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)

To determine the IQ profile of children with epilepsy and the influence of various epilepsy-related variables on IQ scores, we studied 50 children with idiopathic generalized epilepsy of > 1-year duration, 25 of their siblings, and 30 healthy controls. IQ assessments were made with Malin's Indian modification of the Wechsler Intelligence Scale for Children. The mean +/- SD IQ scores of children with epilepsy (85.6 +/- 12) and their siblings (93.2 +/- 11) were significantly lower than those of the controls (101.6 +/- 9). The IQ scores of the children with epilepsy were also significantly lower than those of their siblings (p < 0.05). The IQ scores showed a significant correlation with socioeconomic status (SES) score (r = 0.33), a history of status epilepticus (r = -0.38), duration of seizure disorder (r = -0.31), and total number of seizures (r = -0.31). On multiple regression analysis, status epilepticus emerged as the most significant variable, accounting for 14% variance, followed by SES score (9% variance), duration of seizure disorder (6% variance), and sex of the child (5% variance). Genetic or environmental factors that probably lead to cognitive deficit in children with epilepsy and their siblings require further study.
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PMID:Determinants of IQ profile in children with idiopathic generalized epilepsy. 146 72

The authors describe three siblings born to consanguineous parents with early onset ataxia, dysarthria, myoclonic, generalized tonic clonic seizures, upward gaze palsy, extensor plantar reflexes, sensory neuropathy, and normal cognition. Direct screening excluded mutations in FRDA, TDP1,and SACS genes and at 8344, 3243, and 8993 positions of mitochondrial DNA. Linkage analysis excluded AOA-1, EPM1, EPM2A, EPM2B, CAMOS, and recessive ataxias linked to chromosome 9q34-9qter. This clinical constellation may represent a distinct form of early onset cerebellar ataxia.
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PMID:An autosomal recessive cerebellar ataxia syndrome with upward gaze palsy, neuropathy, and seizures. 1564 21

Progressive Myoclonus Epilepsy (PME) of the Lafora type is an autosomal recessive disease, which presents in teenage years with myoclonia and generalized seizures leading to death within a decade of onset. It is characterized by pathognomonic inclusions, Lafora bodies (LB), in neurons and other cell types. Two genes causing Lafora disease (LD), EPM2A on chromosome 6q24 and NHLRC1 (EPM2B) on chromosome 6p22.3 have been identified, and our recent results indicate there is at least one other gene causing the disease. The EPM2A gene product, laforin, is a protein tyrosine phosphatase (PTP) with a carbohydrate-binding domain (CBD) in the N-terminus. NHLRC1 encodes a protein named malin, containing a zinc finger of the RING type in the N-terminal half and 6 NHL-repeat domains in the C-terminal direction. To date 43 different variations in EPM2A and 23 in NHLRC1 are known, including missense, nonsense, frameshift, and deletions. We have developed a human LD mutation database using a new generic biological database cross-referencing platform. The database, which currently contains 66 entries is accessible on the World Wide Web (http://projects.tcag.ca/lafora). Entries can be submitted via the curator of the database or via a web-based form.
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PMID:Lafora progressive Myoclonus Epilepsy mutation database-EPM2A and NHLRC1 (EPM2B) genes. 1613 45

We report a family with four brothers affected by Lafora disease (LD). Mean age at onset was 19.5 years (range, 17-21). In all cases, the initial obvious symptoms were diffuse myoclonus and occasional generalized tonic-clonic seizures (GTCSs), followed by cognitive difficulties. Severity of myoclonus, seizure diaries, and neurologic and neuropsychological status were finally evaluated in March 2005. The duration of follow-up was >10 years for three subjects. Daily living activities and social interaction were preserved in all cases and, overall, the progression of the disease was slow. Genetic study revealed the homozygous mutation D146N in the EPM2B gene. We suggest that this mutation may be associated with a less severe LD phenotype.
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PMID:Late-onset and slow-progressing Lafora disease in four siblings with EPM2B mutation. 1619 Sep 47

Lafora disease (LD) is an autosomal recessive disorder characterized by seizures and progressive neurologic deterioration, and is usually fatal within 10 years of onset. LD is a member of the family of progressive myoclonic epilepsies, which are a heterogeneous group of disorders characterized by myoclonic epilepsy, developmental regression, and associated neurologic symptoms. The following is a report and discussion of a 20-year-old man with no relevant past medical history until the age of 16 years when he had his first generalized tonic-clonic seizure. At a recent medical evaluation, he reported having clusters of generalized tonic-clonic seizure activity 2 to 3 times per week, had recently developed status epilepticus, and was having progressive impairment of cognitive function. The unique clinical elements of LD, including later onset of disease, the excellent initial response to anticonvulsants, and the neurophysiologic clues to the diagnosis are discussed and detailed in relation to this man. Additional research is required to discover a third, unknown locus for LD and to further elucidate the features of the laforin and malin complex-associated pathway. No preventative or curative treatment is currently available for LD and treatment focuses on palliation.
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PMID:Lafora disease. 1704 80

