Neural Mechanisms Underlying Individual Differences in Control-Averse Behavior

The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
Sarah RudorfDaria Knoch

Abstract

When another person tries to control one's decisions, some people might comply, but many will feel the urge to act against that control. This control aversion can lead to suboptimal decisions and it affects social interactions in many societal domains. To date, however, it has been unclear what drives individual differences in control-averse behavior. Here, we address this issue by measuring brain activity with fMRI while healthy female and male human participants made choices that were either free or controlled by another person, with real consequences to both interaction partners. In addition, we assessed the participants' affects, social cognitions, and motivations via self-reports. Our results indicate that the social cognitions perceived distrust and lack of understanding for the other person play a key role in explaining control aversion at the behavioral level. At the neural level, we find that control-averse behavior can be explained by functional connectivity between the inferior parietal lobule and the dorsolateral prefrontal cortex, brain regions commonly associated with attention reorientation and cognitive control. Further analyses reveal that the individual strength of functional connectivity complements and parti...Continue Reading

Citations

Feb 19, 2020·Nature Neuroscience·Daniel T SangiamoJoshua P Neunuebel
Apr 4, 2019·Cognitive, Affective & Behavioral Neuroscience·Wuyi WangChiang-Shan R Li
Mar 1, 2019·Scientific Reports·Sarah RudorfDaria Knoch
Jan 15, 2021·Proceedings of the National Academy of Sciences of the United States of America·Katrin Schmelz

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Statistical Parametric Mapping
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MATLAB Statistics and Machine Learning Toolbox
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rfxplot
SPM12

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