Deconstructing the brain bases of emotion regulation: A systems-identification approach using Bayes factors

Ke, Bo; Kraynak, Thomas E.; Kwon, Mijin; Sun, Mo; Gianaros, Peter J.; Wager, Tor D.

doi:10.1101/2023.04.26.538485

2023

DOI: 10.1101/2023.04.26.538485

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Deconstructing the brain bases of emotion regulation: A systems-identification approach using Bayes factors

Bo Ke

Thomas E. Kraynak

Mijin Kwon

et al.

Abstract: Cognitive reappraisal is fundamental to cognitive therapies and everyday emotion regulation. Analyses using Bayes factors and an axiomatic systems-identification approach identified four reappraisal-related components encompassing distributed neural activity patterns across two independent fMRI studies (n=182 and n=176): (1) An anterior prefrontal system selectively involved in cognitive reappraisal; (2) A fronto-parietal-insular system engaged by both reappraisal and emotion generation, demonstrating a genera… Show more

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The Neural Separability of Emotion Reactivity and Regulation

Zhang,

Dixon,

Goldin

et al. 2023

Affec Sci

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One foundational distinction in affective science is between emotion reactivity and regulation. This conceptual distinction has long been assumed to be instantiated in spatially separable brain systems (e.g., amygdala/insula for reactivity and frontoparietal areas for regulation). In this research, we begin by reviewing previous findings that support and contradict the neural separability hypothesis concerning emotional reactivity and regulation. Further, we conduct a direct test of this hypothesis with empirical data. In five studies involving healthy and clinical samples (total n=336), we assessed neural responses using fMRI while participants were asked to either react naturally or regulate their emotions (using reappraisal) while viewing emotionally evocative stimuli. Across five studies, we failed to find support for the neural separability hypothesis. In univariate analyses, both presumptive "reactivity" and "regulation" brain regions demonstrated equal or greater activation for the reactivity contrast than for the regulation contrast. In multivariate pattern analyses (MVPA), classifiers decoded reactivity (vs. neutral) trials more accurately than regulation (vs. reactivity) trials using multivoxel data in both presumptive "reactivity" and "regulation" regions. These findings suggest that emotion reactivity and regulationas measured via fMRImay not be as spatially separable in the brain as previously assumed. Our secondary whole-brain analyses revealed largely consistent results. We discuss the two theoretical possibilities regarding the neural separability hypothesis and offer thoughts for future research.

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The Neural Separability of Emotion Reactivity and Regulation

Zhang,

Dixon,

Goldin

et al. 2023

Affec Sci

View full text Add to dashboard Cite

show abstract

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Deconstructing the brain bases of emotion regulation: A systems-identification approach using Bayes factors

Cited by 1 publication

References 142 publications

The Neural Separability of Emotion Reactivity and Regulation

The Neural Separability of Emotion Reactivity and Regulation

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