V1 Projection Zone Signals in Human Macular Degeneration Depend on Task, not Stimulus

doi:10.1093/cercor/bhm256

Cerebral Cortex Advance Access published online on February 3, 2008
Cerebral Cortex, doi:10.1093/cercor/bhm256

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V1 Projection Zone Signals in Human Macular Degeneration Depend on Task, not Stimulus

Yoichiro Masuda¹^,2, Serge O. Dumoulin¹, Satoshi Nakadomari² and Brian A. Wandell¹

¹ Psychology, Stanford University, Stanford, CA 94305, USA, ² Ophthalmology, Jikei University, School of Medicine, Tokyo, 105-8461 Japan

Address correspondence to Yoichiro Masuda, Wandell Laboratory, Jordan Hall, Building 420, Stanford University, Stanford, CA 94305, USA. Email: massuuu{at}gmail.com.

We used functional magnetic resonance imaging to assess abnormalcortical signals in humans with juvenile macular degeneration(JMD). These signals have been interpreted as indicating large-scalecortical reorganization. Subjects viewed a stimulus passivelyor performed a task; the task was either related or unrelatedto the stimulus. During passive viewing, or while performingtasks unrelated to the stimulus, there were large unresponsiveV1 regions. These regions included the foveal projection zone,and we refer to them as the lesion projection zone (LPZ). In3 JMD subjects, we observed highly significant responses inthe LPZ while they performed stimulus-related judgments. Incontrol subjects, where we presented the stimulus only withinthe peripheral visual field, there was no V1 response in thefoveal projection zone in any condition. The difference betweenJMD and control responses can be explained by hypotheses thathave very different implications for V1 reorganization. In controlsretinal afferents carry signals indicating the presence of auniform (zero-contrast) region of the visual field. Deletionof retinal input may 1) spur the formation of new cortical pathwaysthat carry task-dependent signals (reorganization), or 2) unmaskpreexisting task-dependent cortical signals that ordinarilyare suppressed by the deleted signals (no reorganization).

Key Words: feed-back • fMRI • human • plasticity • retinal degeneration • visual cortex

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