Impaired Recognition of Social Emotions following Amygdala Damage

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Impaired Recognition of Social Emotions following Amygdala Damage

Ralph Adolphs

University of Iowa

Simon Baron-Cohen

Cambridge University

Daniel Tranel

University of Iowa

Lesion, functional imaging, and single-unit studies in humanand nonhuman animals have demonstrated a role for the amygdalain processing stimuli with emotional and social significance.We investigated the recognition of a wide variety of facialexpressions, including basic emotions (e.g., happiness, anger)and social emotions (e.g., guilt, admiration, flirtatiousness).Prior findings with a standardized set of stimuli indicatedthat recognition of social emotions can be signaled by the eyeregion of the face and is disproportionately impaired in autism(Baron-Cohen, Wheelwright, & Jolliffe, 1997). To test thehypothesis that the recognition of social emotions depends onthe amygdala, we administered the same stimuli to 30 subjectswith unilateral amygdala damage (16 left, 14 right), 2 withbilateral amygdala damage, 47 brain-damaged controls, and 19normal controls. Compared with controls, subjects with unilateralor bilateral amygdala damage were impaired when recognizingsocial emotions; moreover, they were more impaired in recognitionof social emotions than in recognition of basic emotions, and,like previously described patients with autism, they were impairedalso when asked to recognize social emotions from the eye regionof the face alone. The findings suggest that the human amygdalais relatively specialized to process stimuli with complex socialsignificance. The results also provide further support for theidea that some of the impairments in social cognition seen inpatients with autism may result from dysfunction of the amygdala.

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