Cross-modal responses in the primary visual cortex encode complex objects and correlate with tactile discrimination

Cortical areas that directly receive sensory inputs from the thalamus were long thought to be exclusively dedicated to a single modality, originating separate labeled lines. In the past decade, however, several independent lines of research have demonstrated cross-modal responses in primary sensory...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2011-09, Vol.108 (37), p.15408-15413
Hauptverfasser:	Vasconcelos, Nivaldo, Pantoja, Janaina, Belchior, Hindiael, Caixeta, Fábio Viegas, Faber, Jean, Freire, Marco Aurelio M, Cota, Vinícius Rosa, Anibal de Macedo, Edson, Laplagne, Diego A, Gomes, Herman Martins, Ribeiro, Sidarta
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Schlagworte:	Action Potentials - physiology Animals Behavioral neuroscience Biological Sciences Brain correlated responses Correlation analysis cortex Cortex (somatosensory) Cortex (visual) Discrimination (Psychology) - physiology Electrophysiology Exploratory Behavior - physiology Identity Male Neurons Neurons - physiology Object recognition Pattern Recognition, Visual - physiology Physical Sciences Rats Rats, Long-Evans Recruitment Sensory area Sensory integration Somatosensory cortex Tactile discrimination Tactile stimuli Thalamus Touch - physiology Vibrissae - physiology Visual cortex Visual Cortex - physiology Visual Perception - physiology Visual task performance
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Vasconcelos, Nivaldo Pantoja, Janaina Belchior, Hindiael Caixeta, Fábio Viegas Faber, Jean Freire, Marco Aurelio M Cota, Vinícius Rosa Anibal de Macedo, Edson Laplagne, Diego A Gomes, Herman Martins Ribeiro, Sidarta
description	Cortical areas that directly receive sensory inputs from the thalamus were long thought to be exclusively dedicated to a single modality, originating separate labeled lines. In the past decade, however, several independent lines of research have demonstrated cross-modal responses in primary sensory areas. To investigate whether these responses represent behaviorally relevant information, we carried out neuronal recordings in the primary somatosensory cortex (S1) and primary visual cortex (V1) of rats as they performed whisker-based tasks in the dark. During the free exploration of novel objects, V1 and S1 responses carried comparable amounts of information about object identity. During execution of an aperture tactile discrimination task, tactile recruitment was slower and less robust in V1 than in S1. However, V1 tactile responses correlated significantly with performance across sessions. Altogether, the results support the notion that primary sensory areas have a preference for a given modality but can engage in meaningful cross-modal processing depending on task demand.
doi_str_mv	10.1073/pnas.1102780108
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subjects	Action Potentials - physiology Animals Behavioral neuroscience Biological Sciences Brain correlated responses Correlation analysis cortex Cortex (somatosensory) Cortex (visual) Discrimination (Psychology) - physiology Electrophysiology Exploratory Behavior - physiology Identity Male Neurons Neurons - physiology Object recognition Pattern Recognition, Visual - physiology Physical Sciences Rats Rats, Long-Evans Recruitment Sensory area Sensory integration Somatosensory cortex Tactile discrimination Tactile stimuli Thalamus Touch - physiology Vibrissae - physiology Visual cortex Visual Cortex - physiology Visual Perception - physiology Visual task performance
title	Cross-modal responses in the primary visual cortex encode complex objects and correlate with tactile discrimination
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