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ISBI
2006
IEEE

Use of 3-D cortical morphometry for mapping increased cortical gyrification and complexity in Williams syndrome

15 years 1 months ago
Use of 3-D cortical morphometry for mapping increased cortical gyrification and complexity in Williams syndrome
In this paper, we describe the use of three different shape measures -- i.e., shape index, curvedness, and L2 norm of mean curvature -- to quantify cortical gyrification and complexity, thereby evaluating brain structural differences between individuals with Williams syndrome (WS) and healthy controls. Unlike traditional measures of gyrification, the proposed measures analyze the intrinsic geometry of the cortex in threedimensional (3-D) space. We analyzed the local and global cortical folding patterns of 39 WS and 39 controls using these shape measures, showing increased gyrification in the cingulate, visual cortex, superior parietal lobule, and central sulcus regions (more pronounced in the left brain hemisphere), and increased cortical complexity in left temporal and left parietal lobes in WS. These findings agree with, and extend, previously published studies and may relate to the characteristic clinical and cognitive profiles of individuals with WS.
Duygu Tosun, Allan L. Reiss, Agatha D. Lee, Rebecc
Added 20 Nov 2009
Updated 20 Nov 2009
Type Conference
Year 2006
Where ISBI
Authors Duygu Tosun, Allan L. Reiss, Agatha D. Lee, Rebecca A. Dutton, Kiralee M. Hayashi, Ursula Bellugi, Albert M. Galaburda, Julie R. Korenberg, Debra L. Mills, Arthur W. Toga, Paul M. Thompson
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