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Query: UMLS:C0036572 (
seizures
)
80,221
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We reviewed the clinical features, outcome, and treatment of many of the epileptic syndromes that begin in the childhood from 2 to 12 years of age, using a review of the literature and personal experience, with most references to authoritative texts. The developmental tasks of childhood are centered on refinement of motor skills and development of complex intellectual and social skills. The childhood onset epilepsies can be divided into benign, intermediate, and catastrophic based on their impact on childhood development. The clearest benign epilepsy is benign rolandic epilepsy, which often does not require medication treatment. The definition of benign occipital epilepsy is still often vague. In the intermediate category, childhood absence epilepsy often has associated learning disorders and a poor social outcome. About 50% of children with cryptogenic partial
seizures
have a very benign course, even though their epilepsy syndrome is not well defined. Generalized epilepsy with febrile
seizures
plus (
GEFS+
) has a dominant inheritance with a defined defect in cerebral sodium channels, but varies considerably in severity within affected members of the same kindred. The catastrophic epilepsies in childhood all have an inconsistent response to AED treatment and include continuous spike-wave in slow sleep (with variable severity), Landau-Kleffner syndrome (with a confusing overlap with autistic regression), the Lennox Gastaut syndrome (with broad defining features), and myoclonic-astatic epilepsy (with important overlaps with Lennox-Gastaut). Many of the epilepsies that begin in childhood are benign. Others interfere seriously with cognitive and social development.
...
PMID:Epileptic syndromes in childhood: clinical features, outcomes, and treatment. 1206 4
Febrile seizures affect 2-5% of all children younger than 6 years. A small proportion of children with febrile
seizures
later develop epilepsy. The syndrome of generalized epilepsy with febrile
seizures
plus (
GEFS+
) is a heterogeneous disorder characterized by febrile
seizures
that may persist beyond age 6 years and nonfebrile
seizures
. Several genes have been localized for FS by linkage analysis, and three
GEFS+
genes (SCN1A, SCN1B, GABRG2) have been identified. We identified a large multigenerational family with
GEFS+
in France. All affected members had FSs. Among them, seven had other types of epileptic
seizures
including FSs after age 6 years, nonfebrile generalized
seizures
, or partial
seizures
later in life. Genetic linkage study excluded the candidate genes and loci for FS and
GEFS+
, thus proving the existence of a new
GEFS+
genetic locus underlying the phenotype observed in this family.
...
PMID:Clinical and genetic analysis of a new multigenerational pedigree with GEFS+ (Generalized Epilepsy with Febrile Seizures Plus). 1206 16
The voltage-gated sodium channel type II alpha polypeptide gene (SCN2A) R188W mutation with channel dysfunction was recently identified in a patient with febrile and afebrile
seizures
. A possible association between SCN2A R19K polymorphism and febrile
seizures
(FS) associated with afebrile
seizures
including generalized epilepsy with febrile
seizures
plus (
GEFS+
) was also noted. We attempted to identify the R188W mutation and confirm association of the R19K polymorphism in 93 Japanese patients with FS, 35 Japanese patients with FS associated with afebrile
seizures
including
GEFS+
, and 100 control subjects. The R188W mutation was not found. There were no significant differences in genotype or allele frequencies of the R19K polymorphism between groups. Our study failed to provide evidence supporting a causal relation between the SCN2A mutation/polymorphism and FS or FS associated with afebrile
seizures
including
GEFS+
in the Japanese population.
...
