Abstract
Functional neuroimaging of social stress induction has considerably furthered our understanding of the neural risk architecture of stress‐related mental disorders. However, broad application of existing neuroimaging stress paradigms is challenging, among others due to the relatively high intensity of the employed stressors, which limits applications in patients and longitudinal study designs. Here, we introduce a less intense neuroimaging stress paradigm in which subjects anticipate, prepare, and give speeches under simulated social evaluation without harsh investigator feedback or provoked performance failures (IMaging Paradigm for Evaluative Social Stress, IMPRESS). We show that IMPRESS significantly increases perceived arousal as well as adrenergic (heart rate, pupil diameter, and blood pressure) and hormonal (cortisol) responses. Amygdala and perigenual anterior cingulate cortex (pACC), two key regions of the emotion and stress regulatory circuitry, are significantly engaged by IMPRESS. We further report associations of amygdala and pACC responses with measures of adrenergic arousal (heart rate, pupil diameter) and social environmental risk factors (adverse childhood experiences, urban living). Our data indicate that IMPRESS induces benchmark psychological and endocrinological responses to social evaluative stress, taps into core neural circuits related to stress processing and mental health risk, and is promising for application in mental illness and in longitudinal study designs.
Highlights
The sympathetic nervous system and the hypothalamic–pituitary– adrenal (HPA) axis elicit evolutionarily conserved responses to stress, including increases in heart rate, pupil diameter, blood pressure, and cortisol levels, aiming at mobilizing resources to overcome the perceived threat (Ulrich-Lai & Herman, 2009)
Chronic social stress exposure has been linked (a) to stress-related psychiatric disorders including for example, depression, anxiety disorders, eating disorders, and psychosis (Hailes, Yu, Danese, & Fazel, 2019) and (b) to structural and functional alterations in brain regions involved in threat appraisal and emotion regulation, in particular in the amygdala and perigenual anterior cingulate cortex
This is in line with current models proposing deficient top-down regulation of the amygdala by perigenual anterior cingulate cortex (pACC) in subjects with chronic stress exposure, which may lead to overactivation of the amygdala and increased stress-related responses, as well as compensatory pACC overactivation and eventually blunted cortisol responses (McEwen, 2004; Pezawas et al, 2005; Ulrich-Lai & Herman, 2009; Zorn et al, 2017)
Summary
The sympathetic nervous system and the hypothalamic–pituitary– adrenal (HPA) axis elicit evolutionarily conserved responses to stress, including increases in heart rate, pupil diameter, blood pressure, and cortisol levels, aiming at mobilizing resources to overcome the perceived threat (Ulrich-Lai & Herman, 2009). The deception component inherent to the provoked performance failures and negative performance feedback requires a thorough debriefing of participants at the end of the task, which makes repeated administration of these paradigms in longitudinal study designs impractical These challenges can be addressed by avoiding any feedback and performance control aspects in the task and instead focus on stress experiences induced by the anticipation of (Tillfors, Furmark, Marteinsdottir, & Fredrikson, 2002), preparation for (Wager, van Ast, et al, 2009; Wager, Waugh, et al, 2009), or processing of (Tillfors et al, 2001) social evaluation during public speaking. We aimed to replicate our previous findings, that is, positive associations of (a) current urban living with increased amygdala activity and (b) urban upbringing with increased pACC activity during social stress processing (Lederbogen et al, 2011)
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