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The Neural Markers of Perceptual Uncertainty/Curiosity—A Functional Near-Infrared Spectroscopy Pilot Study

Psychology

The Neural Markers of Perceptual Uncertainty/Curiosity—A Functional Near-Infrared Spectroscopy Pilot Study

A. Korniluk, B. Gawda, et al.

Curiosity meets the brain: using a modified blurred-picture paradigm and fNIRS in 15 participants, this study found orbitofrontal cortex hemodynamic changes—greater activity when perceptual uncertainty was resolved (matching vs. non-matching). The findings confirm neural pathways of curiosity while noting fNIRS’s spatial limitations. This research was conducted by Adrian Korniluk, Barbara Gawda, Małgorzata Chojak, and Anna Gawron.... show more
Abstract
Background: Curiosity is an immanent aspect of human experience linked to motivation, information-seeking, and learning processes. Previous research has highlighted the significant role of the orbitofrontal cortex (OFC) in curiosity-driven behaviors, particularly in processing uncertainty and evaluating information. Methods: This study aimed to examine cortical activation during the induction of perceptual uncertainty using a modified blurred picture paradigm. A total of 15 participants were tested with fNIRS (functional near-infrared spectroscopy) while viewing pairs of images designed to induce perceptual uncertainty. Results: The results revealed a differential hemodynamic response in one of the analyzed channels associated with orbitofrontal cortex activation, with higher activity when uncertainty was reduced (the matching condition compared to the non-matching condition). Conclusions: These findings confirm the existence of neural pathways of curiosity. Furthermore, our study also highlights the spatial limitations of fNIRS in precisely localizing OFC activity.
Publisher
Brain Sciences
Published On
Apr 18, 2025
Authors
Adrian Korniluk, Barbara Gawda, Małgorzata Chojak, Anna Gawron
DOI
https://doi.org/10.3390/brainsci15040411
Tags
curiosity
orbitofrontal cortex
fNIRS
perceptual uncertainty
blurred picture paradigm
hemodynamic response
neural pathways

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