The effects of exercise on cognitive abilities have been studied. However, evidence regarding the neural substrates of sad emotion regulation is limited. Women have higher rates for affective disorders than men, but insufficient outcomes assess how aerobic exercises modulate central frontal activation in sad emotion inhibition and resilience among healthy women. This study investigated the effects of aerobic exercise-related brain activity on sad emotion inhibition processing in young women. Sad facial Go/No-Go and neutral Go/No-Go trials were conducted among 30 healthy young women to examine the changes in the N2 component, which reflects frontal inhibition responses, between pre-exercise and post-exercise periods. The first test was performed before aerobic exercise (baseline; 1st) and the second test was performed during an absolute rest period of 90 min after exercise. The sad No-Go stimuli that evoked N200 (N2) event-related potential were recorded and analyzed. The results showed that in the sad No-Go trials, N2 activation at the central-prefrontal cortex was significantly attenuated after exercise compared to the baseline N2 activation. Exercise-modulated N2 activation was not observed in the neutral No-Go trials. The behavioral error rates of sad No-Go trials did not differ between the two experiments. A reduced engagement of central-frontal activation to sad No-Go stimuli was shown after exercise. However, behavioral performance was consistent between the two measurements. The findings scope the benefits of the aerobic exercise on the neural efficiency in responding to sad emotion-eliciting cues as well as adaptive transitions reinstatement for regulatory capabilities in healthy young women.
Background: The perimenopausal period is associated with higher risk for various mood disorders. Resting-state EEG (rsEEG) brain oscillatory activity has been associated with various neuropsychological disorders and behaviors but has not been assessed in perimenopausal women. Aim: This study aimed to evaluate quantitative relationships between psychometric properties and rsEEG rhythms (δ, θ, α, and γ powers) in perimenopausal women. Methods: A cross-sectional correlational descriptive study was conducted to quantitatively analyze the correlations among rsEEG low to high band activity (δ, θ, α, and γ powers) and psychometric properties for 14 perimenopausal women. Participants completed a psychological inventory comprised of a State Anxiety Inventory (SAI), Depression Inventory (DI), Behavioral Inhibition Scale (BIS), and short-form UPPS Impulsive Behavior Scale (IS) before EEG recording. Results: Results showed that impulsivity was positively related to the β power, symmetrical at most channels (frontal, temporal, central, parietal, and occipital regions; p <.05), but did not relate to the δ, θ, α, and γ powers. The brainwave low to high bands, δ, θ, α, β, and γ power, were not associated with DI, SAI, or BIS scores. Conclusions: This study’s findings suggest that significantly enhanced resting-state beta activity is a trait marker of impulsivity in perimenopausal women. This finding has potential implications for preclinical or clinical evaluation of perimenopausal women.
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