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Richard J. Davidson
Researcher at University of Wisconsin-Madison
Publications - 642
Citations - 99052
Richard J. Davidson is an academic researcher from University of Wisconsin-Madison. The author has contributed to research in topics: Prefrontal cortex & Mindfulness. The author has an hindex of 156, co-authored 602 publications receiving 91414 citations. Previous affiliations of Richard J. Davidson include Iowa State University & French Institute of Health and Medical Research.
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Journal ArticleDOI
Individual differences in repressive-defensiveness predict basal salivary cortisol levels
Laurel L. Brown,Andrew J. Tomarken,David N. Orth,Peter T. Loosen,Ned H. Kalin,Richard J. Davidson +5 more
TL;DR: Findings suggest that both heightened distress and the inhibition of distress may be independently linked to relative elevations in cortisol.
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Impact of short- and long-term mindfulness meditation training on amygdala reactivity to emotional stimuli
Tammi R. A. Kral,Brianna S. Schuyler,Jeanette A. Mumford,Melissa A. Rosenkranz,Antoine Lutz,Richard J. Davidson +5 more
TL;DR: Meditation training may improve affective responding through reduced amygdala reactivity, and heightened amygdala–VMPFC connectivity during affective stimuli may reflect a potential mechanism by which MBSR exerts salutary effects on emotion regulation ability.
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Continuity and change in inhibited and uninhibited children.
TL;DR: The authors found that change from both inhibited and uninhibited status from the toddler age was more common than remaining extremely inhibited or uninhibited, but that change was largely constrained to the middle of the distribution.
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Tensor-Based Cortical Surface Morphometry via Weighted Spherical Harmonic Representation
TL;DR: The weighted-SPHARM is shown to be the least squares approximation to the solution of an isotropic heat diffusion on a unit sphere and to show how it can be used in the tensor-based morphometry.
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Theta phase synchrony and conscious target perception: Impact of intensive mental training
TL;DR: Elect EEG spectral analyses implicate theta phase locking in conscious target perception, and suggest that after mental training the cognitive system is more rapidly available to process new target information.