Sensorimotor Simulation's Influence on Stress: EEG and Autonomic Responses in Digital Interviews.
Michela BalconiLaura AngiolettiKatia RovelliPublished in: Brain sciences (2024)
This study explored the role of sensorimotor simulation in modulating the stress response in individuals exposed to stressful digital simulated interviews. Participants were assigned to two different versions of a Digital Social Stress Test: a simulated version with a dynamic-realistic examining committee (Dyn-DSST) and a version with a static examining committee (Stat-DSST). During interview preparation, behavioral indices reflecting stress regulation and resistance, response times, and electroencephalographic (EEG) and autonomic indices were collected. Higher regulation scores were found for the Stat-DSST group compared to the Dyn-DSST group, probably induced by the presence of limited external sensory input in time and space, perceived as less stressful. The EEG results revealed a distinct contribution of the low- and high-frequency bands for both groups. Dyn-DSST required greater cognitive regulation effort due to the presence of a continuous flow of information, which can enhance sensory and motor activation in the brain. The SCR increased in the Dyn-DSST group compared to the Stat-DSST group, reflecting greater emotional involvement in the Dyn-DSST group and reduced sensory stimulation in the static version. In conclusion, the results suggest that sensorimotor simulation impacts the stress response differently in dynamic interviews compared to static ones, with distinct profiles based on behavioral, EEG, and autonomic measures.
Keyphrases
- functional connectivity
- resting state
- high frequency
- working memory
- heart rate variability
- cell proliferation
- heart rate
- mental health
- psychometric properties
- healthcare
- transcranial magnetic stimulation
- virtual reality
- multiple sclerosis
- high resolution
- health information
- blood brain barrier
- subarachnoid hemorrhage
- mass spectrometry
- cerebral ischemia