Cortical Maps and White Matter Tracts following Long Period of Visual Deprivation and Retinal Image Restoration

Abnormal visual input during development has dramatic effects on the visual system. How does the adult visual system respond when input is corrected? MM lost his left eye and became blind in the right due to corneal damage at the age of 3. At age 46, MM regained his retinal image, but his visual abi...

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Published inNeuron (Cambridge, Mass.) Vol. 65; no. 1; pp. 21 - 31
Main Authors Levin, Netta, Dumoulin, Serge O., Winawer, Jonathan, Dougherty, Robert F., Wandell, Brian A.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 14.01.2010
Elsevier Limited
Subjects
Adult
Age
Blindness - physiopathology
Brain
Brain Mapping
Child, Preschool
Female
Humans
HUMDISEASE
Magnetic Resonance Imaging
Male
Medical imaging
Middle Aged
Optics
Retina - cytology
Retina - physiology
Sensory Deprivation - physiology
SYSNEURO
Transplants & implants
Vision, Binocular - physiology
Visual Cortex - anatomy & histology
Visual Cortex - physiology
Visual Pathways - abnormalities
Visual Pathways - anatomy & histology
Visual Pathways - physiology
Visual Perception - physiology
SYSNEURO
HUMDISEASE
Online AccessGet full text

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Abstract Abnormal visual input during development has dramatic effects on the visual system. How does the adult visual system respond when input is corrected? MM lost his left eye and became blind in the right due to corneal damage at the age of 3. At age 46, MM regained his retinal image, but his visual abilities, even seven years following the surgery, remain severely limited, and he does not rely on vision for daily life. Neuroimaging measurements reveal several differences among MM, sighted controls, sighted monocular, and early blind subjects. We speculate that these differences stem from damage during the critical period in development of retinal neurons with small, foveal receptive fields. In this case, restoration of functional vision requires more than improving retinal image contrast. In general, visual restoration will require accounting for the developmental trajectory of the individual and the consequences of the early deprivation on cortical circuitry. ► Seven years after visual input restoration, MM's visual acuity and performance are poor ► MM has altered V1 BOLD responses—no foveal responses and odd receptive field sizes ► DTI of MM's optic tract show smaller interhemispheric connections than controls.
AbstractList Abnormal visual input during development has dramatic effects on the visual system. How does the adult visual system respond when input is corrected? MM lost his left eye and became blind in the right due to corneal damage at the age of 3. At age 46, MM regained his retinal image, but his visual abilities, even seven years following the surgery, remain severely limited, and he does not rely on vision for daily life. Neuroimaging measurements reveal several differences among MM, sighted controls, sighted monocular, and early blind subjects. We speculate that these differences stem from damage during the critical period in development of retinal neurons with small, foveal receptive fields. In this case, restoration of functional vision requires more than improving retinal image contrast. In general, visual restoration will require accounting for the developmental trajectory of the individual and the consequences of the early deprivation on cortical circuitry.
Abnormal visual input during development has dramatic effects on the visual system. How does the adult visual system respond when input is corrected? MM lost his left eye and became blind in the right due to corneal damage at the age of 3. At age 46, MM regained his retinal image, but his visual abilities, even seven years following the surgery, remain severely limited, and he does not rely on vision for daily life. Neuroimaging measurements reveal several differences among MM, sighted controls, sighted monocular, and early blind subjects. We speculate that these differences stem from damage during the critical period in development of retinal neurons with small, foveal receptive fields. In this case, restoration of functional vision requires more than improving retinal image contrast. In general, visual restoration will require accounting for the developmental trajectory of the individual and the consequences of the early deprivation on cortical circuitry.Abnormal visual input during development has dramatic effects on the visual system. How does the adult visual system respond when input is corrected? MM lost his left eye and became blind in the right due to corneal damage at the age of 3. At age 46, MM regained his retinal image, but his visual abilities, even seven years following the surgery, remain severely limited, and he does not rely on vision for daily life. Neuroimaging measurements reveal several differences among MM, sighted controls, sighted monocular, and early blind subjects. We speculate that these differences stem from damage during the critical period in development of retinal neurons with small, foveal receptive fields. In this case, restoration of functional vision requires more than improving retinal image contrast. In general, visual restoration will require accounting for the developmental trajectory of the individual and the consequences of the early deprivation on cortical circuitry.
Abnormal visual input during development has dramatic effects on the visual system. How does the adult visual system respond when input is corrected? MM lost his left eye and became blind in the right due to corneal damage at the age of 3. At age 46, MM regained his retinal image, but his visual abilities, even seven years following the surgery, remain severely limited, and he does not rely on vision for daily life. Neuroimaging measurements reveal several differences among MM, sighted controls, sighted monocular, and early blind subjects. We speculate that these differences stem from damage during the critical period in development of retinal neurons with small, foveal receptive fields. In this case, restoration of functional vision requires more than improving retinal image contrast. In general, visual restoration will require accounting for the developmental trajectory of the individual and the consequences of the early deprivation on cortical circuitry. ► Seven years after visual input restoration, MM's visual acuity and performance are poor ► MM has altered V1 BOLD responses—no foveal responses and odd receptive field sizes ► DTI of MM's optic tract show smaller interhemispheric connections than controls.
Author Wandell, Brian A.
Levin, Netta
Dumoulin, Serge O.
Winawer, Jonathan
Dougherty, Robert F.
AuthorAffiliation 2 Helmholtz Institute, Experimental Psychology Division, Utrecht University, Utrecht, Netherlands
1 Department of Psychology, Stanford University, Stanford, CA 94305-2130, USA
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Snippet Abnormal visual input during development has dramatic effects on the visual system. How does the adult visual system respond when input is corrected? MM lost...
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StartPage 21
SubjectTerms Adult
Age
Blindness - physiopathology
Brain
Brain Mapping
Child, Preschool
Female
Humans
HUMDISEASE
Magnetic Resonance Imaging
Male
Medical imaging
Middle Aged
Optics
Retina - cytology
Retina - physiology
Sensory Deprivation - physiology
SYSNEURO
Transplants & implants
Vision, Binocular - physiology
Visual Cortex - anatomy & histology
Visual Cortex - physiology
Visual Pathways - abnormalities
Visual Pathways - anatomy & histology
Visual Pathways - physiology
Visual Perception - physiology
Title Cortical Maps and White Matter Tracts following Long Period of Visual Deprivation and Retinal Image Restoration
URI https://dx.doi.org/10.1016/j.neuron.2009.12.006
https://www.ncbi.nlm.nih.gov/pubmed/20152110
https://www.proquest.com/docview/1503780504
https://www.proquest.com/docview/21284960
https://www.proquest.com/docview/733584653
https://pubmed.ncbi.nlm.nih.gov/PMC2948651
Volume 65
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