Browsing by Author "Schug, Robert A."
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Item Alpha-amylase reactivity in relation to psychopathic traits in adults(Pergamon, 2015) Glenn, Andrea L.; Remmel, Rheanna J.; Raine, Adrian; Schug, Robert A.; Gao, Yu; Granger, Douglas A.; University of Alabama Tuscaloosa; University of Pennsylvania; California State University System; California State University Long Beach; City University of New York (CUNY) System; Brooklyn College (CUNY); Arizona State University; Arizona State University-Tempe; Johns Hopkins University; Johns Hopkins Bloomberg School of Public HealthRecent investigations of the psychobiology of stress in antisocial youth have benefited from a multi-system measurement model. The inclusion of salivary alpha-amylase (sAA), a surrogate marker of autonomic/sympathetic nervous system (ANS) activity, in addition to salivary cortisol, a biomarker of the hypothalamic pituitary adrenal (HPA) axis functioning, has helped define a more complete picture of individual differences and potential dysfunction in the stress response system of these individuals. To the authors' knowledge, no studies have examined sAA in relation to antisocial behavior in adults or in relation to psychopathic traits specifically. In the present study, we examined sAA, in addition to salivary cortisol, in a relatively large sample (n=158) of adult males (M age=36.81, range = 22-67 years; 44% African American, 34% Caucasian, 16% Hispanic) recruited from temporary employment agencies with varying levels of psychopathic traits. Males scoring highest in psychopathy were found to have attenuated sAA reactivity to social stress compared to those scoring tower in psychopathy. No differential relationships with the different factors of psychopathy were observed. In contrast to studies of antisocial youth, there were no interactions between sAA and cortisol levels in relation to psychopathy, but there was a significant interaction between pre-stressor levels of sAA and cortisol. Findings reveal potential regulatory deficits in the fast-acting, 'fight or flight', component of the stress response in adult males with psychopathic traits, as well as abnormalities in how this system may interact with the HPA axis. (C) 2015 Elsevier Ltd. All rights reserved.Item Associations between psychopathic traits and brain activity during instructed false responding(Elsevier, 2017) Glenn, Andrea L.; Han, Hyemin; Yang, Yaling; Raine, Adrian; Schug, Robert A.; University of Alabama Tuscaloosa; Children's Hospital Los Angeles; University of Pennsylvania; California State University System; California State University Long BeachLying is one of the characteristic features of psychopathy, and has been recognized in clinical and diagnostic descriptions of the disorder, yet individuals with psychopathic traits have been found to have reduced neural activity in many of the brain regions that are important for lying. In this study, we examine brain activity in sixteen individuals with varying degrees of psychopathic traits during a task in which they are instructed to falsify information or tell the truth about autobiographical and non-autobiographical facts, some of which was related to criminal behavior. We found that psychopathic traits were primarily associated with increased activity in the anterior cingulate, various regions of the prefrontal cortex, insula, angular gyrus, and the inferior parietal lobe when participants falsified information of any type. Associations tended to be stronger when participants falsified information about criminal behaviors. Although this study was conducted in a small sample of individuals and the task used has limited ecological validity, these findings support a growing body of literature suggesting that in some contexts, individuals with higher levels of psychopathic traits may demonstrate heightened levels of brain activity.Item The Neurobiology of Psychopathy: A Neurodevelopmental Perspective(Sage, 2009) Gao, Yu; Glenn, Andrea L.; Schug, Robert A.; Yang, Yaling; Raine, Adrian; University of Pennsylvania; University of Alabama TuscaloosaWe provide an overview of the neurobiological underpinnings of psychopathy. Cognitive and affective-emotional processing deficits are associated with abnormal brain structure and function, particularly the amygdala and orbitofrontal cortex. There is limited evidence of lower cortisol levels being associated with psychopathic personality. Initial developmental research is beginning to Suggest that these neurobiological processes may have their origins early in life. Findings suggest that psychopathic personality may, in part, have a neurodevelopmental basis. Future longitudinal studies delineating neurobiological correlates of the analogues of interpersonal-affective and antisocial features of psychopathy in children are needed to further substantiate a neurodevelopmental hypothesis of psychopathy.