Broad Brain Networks Support Curiosity-Motivated Incidental Learning Of Naturalistic Dynamic Stimuli With And Without Monetary Incentives

Curiosity - the intrinsic desire to know - is a concept central to the human mind and knowledge acquisition. Experimental studies on information-seeking have found that curiosity facilitates memory encoding and exhibits similar reward,ng properties as extrinsic rewards/incentives by eliciting a dopa...

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Bibliographic Details
Published inbioRxiv
Main Authors Meliss, Stefanie, Carien Van Reekum, Murayama, Kou
Format Paper
LanguageEnglish
Published Cold Spring Harbor Cold Spring Harbor Laboratory Press 04.10.2022
Subjects
Brain mapping
Dopamine receptors
Familiarity
Functional magnetic resonance imaging
Incentives
Learning
Monetary incentives
Reinforcement
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Summary:Curiosity - the intrinsic desire to know - is a concept central to the human mind and knowledge acquisition. Experimental studies on information-seeking have found that curiosity facilitates memory encoding and exhibits similar reward,ng properties as extrinsic rewards/incentives by eliciting a dopaminergic response. However, it is not clear whether these findings hold with more naturalistic dynamic stimuli and how the joint effect of curiosity and extrinsic incentive manifests in learning and neural activation patterns. Herein, we presented participants with videos of magic tricks across two behavioural (N1 = 77, N2 = 78) and one fMRI study (N = 50) and asked them to rate subjective feelings of curiosity, while also performing a judgement task that was incentivised for the half of participants. Incidental memory for the magic trick was tested a week later. The integrated results showed that both curiosity and availability of extrinsic incentives enhanced encoding but did not interact with each other. However, exploratory analyses showed that curiosity and monetary incentives were associated with recollection and familiarity differently, suggesting the involvement of different encoding mechanisms. Analysis of the fMRI data using the intersubject synchronisation framework showed that, while the effects of curiosity on memory were located in the hippocampus and dopaminergic brain areas, neither the effects of curiosity nor incentives themselves were found in the often-implicated reward network, but instead were associated with cortical areas involved in processing uncertainly and attention. These results suggest that curiosity recruits broader brain networks than what was implicated in the previous literature when investigated with dynamic stimuli. Competing Interest Statement The authors have declared no competing interest. Footnotes * https://github.com/stefaniemeliss/MIL_paper * https://neurovault.org/collections/12980/ * https://doi.org/10.18112/openneuro.ds004182.v1.0.0
DOI:10.1101/2022.10.04.510790