Neural and Temporal Dynamics Underlying Visual Selection for Action
Publication year
2010Source
Journal of Neurophysiology, 104, 2, (2010), pp. 972-983ISSN
Publication type
Article / Letter to editor
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Organization
SW OZ DCC CO
SW OZ BSI SCP
Journal title
Journal of Neurophysiology
Volume
vol. 104
Issue
iss. 2
Page start
p. 972
Page end
p. 983
Subject
Action, intention, and motor control; Behaviour Change and Well-being; DI-BCB_DCC_Theme 2: Perception, Action and ControlAbstract
The present study investigated the selection for action hypothesis, according to which a subject's action intention to perform a movement influences the way in which visual information is being processed. Subjects were instructed in separate blocks either to grasp or to point to a three-dimensional target-object and event-related potentials were recorded relative to stimulus onset. It was found that grasping compared with pointing resulted in a stronger N1 component and a subsequent selection negativity, which were localized to the lateral occipital complex. These effects suggest that the intention to grasp influences the processing of action-relevant features in ventral stream areas already at an early stage ( e. g., enhanced processing of object orientation for grasping). These findings provide new insight in the neural and temporal dynamics underlying perception-action coupling and provide neural evidence for a selection for action principle in early human visual processing.
This item appears in the following Collection(s)
- Academic publications [244262]
- Electronic publications [131202]
- Faculty of Social Sciences [30036]
- Open Access publications [105225]
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