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DALIAN UNIVERSITY OF TECHNOLOGY Login 中文
Chi Zhang

Associate Professor
Supervisor of Master's Candidates


Gender:Male
Alma Mater:东北大学
Degree:Doctoral Degree
School/Department:生物医学工程学院
Discipline:Biomedical Engineering. Signal and Information Processing
E-Mail:chizhang@dlut.edu.cn
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Dissociable Effects of Reward on P300 and EEG Spectra Under Conditions of High vs. Low Vigilance During a Selective Visual Attention Task

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Indexed by:期刊论文

Date of Publication:2021-02-02

Journal:FRONTIERS IN HUMAN NEUROSCIENCE

Volume:14

ISSN No.:1662-5161

Key Words:vigilance; mental fatigue; motivation; selective visual attention; event-related potential; event-related spectral perturbation

Abstract:The influence of motivation on selective visual attention in states of high vs. low vigilance is poorly understood. To explore the possible differences in the influence of motivation on behavioral performance and neural activity in high and low vigilance levels, we conducted a prolonged 2 h 20 min flanker task and provided monetary rewards during the 20- to 40- and 100- to 120-min intervals of task performance. Both the behavioral and electrophysiological measures were modulated by prolonged task engagement. Moreover, the effect of reward was different in high vs. low vigilance states. The monetary reward increased accuracy and decreased the reaction time (RT) and number of omitted responses in the low but not in the high vigilance state. The fatigue-related decrease in P300 amplitude recovered to its level in the high vigilance state by manipulating motivation, whereas the fatigue-related increase in P300 latency was not modulated by reward. Additionally, the fatigue-related increase in event-related spectral power at 1-4 Hz was sensitive to vigilance decrement and reward. However, the spectral power at 4-8 Hz was only affected by the decrease in vigilance. These electrophysiological measures were not influenced by motivation in the state of high vigilance. Our results suggest that neural processing capacity, but not the timing of processing, is sensitive to motivation. These findings also imply that the fatigue-related impairments in behavioral performance and neural activity underlying selective visual attention only partly recover after manipulating motivation. Furthermore, our results provide evidence for the dissociable neural mechanisms underlying the fatigue-related decrease vs. reward-related increase in attentional resources.