SCN2A-Related Disorders
Megan Abbott author Kevin J Bender author Andreas Brunklaus author Scott Demarest author Shawn Egan author Isabel Haviland author Jennifer A Kearney author Alfred L George, Jr editor
Format:Paperback
Publisher:Cambridge University Press
Publishing:2nd Jan '25
£17.00
This title is due to be published on 2nd January, and will be despatched as soon as possible.
Reviews clinical, genetic and pathophysiological features and treatment of neurodevelopmental disorders caused by variants in the voltage-gated sodium channel gene, SCN2A.
This Element provides a review of the clinical features, genetic basis, pathophysiology, pharmacology and treatment of these genetic conditions authored by leading experts in the field and accompanied by perspectives shared by affected families. This title is also available as Open Access on Cambridge Core.SCN2A encodes a voltage-gated sodium channel (designated NaV1.2) vital for generating neuronal action potentials. Pathogenic SCN2A variants are associated with a diverse array of neurodevelopmental disorders featuring neonatal or infantile onset epilepsy, developmental delay, autism, intellectual disability and movement disorders. SCN2A is a high confidence risk gene for autism spectrum disorder and a commonly discovered cause of neonatal onset epilepsy. This remarkable clinical heterogeneity is mirrored by extensive allelic heterogeneity and complex genotype-phenotype relationships partially explained by divergent functional consequences of pathogenic variants. Emerging therapeutic strategies targeted to specific patterns of NaV1.2 dysfunction offer hope to improving the lives of individuals affected by SCN2A-related disorders. This Element provides a review of the clinical features, genetic basis, pathophysiology, pharmacology and treatment of these genetic conditions authored by leading experts in the field and accompanied by perspectives shared by affected families. This title is also available as Open Access on Cambridge Core.
ISBN: 9781009530378
Dimensions: unknown
Weight: unknown
96 pages