Occipital-Callosal Pathways in Children: Validation and Atlas Development

Diffusion tensor imaging and fiber tracking were used to measure fiber bundles connecting the two occipital lobes in 53 children of 7‐12 years of age. Independent fiber bundle estimates originating from the two hemispheres converge onto the lower half of the splenium. This observation validates the...

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Bibliographic Details
Published in:Annals of the New York Academy of Sciences 2005-12, Vol.1064 (1), p.98-112
Main Authors: DOUGHERTY, ROBERT F., BEN-SHACHAR, MICHAL, DEUTSCH, GAYLE, POTANINA, POLINA, BAMMER, ROLAND, WANDELL, BRIAN A.
Format: Article
Language:English
Subjects:
alexia
Anatomy, Artistic - methods
Atlases as Topic
Brain Mapping - methods
Child
Corpus Callosum - anatomy & histology
Corpus Callosum - growth & development
Diffusion Magnetic Resonance Imaging - methods
diffusion tensor imaging
Dyslexia - diagnosis
Dyslexia - physiopathology
Female
fiber tracking
Functional Laterality - physiology
Humans
Lateral Ventricles - anatomy & histology
Lateral Ventricles - physiology
Male
Medical Illustration - education
Nerve Fibers, Myelinated - physiology
Nerve Fibers, Myelinated - ultrastructure
Neuroanatomy - methods
splenium
Visual Cortex - anatomy & histology
Visual Cortex - growth & development
Visual Pathways - anatomy & histology
Visual Pathways - physiology
white matter atlas
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Summary:Diffusion tensor imaging and fiber tracking were used to measure fiber bundles connecting the two occipital lobes in 53 children of 7‐12 years of age. Independent fiber bundle estimates originating from the two hemispheres converge onto the lower half of the splenium. This observation validates the basic methodology and suggests that most occipital‐callosal fibers connect the two occipital lobes. Within the splenium, fiber bundles are organized in a regular pattern with respect to their cortical projection zones. Visual cortex dorsal to calcarine projects through a large band that fills much of the inferior half of the splenium, while cortex ventral to calcarine sends projections through a band at the anterior inferior edge of the splenium. Pathways projecting to the occipital pole and lateral‐occipital regions overlap the dorsal and ventral groups slightly anterior to the center of the splenium. To visualize these pathways in a typical brain, we combined the data into an atlas. The estimated occipital‐callosal fiber paths from the atlas form the walls of the occipital horn of the lateral ventricle, with dorsal paths forming the medial wall and the ventral paths bifurcating into a medial tract to form the inferior‐medial wall and a superior tract that joins the lateral‐occipital paths to form the superior wall of the ventricle. The properties of these fiber bundles match those of the hypothetical pathways described in the neurological literature on alexia.
ISSN:0077-8923
1749-6632
DOI:10.1196/annals.1340.017