PMID:Failure to find evidence for association between voltage-gated sodium channel gene SCN2A variants and febrile seizures in humans. 1216 24
Febrile seizures are the most common form of convulsion, occurring in 2-5% of infants in Europe and North America and in 6-9% in Japan. In large families, the febrile seizure (FS) susceptibility trait is inherited by the autosomal dominant pattern with reduced penetrance. Two putative FS loci, FEB1 (chromosome 8q13-q21) and FEB2 (chromosome 19p13.3) have been mapped. A clinical subset of FS, termed generalized epilepsy with febrile
seizures
plus (
GEFS+
), was reported. In
GEFS+
families, a mutation in the voltage-gated sodium channel beta1 subunit gene (SCN1B) at chromosome 19q13.1 and two mutations of the same alpha1 subunit gene (SCN1A) at chromosome 2q24 were identified. These loci are linked to febrile convulsions in large families. We conducted a genome-wide linkage search for FS in one large family with subsequent linkage confirmation in 39 nuclear families using nonparametric allele-sharing methods, and found a new FS susceptibility locus, FEB4 (chromosome 5q14-q15). In contrast to the FEB1, FEB2, and
GEFS+
genetic loci, linkage to FEB4 was suggested in nuclear FS families, indicating that FEB4 may be the most common linkage locus in FS families.
...
PMID:Molecular genetics of febrile seizures. 1238 77
Febrile seizures (FS) syndromes exhibit major clinical and genetic heterogeneity. We report a clinical and genetic study of three families with simple FS segregating as an autosomal dominant (AD) trait with high penetrance. All affected members presented a homogeneous phenotype of simple FS. The FS ceased before the age of 5 years. Among the 29 affected family members, only one patient presented two afebrile
seizures
, and none of the others developed concomitant or subsequent epilepsy. The phenotype differs from that previously reported in families presenting FS or generalized epilepsy with febrile
seizures
plus (
GEFS+
). After exclusion of already known loci for FS and
GEFS+
, we performed a genome-wide scan in the largest family. It led to the identification of a new locus on chromosome 6q22-q24 spanning 6.4 cM between D6S1620 and D6S975. For one of the other two families, the trait also segregated with this locus, but linkage studies could not restrict the candidate region further. The absence of linkage in the third family supports genetic heterogeneity of the AD form of pure simple FS. Sequence analysis excluded the implication of five candidate genes [A kinase anchoring protein 18 (AKAP18), syntaxin 7, putative neurotransmitter receptor (PNR), G protein receptor 57 (GPR57) and G protein receptor 58 (GPR58)] in the interval based on function. The locus mapping to 6q22-q24 seems to be the first identified locus responsible for pure simple FS, the most frequent form of FS. Studies are ongoing to identify the gene.
...
PMID:A locus for simple pure febrile seizures maps to chromosome 6q22-q24. 1242 94
Autism is a psychiatric disorder with estimated heritability of 90%. One-third of autistic individuals experience
seizures
. A susceptibility locus for autism was mapped near a cluster of voltage-gated sodium channel genes on chromosome 2. Mutations in two of these genes, SCN1A and SCN2A, result in the seizure disorder
GEFS+
. To evaluate these sodium channel genes as candidates for the autism susceptibility locus, we screened for variation in coding exons and splice sites in 117 multiplex autism families. A total of 27 kb of coding sequence and 3 kb of intron sequence were screened. Only six families carried variants with potential effects on sodium channel function. Five coding variants and one lariat branchpoint mutation were each observed in a single family, but were not present in controls. The variant R1902C in SCN2A is located in the calmodulin binding site and was found to reduce binding affinity for calcium-bound calmodulin. R542Q in SCN1A was observed in one autism family and had previously been identified in a patient with juvenile myoclonic epilepsy. The effect of the lariat branchpoint mutation was tested in cultured lymphoblasts. Additional population studies and functional tests will be required to evaluate pathogenicity of the coding and lariat site variants. SNP density was 1/kb in the genomic sequence screened. We report 38 sodium channel SNPs that will be useful in future association and linkage studies.
...
