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Abstract
Dynamic and temporal facets of the various constructs that comprise motivation remain to be explored. Here, we adapted the Effort Expenditure for Reward Task, a well-known laboratory task used to evaluate motivation, to study the event-related potentials associated with reward processing. The Stimulus Preceding Negativity (SPN) and the P300 were utilized as motivation indicators with high density electroencephalography. The SPN was found to be more negative for difficult choices compared to easy choices, suggesting a greater level of motivation, at a neurophysiological level. The insula, a structure previously associated with both effort discounting and prediction error, was concomitantly activated during the generation of the SPN. Processing a gain significantly altered the amplitude of the P300 compared to an absence of gain, particularly on centroparietal electrodes. One of the generators of the P300 was located on the vmPFC, a cerebral structure involved in the choice between two positive results and their predictions, during loss processing. Both the SPN and the P300 appear to be reliable neural markers of motivation. We postulate that the SPN represents the strength of the motivational level, while the P300 represents the impact of motivation on updating memories of the feedback.
Highlights
Motivation is a concept composed of various constructs such as goals, self-schemas, and interests [1]
The primary goal of the current study was to explore the neural dynamic of motivation using an Stimulus Preceding Negativity (SPN) and P300 may be reliable markers of motivation, the present study aimed to confirm this notion adaption of the Expenditure for Rewards Task (EEfRT) on the analysis of event-related potentials (ERP)
Based on previous studies suggesting that both the SPN and P300 may be reliable markers of motivation, the present study aimed to confirm this notion by evaluating their time course as well as the direct relationship between these ERPs and the physical effort made to obtain a reward
Summary
We aimed to assess the relationship between behavioral and. We aimed to assess the relationship between behavioral and electrophysiological motivational data. The primary goal of the current study was to explore the neural dynamic of motivation using an
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