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:C0038220 (status epilepticus)
7,272 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Generalized periodic epileptiform discharges can occur in a variety of epileptic syndromes and herald impending seizures. Such discharges are also extremely rare in children. Cerebral visual impairment can be associated with generalized and partial onset seizures, particularly those involving the occipital lobe. The authors present a case of a 10-month-old boy whose electroencephalogram revealed generalized periodic epileptiform discharges following resolution of status epilepticus. Such discharges warranted further monitoring, during which he experienced 2 additional seizures. He also was discovered to have cerebral visual impairment, which slowly resolved following termination of seizure activity. The child was subsequently found to have a de novo mutation of the sodium channel, voltage-gated, type I, alpha subunit (SCN1A) gene consistent with Dravet syndrome.
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PMID:Generalized periodic epileptiform discharges in a child with Dravet syndrome. 2133 42

We describe three children with genetically different sodium channel alpha 1 subunit (SCN1A) mutation associated epilepsy who experienced a sudden and sustained neurologic regression following status epilepticus in two and acute sepsis in one. Neuroimaging showed evidence of cerebral ischemia in one, but the other two cases showed cerebellar signal abnormalities. The selectivity of cerebellar white matter change suggests a different mechanism of injury or increased susceptibility of this brain region to injury in at least some patients with SCN1A mutations. This report adds to the spectrum and mechanism of acute neurologic deterioration and functional deficit associated with SCN1A mutations, which remains to be fully understood.
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PMID:Encephalopathy and SCN1A mutations. 2142 28

Brain magnetic resonance imaging (MRI) studies in patients with Dravet syndrome and SCN1A mutations have shown abnormal findings in a small minority of patients. The origin of the structural abnormalities--such focal brain atrophy, cortical dysplasia, and hippocampal sclerosis--observed in some children remains unclear. There seems to be no correlation between the presence of MRI abnormalities and duration of epilepsy, age at seizure onset, or the frequency of episodes of status epilepticus having occurred early in life. Recent descriptions of Rasmussen syndrome and of the hemiconvulsion-hemiplegia syndrome in isolated patients with SCN1A mutations are of uncertain meaning but might indicate that co-occurring immunomediated or seizure-induced structural changes can, in turn, become a substrate for the severe epileptic encephalopathy. The few available neuropathologic studies of Dravet syndrome have provided inconsistent findings, including evidence of subtle brain malformation. However, the underlying dysfunction of the SCN1A gene might confer to the brain a unique profile of vulnerability whose consequences are not easily disclosed by neuropathology and require specific experimental settings to be fully appreciated. There would seem to be value in studies in animal models of these aspects, as well as prospective studies in humans, with a particular view to establishing if earlier diagnosis and efforts at seizure control may influence the development of any clinical, imaging, or pathologic deterioration.
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PMID:Neuroimaging and neuropathology of Dravet syndrome. 2146 76

A questionnaire survey was conducted in Japan to investigate the causes and prevalence of death related to Dravet syndrome. The questionnaire was delivered to 246 hospitals at which physicians were treating childhood epilepsy to gain information about the total number of patients with Dravet syndrome and the prevalence of early death due to the disorder. Responses to the survey were collected from 91 hospitals, and a total of 63 of 623 patients with Dravet syndrome had died. Data from 59 of these patients were analyzed. The age at death for these patients ranged from 13 months to 24 years and 11 months, with a median age of 6 years and 8 months. The causes of mortality included sudden death in 31 patients (53%), acute encephalopathy with status epilepticus (SE) in 21 patients (36%), drowning in 6 patients (10%), and other causes in one patient (1%). The incidence of sudden death reached a first peak at 1-3 years of age and a second peak at 18 years and older. In contrast, the incidence of acute encephalopathy with SE reached a peak at 6 years of age. Seven of the 10 patients who underwent SCN1A mutation analysis exhibited positive mutations but exhibited no consistent phenotype. The prevalence of Dravet syndrome-related mortality was 10.1%. The incidence of sudden death and acute encephalopathy with SE was higher in infancy (1-3 years) and at early school ages (with a peak at 6 years), respectively. Neither the treatment nor the number of seizures was associated with any cause of mortality. Factors leading to a fatal outcome are difficult to predict.
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PMID:Mortality in Dravet syndrome: search for risk factors in Japanese patients. 2146 80

The advent of social networking via the Internet and the commercial availability of tests for SCN1A mutations permitted the rapid development and growth of parent-led associations that provide advocacy and support, as well as promote education and research regarding Dravet syndrome (DS) in the last 10 years. The International Dravet syndrome Epilepsy Action League (IDEA League) is a partnership of parents and professionals united in the purpose of creating greater awareness and understanding of DS. In 2004, parents in the IDEA League support network began to collect data from families about their children with DS in order to investigate observations that, in addition to epilepsy, many of the children seemed to share similar problems. The information gained suggests comorbid conditions and raises many hypotheses for further research. The process has led to more rigorous formal studies and an increased understanding of the clinical spectrum of DS. There is an urgent need for collaborative research, comprehensive care, and professional and family education. Mortality appears high, primarily due to sudden unexplained death in epilepsy (SUDEP) and status epilepticus (SE). Most parents wish direct discussions with their child's physician about mortality. The high risk of death and the many other stresses related to DS result in recurrent grief and loss for patients and families and highlights their need for additional advocacy and support.
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PMID:Dravet syndrome and parent associations: the IDEA League experience with comorbid conditions, mortality, management, adaptation, and grief. 2146 90

