Journal
NEUROPSYCHOLOGIA
Volume 45, Issue 11, Pages 2480-2491Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.neuropsychologia.2007.03.024
Keywords
action prediction; common coding theory; mirror-neuron system; motor cognition; simulation; somatosensory cortex
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Humans have the striking capacity to predict actions performed by their conspecifics. But how exactly do we perform such predictions? Do we use our own action repertoire and our own body to simulate the reaching range of others? In this functional magnetic resonance imaging study static photographs depicting side views of seated human models were presented to participants, who had to predict whether the models could reach a target placed in front of them. The predictions were performed both fast and accurate, but with an overestimation bias as well as higher error rates and slower predictions for targets close to the models' actual reaching ranges. Specific hemodynamic signal changes were detected in primary C premotor cortex. These findings demonstrate that and secondary somatosensory cortices, inferior and superior parietal areas, and in right ventral action prediction in the current context activates a network of areas involved in action recognition, visuo-spatial transformation and somatosensory anticipation. The results are in line with the mirror-neuron system account of action understanding and the notion of the common coding theory that actions are coded in terms of their perceivable effects. Published by Elsevier Ltd.
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