Abstract
BackgroundFatigue can be classified as mental and physical depending on its cause, and each type of fatigue has a multi-factorial nature. We examined the effect of mental fatigue on the central nervous system using electroencephalography (EEG) in eighteen healthy male volunteers.MethodsAfter enrollment, subjects were randomly assigned to two groups in a single-blinded, crossover fashion to perform two types of mental fatigue-inducing experiments. Each experiment consisted of four 30-min fatigue-inducing 0- or 2-back test sessions and two evaluation sessions performed just before and after the fatigue-inducing sessions. During the evaluation session, the participants were assessed using EEG. Eleven electrodes were attached to the head skin, from positions F3, Fz, F4, C3, Cz, C4, P3, Pz, P4, O1, and O2.ResultsIn the 2-back test, the beta power density on the Pz electrode and the alpha power densities on the P3 and O2 electrodes were decreased, and the theta power density on the Cz electrode was increased after the fatigue-inducing mental task sessions. In the 0-back test, no electrodes were altered after the fatigue-inducing sessions.ConclusionsDifferent types of mental fatigue produced different kinds of alterations of the spontaneous EEG variables. Our findings provide new perspectives on the neural mechanisms underlying mental fatigue.
Highlights
Fatigue can be classified as mental and physical depending on its cause, and each type of fatigue has a multi-factorial nature
Visual analogue scale (VAS) scores of general and mental fatigue were significantly increased after the 0- and 2-back test sessions
As for the ECG variables, the low-frequency power (LF)/high-frequency power (HF) ratio was increased after the 2-back test sessions this ratio was not altered after the 0-back test sessions
Summary
Fatigue can be classified as mental and physical depending on its cause, and each type of fatigue has a multi-factorial nature. Results: In the 2-back test, the beta power density on the Pz electrode and the alpha power densities on the P3 and O2 electrodes were decreased, and the theta power density on the Cz electrode was increased after the fatigue-inducing mental task sessions. In the 0-back test, no electrodes were altered after the fatigue-inducing sessions. Fatigue is one of contributing factors for various medical conditions such as cardiovascular diseases [2], epileptic seizures [3], and Karoshi (death from overwork) [4]. It would be of great interest to clarify the mechanisms underlying fatigue and to develop efficient methods for overcoming it. The neural mechanisms of fatigue are not well understood
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