Lafora's disease (LD) is a comparatively frequent and particularly severe type of progressive myoclonus epilepsy. Prevalence varies, LD is seen everywhere but is more common in geographic isolates and areas with high degree of inbreeding. Onset occurs during adolescence, with generalized tonic-clonic, clonic-tonic-clonic seizures, action and resting myoclonus, negative myoclonus, and focal occipital seizures with transient amaurosis. The course is marked by prominent cognitive deterioration, which can precede seizures and myoclonus, and by the progressive, relentless increase of seizures and myoclonus. Transmission is autosomal recessive. LD is genetically heterogeneous. Mutations/deletions of the EPM2A gene, localized in 1995 on 6q24, are found in 80p.cent (product: laforin), the less common EPM2B variant is on 6p22 (product: malin), but these two localizations do not account for all cases of LD. The diagnosis of LD may be suspected on the basis of the family history, age at onset, typical appearance of symptoms, rapid worsening of cognitive function, evaluation of fairly typical EEG aspects, and can easily be confirmed by axillar skin biopsy with proof of Lafora bodies (polyglucosan aggregates) in the sweat duct cells. Other biopsies, like brain biopsy, are generally not necessary. Genetic testing is useful for diagnosis but the genetic heterogeneity cannot rule out LD when none of the known mutations are detected. Genetic counselling and prenatal diagnosis are theoretically possible when the genetic anomaly has been documented in an affected member of the family. The treatment of LD remains purely symptomatic. Drugs that may aggravate myoclonus must be avoided. Psychological and social management is of utmost importance in LD. Death occurs 4 to 10 years after onset in typical forms.
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PMID:[Lafora's disease (EPM2)]. 1730 72

Lafora's disease is a progressive myoclonus epilepsy and must be evocated if myoclonus, occipital seizures and progressive cognitive impairment are present. We report the case of a 14-year-old boy who suffered from several occipital seizures and two generalised seizures. The diagnosis of Lafora's disease was made six years after these inaugural symptoms because of occurrence of myoclonus, aggravation of the epilepsy with paharmacoresistance and psychic deterioration. Axila sweat gland duct biopsy was performed to conclude to the disease. A mutation was found on the gene EPM2A. Lafora's disease is a genetic autosomal-recessive pathology. Two genes have been recently identified. They code for two proteins, malin and laforin, involved in glycogen metabolism in the cellular endoplasmic reticulum. Mutations of these genes are responsible for intracytoplasmic polyglucosan inclusions called Lafora bodies and pathognomonic of the disease.
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PMID:[Lafora's disease presenting with progressive myoclonus epilepsy]. 1803 35

