Fronto-temporal connectivity predicts cognitive empathy deficits and experiential negative symptoms in schizophrenia

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Abstract

Impaired cognitive empathy is a core social cognitive deficit in schizophrenia associated with negative symptoms and social functioning. Cognitive empathy and negative symptoms have also been linked to medial prefrontal and temporal brain networks. While shared behavioral and neural underpinnings are suspected for cognitive empathy and negative symptoms, research is needed to test these hypotheses. In two studies, we evaluated whether resting‐state functional connectivity between data‐driven networks, or components (referred to as, inter‐component connectivity ), predicted cognitive empathy and experiential and expressive negative symptoms in schizophrenia subjects. Study 1 : We examined associations between cognitive empathy and medial prefrontal and temporal inter‐component connectivity at rest using a group‐matched schizophrenia and control sample. We then assessed whether inter‐component connectivity metrics associated with cognitive empathy were also related to negative symptoms. Study 2 : We sought to replicate the connectivity‐symptom associations observed in Study 1 using an independent schizophrenia sample. Study 1 results revealed that while the groups did not differ in average inter‐component connectivity, a medial‐fronto‐temporal metric and an orbito‐fronto‐temporal metric were related to cognitive empathy. Moreover, the medial‐fronto‐temporal metric was associated with experiential negative symptoms in both schizophrenia samples. These findings support recent models that link social cognition and negative symptoms in schizophrenia. Hum Brain Mapp 38:1111–1124, 2017 . © 2016 Wiley Periodicals, Inc.

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The role of the medial frontal cortex in cognitive control.

K. Ridderinkhof, Markus Ullsperger, Eveline A. Crone … (2004)

Adaptive goal-directed behavior involves monitoring of ongoing actions and performance outcomes, and subsequent adjustments of behavior and learning. We evaluate new findings in cognitive neuroscience concerning cortical interactions that subserve the recruitment and implementation of such cognitive control. A review of primate and human studies, along with a meta-analysis of the human functional neuroimaging literature, suggest that the detection of unfavorable outcomes, response errors, response conflict, and decision uncertainty elicits largely overlapping clusters of activation foci in an extensive part of the posterior medial frontal cortex (pMFC). A direct link is delineated between activity in this area and subsequent adjustments in performance. Emerging evidence points to functional interactions between the pMFC and the lateral prefrontal cortex (LPFC), so that monitoring-related pMFC activity serves as a signal that engages regulatory processes in the LPFC to implement performance adjustments.

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Record: found
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The functional architecture of human empathy.

Jean Decety, Philip Jackson (2004)

Empathy accounts for the naturally occurring subjective experience of similarity between the feelings expressed by self and others without loosing sight of whose feelings belong to whom. Empathy involves not only the affective experience of the other person's actual or inferred emotional state but also some minimal recognition and understanding of another's emotional state. In light of multiple levels of analysis ranging from developmental psychology, social psychology, cognitive neuroscience, and clinical neuropsychology, this article proposes a model of empathy that involves parallel and distributed processing in a number of dissociable computational mechanisms. Shared neural representations, self-awareness, mental flexibility, and emotion regulation constitute the basic macrocomponents of empathy, which are underpinned by specific neural systems. This functional model may be used to make specific predictions about the various empathy deficits that can be encountered in different forms of social and neurological disorders.