Dravet syndrome (severe myoclonic epilepsy in infancy) is an epileptic syndrome with various types of seizures that begin in the first year of life and may result in intellectual impairment. Mutations of the SCN1A gene are the most prevalent genetic cause of Dravet syndrome. In this study, we report a 12-year-old girl with Dravet syndrome carrying an SCN1A mutation, c.2785Cdel (L929del fsX934). She had an episode of status epilepticus and persistent lethargy after 48 h of acute febrile illness that was preceded by an annual flu vaccination. Low voltage activities detected by electroencephalogram and elevated neuron-specific enolase/interleukin-6 concentrations in the cerebrospinal fluid suggested acute encephalopathy. MRI showed abnormalities in the bilateral thalami, cerebellum and brainstem. These abnormalities were protracted over a month. The biochemical and MRI characteristics of this case are different from any known type of encephalopathy, and may suggest a vulnerability of neurons expressing mutant SCN1A in the brain.
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PMID:Acute encephalopathy in a patient with Dravet syndrome. 2164 47

We present two children who exhibited the characteristics of Dravet syndrome during infancy and young childhood, with SCN1A mutation, but nevertheless achieved seizure freedom for at least four years during adolescence. These patients had no episodes of convulsive status epilepticus with a duration of more than 30 minutes and their overall favourable seizure outcome may be related to the prevention of convulsive status epilepticus.
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PMID:Dravet syndrome with an exceptionally good seizure outcome in two adolescents. 2186 28

Two distinctive epileptic encephalopathies, febrile infection-related epilepsy syndrome (FIRES) and Dravet syndrome (DS), present with febrile status epilepticus in a normal child followed by refractory focal seizures and cognitive decline although there are differentiating features. Abnormalities of the sodium channel gene SCN1A are found in 75% of DS patients. We found no SCN1A mutations or copy number variants in 10 patients with FIRES. Other genetic etiologies deserve consideration.
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PMID:Febrile infection-related epilepsy syndrome is not caused by SCN1A mutations. 2238 34

Mesial temporal sclerosis is uncommon in childhood but has been associated with febrile status epilepticus. SCN1A gene mutations are linked to multiple epilepsy syndromes with patients frequently presenting with prolonged febrile seizures. After observing mesial temporal sclerosis in a child with SCN1A gene mutation, we retrospectively reviewed magnetic resonance imaging (MRI) findings in all patients with SCN1A gene mutation identified between 2005 and 2010. We identified 20 patients with SCN1A mutations. Six patients had evidence of definite mesial temporal sclerosis with 2 patients having bilateral abnormalities. Another 4 patients were defined as having possible mesial temporal sclerosis. This patient group revealed that 50% had findings consistent with definite or possible mesial temporal sclerosis and many did not have a history of prolonged febrile seizures. We conclude that mesial temporal sclerosis is a common finding in children with SCN1A mutations. Many of these children will have Dravet syndrome but not all.
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PMID:Mesial temporal sclerosis in a cohort of children with SCN1A gene mutation. 2350 53

Dravet syndrome is a severe infantile-onset epilepsy syndrome with a distinctive but complex electroclinical presentation. A healthy, developmentally normal infant presents at around 6 months of age with convulsive status epilepticus, which may be hemiclonic or generalized; seizures may be triggered by fever, illness or vaccination. The infant typically has further episodes of status epilepticus every month or two, often triggered by fever. Other seizure types including focal dyscognitive seizures, absence and myoclonic seizures develop between 1 and 4 years. Atonic drop attacks and episodes of non-convulsive status may occur. Early development is normal but slows in the second year. Developmental regression may occur, particularly with status epilepticus. EEG studies are initially normal, but after 2 years they show generalized spike-wave and polyspike-wave activity with multifocal discharges. Photosensitivity may be seen. Imaging is normal or shows non-specific findings such as atrophy. Dravet syndrome is associated with mutations of the gene encoding the alpha-1 subunit of the sodium channel, SCN1A, in >70% of patients. These include sequencing mutations and copy number variant anomalies; 90% of mutations arise de novo. PCDH19 mutational analysis is a second-tier test for girls with a Dravet-like picture who do not have SCN1A mutations. Outcome is poor, with intellectual disability in most patients and ongoing seizures. Intellectual impairment varies from severe in 50% patients, to moderate and mild intellectual disability each accounting for 25% cases. Rare patients have normal intellect. The long-term course involves ongoing, brief nocturnal convulsions and a characteristic deterioration in gait.
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PMID:Diagnosis and long-term course of Dravet syndrome. 2270 20


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