the following combinations may be indicated: in primary generalized tonic-clonic epilepsy, valproate and oxcarbazepine/ carbamazepine, or valproate and lamotrigine; in typical absences, valproate and lamotrigine, or valproate and ethosuximide; in juvenile myolonic epilepsy, valproate and lamotrigine, or valproate and clonazepam; and in partial epilepsies, add to the monotherapy one of the following drugs, vigabatrin, lamotrigine, gabapentin, tiagabine, topiramate, zonisamide or clobazam. So far, the order of preference of these new drugs remains undetermined. More data are needed on the efficacy and adverse effects of the new drugs based on controlled studies on patients with intellectual disability and epilepsy.
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PMID:Use of antiepileptic drugs in the treatment of epilepsy in people with intellectual disability. 1003 Apr 26

Several medications such as baclofen, amitriptyline and even antiepileptic drugs such as carbamazepine or vigabatrin are known to induce absence status epilepticus in patients with generalized epilepsies. Tiagabine (TGB) is effective in patients with focal epilepsies. However, TGB has also been reported to induce non-convulsive status epilepticus in several patients with focal epilepsies and in one patient with juvenile myoclonic epilepsy. In animal models of generalized epilepsy, TGB induces absence status with 3-5 Hz spike-wave complexes. We describe a 32-year-old patient with absence epilepsy and primary generalized tonic-clonic seizures since 11 years of age, who developed her first absence status epilepticus while treated with 45 mg of TGB daily. Administration of lorazepam and immediate reduction in TGB dosage was followed by complete clinical and electroencephalographic remission. This case demonstrates that TGB can induce typical absence status epilepticus in a patient with primary generalized epilepsy.
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PMID:Tiagabine-induced absence status in idiopathic generalized epilepsy. 1048 98

Paradoxically, an antiepileptic drug (AED) may aggravate epilepsy. The number of AEDs is steadily increasing, and the occurrence of paradoxical aggravation will probably become a frequent problem. The overall status of the patient treated for epilepsy can be altered due to maladjustment to the diagnosis of epilepsy, to unwanted side-effects, to overdosage and to the occurrence of tolerance. However, the main mechanism of aggravation is the occurrence of an inverse pharmacodynamic effect. The specific effect of the AED is such that it controls epilepsy in most cases and increases seizures in other cases. Idiopathic generalised epilepsies (IGE) are particularly prone to pharmacodynamic aggravation: typical absences are constantly increased by carbamazepine (CBZ), vigabatrin, tiagabine, gabapentin, while phenytoin (PHT) is less aggravating. Juvenile myoclonic epilepsy is often aggravated by CBZ, less constantly by PHT and other AEDs. Generalised tonic-clonic seizures found in IGEs may respond to AEDs that aggravate the other seizure types. In symptomatic generalised epilepsies, patients have often several seizure types that respond differently to AEDs: myoclonias are generally aggravated by the same drugs that aggravated IGEs; tonic seizures in the Lennox-Gastaut syndrome respond to CBZ, which may however aggravate atypical absences. In severe myoclonic epilepsy of infancy, there is a nearly constant aggravating effect of lamotrigine. In some patients with benign rolandic epilepsy, a clear aggravation may be produced by CBZ, with occurrence of negative myoclonias, atypical absences, drop attacks, and at the maximum evolution into a state of electrical status epilepticus during sleep. It is much more difficult to pinpoint specific pharmacological sensitivity in other focal epilepsies, but aggravation clearly occurs. When treating epilepsy, the clinician should act according to seizure type, or, better, to epilepsy type. Patients are usually aware of aggravation before their doctors: we should listen carefully whenever they express a 'dislike' for an AED.
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PMID:When antiepileptic drugs aggravate epilepsy. 1072 56

