Neural-Cardiac Coupling in Threat-Evoked Anxiety

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(Journal of Cognitive Neuroscience. 2005;17:969-980.)
© 2005 The MIT Press

Neural–Cardiac Coupling in Threat-Evoked Anxiety

Kim M. Dalton, Ned H. Kalin, Thomas M. Grist and Richard J. Davidson

University of Wisconsin

Reprint requests should be sent to Kim M. Dalton or Richard J. Davidson, W. M. Keck Laboratory for Functional Brain Imaging and Behavior at the Waisman Center, University of Wisconsin, 1500 Highland Avenue, Madison, WI 53706, or via e-mail: kmdalton{at}facstaff.wisc.edu or rjdavids{at}wisc.edu.

Anxiety is a debilitating symptom of many psychiatric disordersincluding generalized anxiety disorder, mood disorders, schizophrenia,and autism. Anxiety involves changes in both central and peripheralbiology, yet extant functional imaging studies have focusedexclusively on the brain. Here we show, using functional brainand cardiac imaging in sequential brain and cardiac magneticresonance imaging (MRI) sessions in response to cues that predicteither threat (a possible shock) or safety (no possibility ofshock), that MR signal change in the amygdala and the prefrontaland insula cortices predicts cardiac contractility to the threatof shock. Participants with greater MR signal change in theseregions show increased cardiac contractility to the threat versussafety condition, a measure of the sympathetic nervous systemcontribution to the myocardium. These findings demonstrate robustneural–cardiac coupling during induced anxiety and indicatethat individuals with greater activation in brain regions identifiedwith aversive emotion show larger magnitude cardiac contractilityincreases to threat.

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