ABSTRACT
Las mutaciones del Gen SCN1A están asociadas a varios síndromes epilépticos con presentaciones clínicas superpuestas y de variable severidad a saber: Epilepsia Severa Mioclonica de la Infancia o Síndrome de Dravet,Epilepsia Generalizada con Convulsiones Febriles Plus, formas más leves de Sindrome de Dravet, la Epilepsia Intratable con Convulsiones Generalizadas Tonico-Clonicas y raros casos de Migraña familiar. Todas estas formas clínicas representan el 90% de los casos de mutación del gen SCN1A; recientemente se han incluido la Epilepsia Focal y Generalizada Criptogenética, la MioclónicaAstática, formas del Síndrome de Lennox-Gastaut y la forma severa de Epilepsia Multifocal Infantil (Epilepsia Migratoria o Multifocal Severa de la Infancia). El objetivo de la presentación de estos tres casos de Epilepsia Refractaria Precoz es enfatizar los Fenotipos variables en la evolución de la semiología convulsiva, y del compromiso cognitivo, asociado a genotipos variables (compromiso de alelos diferentes en el mismo Gen). Se debe sospechar compromiso del Gen SCN1A en toda Encefalopatía Epiléptica con convulsiones febriles de comienzo en el 1er año de vida repetidas, en muchas ocasiones, prolongadas o en ramilletes, refractarias al tratamiento médico, con neuroimagenes y EEG normales en el inicio del trastorno convulsivo aunque la regresión psicomotora ocurra años después o las mioclonias estén ausentes y en quienes la vulnerabilidad a la fiebre o a los estados infecciosos leves precipitan convulsiones
Mutations in the SCN1A gene are associated with different epi-lepsy syndromes with overlapping clinical presentations and of variable severity, such as severe myoclonic epilepsy in infancy or Dravet syndrome, generalized epilepsy with febrile seizures plus, milder forms of Dravet syndrome, refractory epilepsy with generalized tonic-clonic seizures, and rare cases of familial migraine. In 90% of all these clinical presentations SCN1A mutations are found. More recently, cryptogenic focal and ge-neralized epilepsy, myoclonicastatic epilepsy, different types of Lennox-Gastaut syndrome, and the severe form of infantile multifocal epilepsy (migrating partial seizures or severe infanti-le multifocal epilepsy) have also been included. The aim of the presentation of these three cases of early refractory epilepsy was to emphasize the variable phenotypes in the evolution of seizure semiology and the cognitive involvement associated with variable genotypes (involvement of different alleles of the same gene). SCN1A-gene involvement should be suspected in the face of all epileptic encephalopathies...
Subject(s)
Humans , Male , Female , Child, Preschool , Child , Adult , Epilepsy, Generalized/complications , Epilepsy, Generalized/genetics , Myoclonic Epilepsy, Juvenile/complications , Myoclonic Epilepsy, Juvenile/genetics , Epilepsies, Myoclonic/complications , Epilepsies, Myoclonic/genetics , Mutation/genetics , Seizures, Febrile , Argentina , Diagnosis, Differential , Sodium ChannelsABSTRACT
Febrile seizures are the most common seizures in childhood. They have been observed in 2-5
of children before the age of 5, but in some populations this figure may increase to 15
. It is a common cause of pediatric hospital admissions and cause of anxiety for parents. Febrile seizures could be the first manifestation of epilepsy. About 13
of epileptic patients have a history of febrile seizure, and 30
have had recurrent febrile seizures. Their phenotypic characteristics allow, in the majority of cases, a classification of the seizure, an elaboration of a prognosis and to assume a specific therapeutic attitude. It is possible to describe a spectrum according to their severity, from the benign simple seizure to the more complex, febrile seizure plus, Dravetsyndrome, and FIRES. During the past decade, molecular genetic studies have contributed to the identification of genetic factors involved in febrile seizure and related disorders, making the necessity of a careful follow up of these patients in order to detect risk factors earlier. We have reviewed the medical literature to update current knowledge of febrile seizures, their prognosis and their relation to new epileptic syndromes.
Subject(s)
Seizures, Febrile/genetics , Epilepsy, Generalized/genetics , Seizures, Febrile/physiopathology , Child , Epilepsy, Generalized/physiopathology , Epilepsies, Myoclonic/physiopathology , Epilepsies, Myoclonic/genetics , Age Factors , Female , Phenotype , Humans , Male , Child, Preschool , Orofaciodigital Syndromes/physiopathology , Orofaciodigital Syndromes/geneticsABSTRACT
OBJETIVO: Discutir alguns dos aspectos genéticos clínicos e moleculares de novas descobertas no campo da genética das epilepsias e relacioná-las com indicações importantes para a melhor compreensão dos mecanismos subjacentes a algumas síndromes epilépticas monogênicas. FONTES DOS DADOS: Muitos desenhos de estudo foram usados através dos anos, incluindo estudos familiares e pesquisas genético-epidemiológicas. Mais recentemente, estudos de genética molecular e estratégias de descoberta de genes foram usados para revelar os mecanismos moleculares e celulares envolvidas em diversas síndromes epilépticas mendelianas. SÍNTESE DOS DADOS: A importância dos fatores genéticos em epilepsias é reconhecida desde os tempos de Hipócrates. CONCLUSÕES: Nos tempos modernos, muitos estudos demonstraram a existência de um componente hereditário nas epilepsias generalizadas e focais. Nas últimas duas décadas, diversas famílias segregando diferentes tipos de epilepsia monogência foram descritas, o que levou ao progresso na caracterização dos defeitos moleculares nestas famílias.
OBJECTIVES: To discuss some of the clinical and molecular genetic aspects of new discoveries in the field of the genetics of the epilepsies and relate these with relevant clues for a better understanding of the mechanisms underlying some of the monogenic epilepsy syndromes. SOURCES: Many study designs have been performed over the years and these include family-based studies, genetic-epidemiology surveys. More recently, molecular genetics studies and gene discovery strategies have been used to unravel the molecular and cell mechanisms involved in several Mendelian epilepsy syndromes. SUMMARY OF THE FINDINGS: The importance of genetic factors in the epilepsies has been recognized since the time of Hippocrates. CONCLUSIONS: In the modern era, many studies have demonstrated the existence of an inherited component in the generalized and focal epilepsies and in the last 2 decades a number of families segregating different types of monogenic epilepsy have been described, leading to progresses in the characterization of the molecular defects in these families.