Stress assessment using EEG showed significant decreases in high alpha power (11-12 Hz) and increases in high beta power (23-36 Hz) for both Stroop test and sleep deprivation, with approximate entropy values also decreasing significantly.
Observational (n=30)
No
Do the Stroop test and sleep deprivation alter EEG univariate features and functional connectivity measures in healthy volunteers?
Stressors such as the Stroop test and sleep deprivation induce consistent changes in EEG spectral power and functional connectivity, suggesting these features may serve as useful stress indices.
p-value: p=<0.05
The biological response to stress originates in the brain but involves different biochemical and physiological effects. Many common clinical methods to assess stress are based on the presence of specific hormones and on features extracted from different signals, including electrocardiogram, blood pressure, skin temperature, or galvanic skin response. The aim of this paper was to assess stress using EEG-based variables obtained from univariate analysis and functional connectivity evaluation. Two different stressors, the Stroop test and sleep deprivation, were applied to 30 volunteers to find common EEG patterns related to stress effects. Results showed a decrease of the high alpha power (11 to 12 Hz), an increase in the high beta band (23 to 36 Hz, considered a busy brain indicator), and a decrease in the approximate entropy. Moreover, connectivity showed that the high beta coherence and the interhemispheric nonlinear couplings, measured by the cross mutual information function, increased significantly for both stressors, suggesting that useful stress indexes may be obtained from EEG-based features.
Alonso et al. (Wed,) conducted a observational in Stress (n=30). Stressors (Stroop test and sleep deprivation) was evaluated on Changes in EEG patterns (high alpha power, high beta coherence, approximate entropy) (p=<0.05). Stress assessment using EEG showed significant decreases in high alpha power (11-12 Hz) and increases in high beta power (23-36 Hz) for both Stroop test and sleep deprivation, with approximate entropy values also decreasing significantly.