PRO: In the past decade, genotyping has started to help the neurologic practitioner treat patients with three types of epilepsy causing mutations, namely (1) SCN1A, a sodium channel gene mutated in Dravet's sporadic severe myoclonic epilepsy of infancy (SMEI and SMEB); (2) laforin (dual specificity protein phosphatase) and malin (ubiquitin E3 ligase) in Lafora progressive myoclonic epilepsy (PME); and (3) cystatin B in Unverricht-Lundborg type of PME. Laforin, malin, and cystatin B are non-ion channel gene mutations that cause PME. Genotyping ensures accurate diagnosis, helps treatment and genetic counseling, psychological and social help for patients and families, and directs families to organizations devoted to finding cures for specific epilepsy diseases. In SCN1A and cystatin B mutations, treatment with sodium channel blockers (phenytoin, carbamazepine, oxcarbazepine, lamotrigine) should be avoided. Because of early and correct diagnosis by genotyping of SCN1A mutations, the avoidance of sodium channel blockers, and aggressive treatment of prolonged convulsive status, there is hope that Dravet's syndrome may not be as severe as observed in all past reports. Genotyping also identifies nonsense mutations in Lafora PME. Nonsense mutations can be corrected by premature stop codon readthrough drugs such as gentamicin. The community practitioner together with epilepsy specialists in PME can work together and acquire gentamicin (Barton-Davis et al., 1999) for "compassionate use" in Lafora PME, a generalized lysosome multiorgan storage disorder that is invariably fatal. In Unverricht-Lundborg PME, new cohorts with genotyped cystatin B mutations have led to the chronic use of antioxidant N-acetylcysteine and combination valproate clobazam or clonazepam plus antimyoclonic drugs topiramate, zonisamide, piracetam, levetiracetam, or brivaracetam. These cohorts have minimal ataxia and no dementia, questioning whether the syndrome is truly progressive. In conclusion, not only is genotyping a prerequisite in the diagnosis of Dravet's syndrome and the progressive myoclonus epilepsies, but it also helps us choose the correct antiepileptic drugs to treat seizures in Dravet's syndrome and Unverricht-Lundborg PME. Genotyping also portends a brighter future, helping us to reassess the true course, severity, and progressive nature of Dravet's syndrome and Unverricht-Lundborg PME and helping us craft a future curative treatment for Dravet's syndrome and Lafora disease. Without the genotyping diagnosis of epilepsy causing mutations we are stuck with imprecise diagnosis and symptomatic treatment of seizures. CON: Genotyping of epilepsy may help to better understand the genetics of epilepsy, to establish an etiology in a patient with epilepsy, to provide genetic counseling, and to confirm a clinical diagnosis. However, critical analysis reveals that genotyping does not contribute to an improved treatment for the patients. In order to improve treatment, genotyping would have to (1) improve our ability to select the drug of choice for a given epilepsy or epileptic syndrome; (2) improve our ability to predict the individual risk of adverse reactions to certain drugs; (3) improve our ability to avoid unnecessary treatments or treatments that could aggravate seizures. Many example illustrate the lack of impact of genetic information on the treatment outcome: we do not treat Dravet syndrome more successfully since SCN1A testing became available; we do not treat Lafora disease more successfully since testing for laforin and malin became available; we do not need to know the genetic nature of Unverricht-Lundborg disease or test for the cystatin B mutation in order to select or avoid certain drugs; we do not treat Rett syndrome more successfully since MECP2 testing became available; we do not treat JME more successfully since we know its genetic origin; we do not treat autosomal dominant nocturnal frontal lobe epilepsy more successfully since we know its genetic origin and can test for its mutation. The clinical characteristics as well as the response to treatment of these epilepsy syndromes have been well established before genotyping became available. It can not be argued that genotyping is necessary for establishing a diagnosis or ensure accurate diagnosis. Since not all individuals with given syndromes have been shown to have the corresponding mutation, the clinical diagnosis must have been based on well-established clinical criteria. In addition, the presence or absence of the mutation in a given patient has never been shown to specifically predict the response to any form of treatment, positive or negative. Finally, the appropriate psychological and social help in a given patient will not depend on the identification of a mutation. This does not leave any role for genotyping in epilepsy for the sole reason of improving treatment of the patient. Claiming that the result of genotyping predicts optimal treatment in certain epilepsies is equivalent to stating that genotyping for diabetes has become available and that, based on this breakthrough, insulin can now be selected as the treatment of choice in those who test positive.
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PMID:Debate: Does genetic information in humans help us treat patients? PRO--genetic information in humans helps us treat patients. CON--genetic information does not help at all. 1908 13

Lafora disease (LD) is an autosomal recessive and fatal form of progressive myoclonus epilepsy. LD patients manifest myoclonus and tonic-clonic seizures, visual hallucinations, and progressive neurologic deterioration beginning at 12 to 15 years of age. The two genes known to be associated with LD are EPM2A and NHLRC1. Mutations in at least one other as yet unknown gene also cause LD. The EMP2A encodes a protein phosphatase and NHLRC1 encodes an ubiquitin ligase. These two proteins interact with each other and, as a complex, are thought to regulate critical neuronal functions. Nearly 100 distinct mutations have been discovered in the two genes in over 200 independent LD families. Nearly half of them are missense mutations, and the deletion mutations account for one-quarter. Several reports have provided functional data for the mutant proteins and a few also provide genotype-phenotype correlations. In this review we provide an update on the spectrum of EPM2A and NHLRC1 mutations, and discuss their distribution in the patient population, genotype-phenotype correlations, and on the possible effect of disease mutations on the cellular functions of LD proteins.
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PMID:Lafora progressive myoclonus epilepsy: a meta-analysis of reported mutations in the first decade following the discovery of the EPM2A and NHLRC1 genes. 1926 91

A 22-year-old girl presented with convulsive status epilepticus and a previous history of recurrent seizures, myoclonus, ataxia and impaired cognitive functions. Neurological examination revealed rest and action-induced myoclonus, pyramidal signs and opposition hypertonia. Testing revealed severe metabolic acidosis, elevated transaminases and creatine kinase, and respiratory insufficiency. After intubation and ventilation, thiopental was introduced but the patient's condition worsened dramatically with death in a few hours. Autopsy showed profuse periodic acid-Schiff (PAS) positive intracellular inclusions in the CNS (Lafora bodies), most abundant in thalamus, cerebellum, and brainstem, as well as in other organs. Genetic testing revealed a homozygous missense mutation (c.205C > G, P69A) in the EPM2B (NHLRC1) gene, confirming the diagnosis of progressive myoclonic epilepsy Lafora-type.
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PMID:22-year-old girl with status epilepticus and progressive neurological symptoms. 1974 44


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