Modulation of autonomic responses to cognitive tasks under acute mental stress
Stefania Coelli, Matteo De Tommaso, Pierluigi Reali, Rossana Actis-Grosso, Anna M. Bianchi

TL;DR
This study explores how acute mental stress affects the autonomic nervous system during cognitive tasks using physiological signals like ECG and EDA.
Contribution
The study introduces a multimodal approach combining ECG, EDA, and respiratory data to better understand acute stress responses.
Findings
Linear HRV and respiratory parameters changed significantly during cognitive tasks compared to rest.
Nonlinear HRV and EDA indices showed more task-specific modulations.
Phasic EDA amplitude, RSA, HRV sample entropy, and mean breathing period were key features distinguishing tasks from rest.
Abstract
Acute mental stress activates the autonomic nervous system (ANS), modulating physiological parameters. To assess the ANS response, we collected multimodal physiological signals, including electrocardiogram (ECG), electrodermal activity (EDA), and respiratory activity from healthy participants. The experimental protocol was designed to induce a high stress level in one group (STRESS) and low stress in the other (CONTROL), undergoing the same cognitive tasks. Heart rate variability (HRV) indices, parameters from respiratory activity and EDA were computed and analyzed. First, the effect of the proposed stress manipulation on the ANS was assessed, showing that linear HRV and respiratory parameters significantly changed during cognitive tasks with respect to rest in both the groups, mainly when respiration activity was integrated in the analysis. Nonlinear HRV parameters and EDA-based…
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Taxonomy
TopicsHeart Rate Variability and Autonomic Control · Emotion and Mood Recognition · Non-Invasive Vital Sign Monitoring
