Corpus callosum shape analysis with application to dyslexia

Manuel F. Casanova; Ayman El-Baz; Ahmed Elnakib; Jay Giedd; Judith M. Rumsey; Emily L. Williams; Andrew E. Switala

doi:10.2478/v10134-010-0017-8

Corpus callosum shape analysis with application to dyslexia

Manuel F. Casanova, Ayman El-Baz, Ahmed Elnakib, Jay Giedd, Judith M. Rumsey, Emily L. Williams, Andrew E. Switala

School of Engineering (Behrend)

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

Morphometric studies of the corpus callosum suggest its involvement in a number of psychiatric conditions. In the present study we introduce a novel pattern recognition technique that offers a point-bypoint shape descriptor of the corpus callosum. The method uses arc lengths of electric field lines in order to avoid discontinuities caused by folding anatomical contours. We tested this technique by comparing the shape of the corpus callosum in a series of dyslexic men (n = 16) and age-matched controls (n = 14). The results indicate a generalized increase in size of the corpus callosum in dyslexia with a concomitant diminution at its rostral and caudal poles. The reported shape analysis and 2D-reconstruction provide information of anatomical importance that would otherwise passed unnoticed when analyzing size information alone.

Original language	English (US)
Pages (from-to)	124-130
Number of pages	7
Journal	Translational Neuroscience
Volume	1
Issue number	2
DOIs	https://doi.org/10.2478/v10134-010-0017-8
State	Published - Jun 2010

All Science Journal Classification (ASJC) codes

General Neuroscience

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10.2478/v10134-010-0017-8

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abstract = "Morphometric studies of the corpus callosum suggest its involvement in a number of psychiatric conditions. In the present study we introduce a novel pattern recognition technique that offers a point-bypoint shape descriptor of the corpus callosum. The method uses arc lengths of electric field lines in order to avoid discontinuities caused by folding anatomical contours. We tested this technique by comparing the shape of the corpus callosum in a series of dyslexic men (n = 16) and age-matched controls (n = 14). The results indicate a generalized increase in size of the corpus callosum in dyslexia with a concomitant diminution at its rostral and caudal poles. The reported shape analysis and 2D-reconstruction provide information of anatomical importance that would otherwise passed unnoticed when analyzing size information alone.",

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AU - Casanova, Manuel F.

AU - El-Baz, Ayman

AU - Elnakib, Ahmed

AU - Giedd, Jay

AU - Rumsey, Judith M.

AU - Williams, Emily L.

AU - Switala, Andrew E.

PY - 2010/6

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N2 - Morphometric studies of the corpus callosum suggest its involvement in a number of psychiatric conditions. In the present study we introduce a novel pattern recognition technique that offers a point-bypoint shape descriptor of the corpus callosum. The method uses arc lengths of electric field lines in order to avoid discontinuities caused by folding anatomical contours. We tested this technique by comparing the shape of the corpus callosum in a series of dyslexic men (n = 16) and age-matched controls (n = 14). The results indicate a generalized increase in size of the corpus callosum in dyslexia with a concomitant diminution at its rostral and caudal poles. The reported shape analysis and 2D-reconstruction provide information of anatomical importance that would otherwise passed unnoticed when analyzing size information alone.

AB - Morphometric studies of the corpus callosum suggest its involvement in a number of psychiatric conditions. In the present study we introduce a novel pattern recognition technique that offers a point-bypoint shape descriptor of the corpus callosum. The method uses arc lengths of electric field lines in order to avoid discontinuities caused by folding anatomical contours. We tested this technique by comparing the shape of the corpus callosum in a series of dyslexic men (n = 16) and age-matched controls (n = 14). The results indicate a generalized increase in size of the corpus callosum in dyslexia with a concomitant diminution at its rostral and caudal poles. The reported shape analysis and 2D-reconstruction provide information of anatomical importance that would otherwise passed unnoticed when analyzing size information alone.

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Corpus callosum shape analysis with application to dyslexia

Abstract

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