Observing others' actions recruits frontoparietal and posterior temporal brain regions - also called the action observation network. It is typically assumed that these regions support recognizing actions of animate entities (e.g., person jumping over a box). However, objects can also participate in events with rich meaning and structure (e.g., ball bouncing over a box). So far, it has not been clarified which brain regions encode information specific to goal-directed actions or more general information that also defines object events. Here, we show a shared neural code for visually presented actions and object events throughout the action observation network. We argue that this neural representation captures the structure and physics of events regardless of animacy. We find that lateral occipitotemporal cortex encodes information about events that is also invariant to stimulus modality. Our results shed light onto the representational profiles of posterior temporal and frontoparietal cortices, and their roles in encoding event information.

A shared neural code for the physics of actions and object events / Karakose-Akbiyik, Seda; Caramazza, Alfonso; Wurm, Moritz Franz Nikolaus. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 14:1(2023), p. 3316. [10.1038/s41467-023-39062-8]

A shared neural code for the physics of actions and object events

Caramazza, Alfonso;Wurm, Moritz Franz Nikolaus
2023-01-01

Abstract

Observing others' actions recruits frontoparietal and posterior temporal brain regions - also called the action observation network. It is typically assumed that these regions support recognizing actions of animate entities (e.g., person jumping over a box). However, objects can also participate in events with rich meaning and structure (e.g., ball bouncing over a box). So far, it has not been clarified which brain regions encode information specific to goal-directed actions or more general information that also defines object events. Here, we show a shared neural code for visually presented actions and object events throughout the action observation network. We argue that this neural representation captures the structure and physics of events regardless of animacy. We find that lateral occipitotemporal cortex encodes information about events that is also invariant to stimulus modality. Our results shed light onto the representational profiles of posterior temporal and frontoparietal cortices, and their roles in encoding event information.
2023
1
Karakose-Akbiyik, Seda; Caramazza, Alfonso; Wurm, Moritz Franz Nikolaus
A shared neural code for the physics of actions and object events / Karakose-Akbiyik, Seda; Caramazza, Alfonso; Wurm, Moritz Franz Nikolaus. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 14:1(2023), p. 3316. [10.1038/s41467-023-39062-8]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/393469
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