Journal Article

Imaging studies in congenital anophthalmia reveal preservation of brain architecture in ‘visual’ cortex

Holly Bridge, Alan Cowey, Nicola Ragge and Kate Watkins

in Brain

Published on behalf of The Guarantors of Brain

Volume 132, issue 12, pages 3467-3480
Published in print December 2009 | ISSN: 0006-8950
Published online November 2009 | e-ISSN: 1460-2156 | DOI: http://dx.doi.org/10.1093/brain/awp279
Imaging studies in congenital anophthalmia reveal preservation of brain architecture in ‘visual’ cortex

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The functional specialization of the human brain means that many regions are dedicated to processing a single sensory modality. When a modality is absent, as in congenital total blindness, ‘visual’ regions can be reliably activated by non-visual stimuli. The connections underlying this functional adaptation, however, remain elusive. In this study, using structural and diffusion-weighted magnetic resonance imaging, we investigated the structural differences in the brains of six bilaterally anophthalmic subjects compared with sighted subjects. Surprisingly, the gross structural differences in the brains were small, even in the occipital lobe where only a small region of the primary visual cortex showed a bilateral reduction in grey matter volume in the anophthalmic subjects compared with controls. Regions of increased cortical thickness were apparent on the banks of the Calcarine sulcus, but not in the fundus. Subcortically, the white matter volume around the optic tract and internal capsule in anophthalmic subjects showed a large decrease, yet the optic radiation volume did not differ significantly. However, the white matter integrity, as measured with fractional anisotropy showed an extensive reduction throughout the brain in the anophthalmic subjects, with the greatest difference in the optic radiations. In apparent contradiction to the latter finding, the connectivity between the lateral geniculate nucleus and primary visual cortex measured with diffusion tractography did not differ between the two populations. However, these findings can be reconciled by a demonstration that at least some of the reduction in fractional anisotropy in the optic radiation is due to an increase in the strength of fibres crossing the radiations. In summary, the major changes in the ‘visual’ brain in anophthalmic subjects may be subcortical, although the evidence of decreased fractional anisotropy and increased crossing fibres could indicate considerable re-organization.

Keywords: congenital blindness; visual cortex; structural imaging; brain plasticity; diffusion tensor imaging

Journal Article.  8361 words.  Illustrated.

Subjects: Neurology ; Neuroscience

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