PMID:Sodium channels SCN1A, SCN2A and SCN3A in familial autism. 1261 Jun 51
Recently, mutations in the GABA(A)-receptor gamma2 subunit (GABRG2) gene were identified in two families with generalized epilepsy with febrile
seizures
plus (
GEFS+
) and two families with childhood absence epilepsy (CAE) and febrile
seizures
(FS). We tested the hypothesis that genetic variations in the GABRG2 gene confer susceptibility to FS in the Japanese population. We performed a systematic search for mutations in 94 unrelated Japanese patients with FS and detected six variants (-158C>T, 315C>T, 588T>C, IVS5-55C>T, IVS7+20G>A, and IVS7-141T>A). No non-synonymous mutation was detected. We genotyped three exonic polymorphisms and performed a case control study and a transmission disequilibrium test using 55 independent complete trios with FS and 106 control subjects. None of these polymorphic alleles were significantly associated with FS. Our results indicate that genomic variations of GABRG2 are not likely to be substantially involved in the etiology of FS in the Japanese population.
...
PMID:Failure to find causal mutations in the GABA(A)-receptor gamma2 subunit (GABRG2) gene in Japanese febrile seizure patients. 1275 78
Generalized epilepsy with febrile
seizures
plus (
GEFS+
) is a clinically and genetically heterogeneous syndrome with childhood onset, characterized by febrile
seizures
(FS) and a variety of afebrile epileptic seizure types. The authors performed a mutational analysis of SCN1B on 74 unrelated probands with
GEFS+
, FS, or FS plus (FS+). In a family with FS+ and early-onset absence epilepsy, a mutation was identified that predicts a deletion of five amino acids in the extracellular immunoglobulin-like domain of SCN1B and potential loss of function. SCN1B mutations are associated with
GEFS+
and may have a role in the elicitation of absence
seizures
.
...
PMID:A deletion in SCN1B is associated with febrile seizures and early-onset absence epilepsy. 1450 40
Myoclonic astatic epilepsy (MAE) is a genetically determined condition of childhood onset characterized by multiple generalized types of
seizures
including myoclonic astatic
seizures
, generalized spike waves and cognitive deterioration. This condition has been reported in a few patients in generalized epilepsy with febrile
seizures
plus (
GEFS+
) families and MAE has been considered, like severe myoclonic epilepsy of infancy (SMEI), to be a severe phenotype within the
GEFS+
spectrum. Four genes have been identified in
GEFS+
families, but only three (SCN1A, SCNlB, GABRG2) were found in MAE patients within
GEFS+
families. We analysed these three genes in a series of 22 sporadic patients with MAE and found no causal mutations. These findings suggest that MAE, unlike SMEI, is not genetically related to
GEFS+
. Although MAE and SMEI share the same types of
seizures
, only SMEI patients are sensitive to fever. This is probably its main link to
GEFS+
. A different family of genes is likely to account for MAE.
...
PMID:Absence of mutations in major GEFS+ genes in myoclonic astatic epilepsy. 1464 97
Mutations in SCN1A, the gene encoding the brain voltage-gated sodium channel alpha1 subunit (NaV1.1), are associated with at least two forms of epilepsy, generalized epilepsy with febrile
seizures
plus (
GEFS+
) and severe myoclonic epilepsy of infancy (SMEI). We examined the functional properties of four
GEFS+
alleles and one SMEI allele using whole-cell patch-clamp analysis of heterologously expressed recombinant human SCN1A. One previously reported
GEFS+
mutation (I1656M) and an additional novel allele (R1657C), both affecting residues in a voltage-sensing S4 segment, exhibited a similar depolarizing shift in the voltage dependence of activation. Additionally, R1657C showed a 50% reduction in current density and accelerated recovery from slow inactivation. Unlike three other
GEFS+
alleles that we recently characterized, neither R1657C nor I1656M gave rise to a persistent, noninactivating current. In contrast, two other
GEFS+
mutations (A1685V and V1353L) and L986F, an SMEI-associated allele, exhibited complete loss of function. In conclusion, our data provide evidence for a wide spectrum of sodium channel dysfunction in familial epilepsy and demonstrate that both
GEFS+
and SMEI can be associated with nonfunctional SCN1A alleles.
...
PMID:Epilepsy-associated dysfunction in the voltage-gated neuronal sodium channel SCN1A. 1467 92
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