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Free keywords:
PERSEVERATIVE COGNITION; CORTISOL RESPONSES; MOOD CHANGES; HEART-RATE;
BRAIN; SENSITIZATION; TSST; HYDROCORTISONE; INDIVIDUALS; ADAPTATIONNeurosciences & Neurology; Radiology, Nuclear Medicine & Medical Imaging; cortisol; fMRI; habituation; HPA axis; representational similarity;
stress;
Abstract:
Acute and chronic stress are important factors in the development of mental disorders. Reliable measurement of stress reactivity is therefore pivotal. Critically, experimental induction of stress often involves multiple "hits" and it is an open question whether individual differences in responses to an earlier stressor lead to habituation, sensitization, or simple additive effects on following events. Here, we investigated the effect of the individual cortisol response to intravenous catheter placement (IVP) on subsequent neural, psychological, endocrine, and autonomous stress reactivity. We used an established psychosocial stress paradigm to measure the acute stress response (Stress) and recovery (PostStress) in 65 participants. Higher IVP-induced cortisol responses were associated with lower pulse rate increases during stress recovery (b= -4.8 bpm,p= .0008) and lower increases in negative affect after the task (b= -4.2,p= .040). While the cortisol response to IVP was not associated with subsequent specific stress-induced neural activation patterns, the similarity of brain responsesPre-andPostStresswas higher IVP-cortisol responders (t[64] = 2.35,p= .022) indicating faster recovery. In conclusion, preparatory stress induced by IVP reduced reactivity in a subsequent stress task by modulating the latency of stress recovery. Thus, an individually stronger preceding release of cortisol may attenuate a second physiological response and perceived stress suggesting that relative changes, not absolute levels are crucial for stress attribution. Our study highlights that considering the entire trajectory of stress induction during an experiment is important to develop reliable individual biomarkers.
