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Neural correlates of an illusionary sense of agency caused by virtual reality.

Yiyang Cai, Huichao Yang, Xiaosha Wang, Ziyi Xiong, Simone Kühn, Yanchao Bi, Kunlin Wei

Cerebral cortex (New York, N.Y. : 1991) January 31, 2024 DOI: 10.1093/cercor/bhad547 via PubMed

Summary

The sense of agency—the feeling that one's actions cause events—can arise through two mechanisms: prospective (based on motor predictions) and reconstructive (based on retrospective reasoning). Temporal binding, a measure often linked to implicit agency, occurs even when passively observing another's action, supporting the reconstructive mechanism. Using virtual reality and fMRI, participants who controlled an avatar hand and then passively observed the avatar's action showed increased temporal binding. This effect correlated with activity in the right angular gyrus and inferior parietal lobule, brain regions involved in inference and agency processing. The findings suggest that controlling an avatar can enhance inferential processing in the right inferior parietal cortex, producing an illusory sense of agency without voluntary movement.

Study at a glance

Characteristics Experimental study with fMRI Peer reviewed
Population Human participants
Keywords Binding Embodiment Self-consciousness Sense of agency Virtual reality
Citations 9
Key finding Passive observation of an avatar's action after controlling it increased temporal binding, associated with right angular gyrus and inferior parietal lobule activity, indicating that illusory sense of agency can arise without voluntary action.

Abstract

Sense of agency (SoA) is the sensation that self-actions lead to ensuing perceptual consequences. The prospective mechanism emphasizes that SoA arises from motor prediction and its comparison with actual action outcomes, while the reconstructive mechanism stresses that SoA emerges from retrospective causal processing about the action outcomes. Consistent with the prospective mechanism, motor planning regions were identified by neuroimaging studies using the temporal binding (TB) effect, a behavioral measure often linked to implicit SoA. Yet, TB also occurs during passive observation of another's action, lending support to the reconstructive mechanism, but its neural correlates remain unexplored. Here, we employed virtual reality (VR) to modulate such observation-based SoA and examined it with functional magnetic resonance imaging (fMRI). After manipulating an avatar hand in VR, participants passively observed an avatar's "action" and showed a significant increase in TB. The binding effect was associated with the right angular gyrus and inferior parietal lobule, which are critical nodes for inferential and agency processing. These results suggest that the experience of controlling an avatar may potentiate inferential processing within the right inferior parietal cortex and give rise to the illusionary SoA without voluntary action.

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