For pure childhood absence epilepsy (CAE), ethosuximide (ESM) remains the drug of first choice. Although valproic acid (VPA) is of equal efficacy, it is more toxic, and is reserved for those patients with accompanying convulsions. Lamotrigine (LTG) is effective as both add-on and monotherapy for CAE. If any of these three drugs fails, one of the other two can be used as monotherapy. Rarely, when ESM, VPA, or LTG does not effectively control CAE, phenytoin (PHT), primidone (PRM), and phenobarbital (PB) may be partially effective, although carbamazepine (CBZ) may worsen absence seizures. Experience is limited with the newer AEDs. Tiagabine (TGB) may induce absence status epilepticus in PGE. Oxcarbazepine (OXC) and vigabatrin (VGB) may worsen absence seizures. Felbamate (FBM) is probably effective, but is potentially fatal. Lifelong therapy is not anticipated. For juvenile absence epilepsy (JAE), VPA is the drug of first choice. LTG is also of proven efficacy. The risks of VPA-induced teratogenicity (possibly lessened by the concurrent use of folic acid) and weight gain are potentially unacceptable in young women of childbearing age. Not enough data exists on the safety of LTG in pregnancy. A combination of VPA and LTG can be used if either drug alone is unsuccessful. For juvenile myoclonic epilepsy (JME), VPA is the traditional drug of first choice in most patients. As in JAE, side effects may make VPA an unacceptable choice in many patients, especially young women. In clinical practice, TPM is being increasingly used as monotherapy for JME. Many patients appreciate the accompanying weight loss seen with TPM, but it has potentially troubling side effects, has not been well studied as monotherapy for JME, and its safety in pregnancy has yet to be confirmed. PHT and CBZ may worsen myoclonus when used alone, but they may have a role as add-on treatment to VPA, LTG, or TPM, especially when generalized tonic-clonic seizures (GTCSs) are not controlled. PB and PRM may also be useful as add-on treatment, but often have unacceptable side effects. Clonazepam may be useful as adjunctive treatment for resistant myoclonic jerks. OXC and VGB both worsen myoclonic seizures. GBP is not useful in JME and can make seizures worse. The efficacy of FBM and TGB in JME is largely unknown. Lifelong AED therapy is necessary. In epilepsy with generalized tonic-clonic seizure (GTCS) on awakening (EGA), VPA is the drug of choice, especially if other seizure types (absence and myoclonic) are present. If only GTCSs are present, then PB, PHT, and CBZ may be as effective as VPA; however, the use of PHT and CBZ may "unearth" other seizure types (absence and myoclonic) in those patients with EGA, although PB is poorly tolerated. As for JME, LTG, and TPM may both be effective monotherapy for EGA, although the use of other AEDs in EGA has not been well studied. Lifelong AED treatment is necessary.
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PMID:Primary Generalized Epilepsies. 1109 77

Typical absences are brief (seconds) generalised seizures of sudden onset and termination. They have 2 essential components: clinically, the impairment of consciousness (absence) and, generalised 3 to 4Hz spike/polyspike and slow wave discharges on electroencephalogram (EEG). They differ fundamentally from other seizures and are pharmacologically unique. Their clinical and EEG manifestations are syndrome-related. Impairment of consciousness may be severe, moderate, mild or inconspicuous. This is often associated with motor manifestations, automatisms and autonomic disturbances. Clonic, tonic and atonic components alone or in combination are motor symptoms; myoclonia, mainly of facial muscles, is the most common. The ictal EEG discharge may be consistently brief (2 to 5 seconds) or long (15 to 30 seconds), continuous or fragmented, with single or multiple spikes associated with the slow wave. The intradischarge frequency may be constant or may vary (2.5 to 5Hz). Typical absences are easily precipitated by hyperventilation in about 90% of untreated patients. They are usually spontaneous, but can be triggered by photic, pattern, video games stimuli, and mental or emotional factors. Typical absences usually start in childhood or adolescence. They occur in around 10 to 15% of adults with epilepsies, often combined with other generalised seizures. They may remit with age or be lifelong. Syndromic diagnosis is important for treatment strategies and prognosis. Absences may be severe and the only seizure type, as in childhood absence epilepsy. They may predominate in other syndromes or be mild and nonpredominant in syndromes such as juvenile myoclonic epilepsy where myoclonic jerks and generalised tonic clonic seizures are the main concern. Typical absence status epilepticus occurs in about 30% of patients and is more common in certain syndromes, e.g. idiopathic generalised epilepsy with perioral myoclonia or phantom absences. Typical absence seizures are often easy to diagnose and treat. Valproic acid, ethosuximide and lamotrigine, alone or in combination, are first-line therapy. Valproic acid controls absences in 75% of patients and also GTCS (70%) and myoclonic jerks (75%); however, it may be undesirable for some women. Similarly, lamotrigine may control absences and GTCS in possibly 50 to 60% of patients, but may worsen myoclonic jerks; skin rashes are common. Ethosuximide controls 70% of absences, but it is unsuitable as monotherapy if other generalised seizures coexist. A combination of any of these 3 drugs may be needed for resistant cases. Low dosages of lamotrigine added to valproic acid may have a dramatic beneficial effect. Clonazepam, particularly in absences with myoclonic components, and acetazolamide may be useful adjunctive drugs.
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PMID:Treatment of typical absence seizures and related epileptic syndromes. 1139 30


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