Visual Function and Brain Organization in Non-decussating Retinal–Fugal Fibre Syndrome

Functional neuroimaging, psychophysical and electrophysiological investigations were performed in a patient with non-decussating retinal–fugal fibre syndrome, an inborn achiasmatic state in which the retinal projections of each eye map entirely to the ipsilateral primary visual cortex. Functional ma...

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Veröffentlicht in:	Cerebral cortex (New York, N.Y. 1991) N.Y. 1991), 2000-01, Vol.10 (1), p.2-22
Hauptverfasser:	Victor, Jonathan D., Apkarian, Patricia, Hirsch, Joy, Conte, Mary M., Packard, Maurine, Relkin, Norman R., Kim, Karl H.S., Shapley, Robert M.
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Sprache:	eng
Schlagworte:	Adolescent Brain Mapping Contrast Sensitivity - physiology Electroencephalography Female Functional Laterality Humans Infant Magnetic Resonance Imaging Motion Perception - physiology Neuronal Plasticity Optic Chiasm - abnormalities Optic Nerve Diseases - diagnosis Optic Nerve Diseases - physiopathology Photic Stimulation Retina - physiopathology Syndrome Twins, Dizygotic Visual Cortex - pathology Visual Cortex - physiopathology Visual Pathways - pathology Visual Pathways - physiopathology Visual Perception
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container_title	Cerebral cortex (New York, N.Y. 1991)
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creator	Victor, Jonathan D. Apkarian, Patricia Hirsch, Joy Conte, Mary M. Packard, Maurine Relkin, Norman R. Kim, Karl H.S. Shapley, Robert M.
description	Functional neuroimaging, psychophysical and electrophysiological investigations were performed in a patient with non-decussating retinal–fugal fibre syndrome, an inborn achiasmatic state in which the retinal projections of each eye map entirely to the ipsilateral primary visual cortex. Functional magnetic resonance imaging (fMRI) studies showed that for monocularly presented simple visual stimuli, only the ipsilateral striate cortex was activated. Within each hemisphere's striate cortex, the representation of the two hemifields overlapped extensively. Despite this gross miswiring, visual functions that require precise geometrical information (such as vernier acuity) were normal, and there was no evidence for the confounding of visual information between the overlapping ipsi-lateral and contralateral representations. Contrast sensitivity and velocity judgments were abnormal, but their dependence on the orientation and velocity of the targets suggests that this deficit was due to ocular instabilities, rather than the miswiring per se. There were no asymmetries in performance observed in visual search, visual naming or illusory contour perception. fMRI analysis of the latter two tasks under monocular viewing conditions indicated extensive bilateral activation of striate and prestriate areas. Thus, the remarkably normal visual behavior achieved by this patient is a result of both the plasticity of visual pathways, and efficient transfer of information between the hemispheres.
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Contrast sensitivity and velocity judgments were abnormal, but their dependence on the orientation and velocity of the targets suggests that this deficit was due to ocular instabilities, rather than the miswiring per se. There were no asymmetries in performance observed in visual search, visual naming or illusory contour perception. fMRI analysis of the latter two tasks under monocular viewing conditions indicated extensive bilateral activation of striate and prestriate areas. 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source	MEDLINE; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Oxford University Press Journals All Titles (1996-Current)
subjects	Adolescent Brain Mapping Contrast Sensitivity - physiology Electroencephalography Female Functional Laterality Humans Infant Magnetic Resonance Imaging Motion Perception - physiology Neuronal Plasticity Optic Chiasm - abnormalities Optic Nerve Diseases - diagnosis Optic Nerve Diseases - physiopathology Photic Stimulation Retina - physiopathology Syndrome Twins, Dizygotic Visual Cortex - pathology Visual Cortex - physiopathology Visual Pathways - pathology Visual Pathways - physiopathology Visual Perception
title	Visual Function and Brain Organization in Non-decussating Retinal–Fugal Fibre Syndrome
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