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The Default Mode Network Differentiates Biological From Non-Biological Motion.


ABSTRACT: The default mode network (DMN) has been implicated in an array of social-cognitive functions, including self-referential processing, theory of mind, and mentalizing. Yet, the properties of the external stimuli that elicit DMN activity in relation to these domains remain unknown. Previous studies suggested that motion kinematics is utilized by the brain for social-cognitive processing. Here, we used functional MRI to examine whether the DMN is sensitive to parametric manipulations of observed motion kinematics. Preferential responses within core DMN structures differentiating non-biological from biological kinematics were observed for the motion of a realistically looking, human-like avatar, but not for an abstract object devoid of human form. Differences in connectivity patterns during the observation of biological versus non-biological kinematics were additionally observed. Finally, the results additionally suggest that the DMN is coupled more strongly with key nodes in the action observation network, namely the STS and the SMA, when the observed motion depicts human rather than abstract form. These findings are the first to implicate the DMN in the perception of biological motion. They may reflect the type of information used by the DMN in social-cognitive processing.

SUBMITTER: Dayan E 

PROVIDER: S-EPMC4701122 | biostudies-literature | 2016 Jan

REPOSITORIES: biostudies-literature

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The Default Mode Network Differentiates Biological From Non-Biological Motion.

Dayan Eran E   Sella Irit I   Mukovskiy Albert A   Douek Yehonatan Y   Giese Martin A MA   Malach Rafael R   Flash Tamar T  

Cerebral cortex (New York, N.Y. : 1991) 20140912 1


The default mode network (DMN) has been implicated in an array of social-cognitive functions, including self-referential processing, theory of mind, and mentalizing. Yet, the properties of the external stimuli that elicit DMN activity in relation to these domains remain unknown. Previous studies suggested that motion kinematics is utilized by the brain for social-cognitive processing. Here, we used functional MRI to examine whether the DMN is sensitive to parametric manipulations of observed mot  ...[more]

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