1. Williams syndrome: a relationship between genetics, brain morphology and behaviour.
- Author
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Fahim, C., Yoon, U., Nashaat, N. H., Khalil, A. K., El‐Belbesy, M., Mancini‐Marie, A., Evans, A. C., and Meguid, N.
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BRAIN , *RADIOGRAPHY , *WILLIAMS syndrome , *ANALYSIS of variance , *COMPARATIVE studies , *GENES , *INTELLIGENCE tests , *MAGNETIC resonance imaging , *REGRESSION analysis , *RESEARCH funding , *PHENOTYPES , *FLUORESCENCE in situ hybridization , *DATA analysis software , *DESCRIPTIVE statistics , *GENETICS - Abstract
Background Genetically Williams syndrome (WS) promises to provide essential insight into the pathophysiology of cortical development because its ∼28 deleted genes are crucial for cortical neuronal migration and maturation. Phenotypically, WS is one of the most puzzling childhood neurodevelopmental disorders affecting most intellectual deficiencies (i.e. low-moderate intelligence quotient, visuospatial deficits) yet relatively preserving what is uniquely human (i.e. language and social-emotional cognition). Therefore, WS provides a privileged setting for investigating the relationship between genes, brain and the consequent complex human behaviour. Methods We used in vivo anatomical magnetic resonance imaging analysing cortical surface-based morphometry, (i.e. surface area , cortical volume , cortical thickness , gyrification index ) and cortical complexity , which is of particular relevance to the WS genotype-phenotype relationship in 22 children (2.27-14.6 years) to compare whole hemisphere and lobar surface-based morphometry between WS ( n = 10) and gender/age matched normal controls healthy controls ( n = 12). Results Compared to healthy controls, WS children had a (1) relatively preserved Cth; (2) significantly reduced SA and CV; (3) significantly increased GI mostly in the parietal lobe; and (4) decreased CC specifically in the frontal and parietal lobes. Conclusion Our findings are then discussed with reference to the Rakic radial-unit hypothesis of cortical development, arguing that WS gene deletions may spare Cth yet affecting the number of founder cells/columns/radial units, hence decreasing the SA and CV. In essence, cortical brain structure in WS may be shaped by gene-dosage abnormalities. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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