4.5 Article

An Action-Independent Role for Midfrontal Theta Activity Prior to Error Commission

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FRONTIERS IN HUMAN NEUROSCIENCE
卷 16, 期 -, 页码 -

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FRONTIERS MEDIA SA
DOI: 10.3389/fnhum.2022.805080

关键词

error-monitoring; performance monitoring; midfrontal theta; pre-error neuronal patterns; post-error neuronal patterns

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This study aims to investigate the pre- and post-error EEG patterns and the neuronal mechanisms leading to erroneous actions. The study found significant differences in reaction time, number, and type of errors between different types of motor responses. Both saccadic responses and keypress responses led to similar EEG patterns, supporting previous evidence. Additionally, the study found pre-error decreased theta activity independent of the type of action. Source analysis results suggested different brain regions as the origin of these pre- and post-error patterns.
Error-related electroencephalographic (EEG) signals have been widely studied concerning the human cognitive capability of differentiating between erroneous and correct actions. Midfrontal error-related negativity (ERN) and theta band oscillations are believed to underlie post-action error monitoring. However, it remains elusive how early monitoring activity is trackable and what are the pre-response brain mechanisms related to performance monitoring. Moreover, it is still unclear how task-specific parameters, such as cognitive demand or motor control, influence these processes. Here, we aimed to test pre- and post-error EEG patterns for different types of motor responses and investigate the neuronal mechanisms leading to erroneous actions. We implemented a go/no-go paradigm based on keypresses and saccades. Participants received an initial instruction about the direction of response to be given based on a facial cue and a subsequent one about the type of action to be performed based on an object cue. The paradigm was tested in 20 healthy volunteers combining EEG and eye tracking. We found significant differences in reaction time, number, and type of errors between the two actions. Saccadic responses reflected a higher number of premature responses and errors compared to the keypress ones. Nevertheless, both led to similar EEG patterns, supporting previous evidence for increased ERN amplitude and midfrontal theta power during error commission. Moreover, we found pre-error decreased theta activity independent of the type of action. Source analysis suggested different origin for such pre- and post-error neuronal patterns, matching the anterior insular cortex and the anterior cingulate cortex, respectively. This opposite pattern supports previous evidence of midfrontal theta not only as a neuronal marker of error commission but also as a predictor of action performance. Midfrontal theta, mostly associated with alert mechanisms triggering behavioral adjustments, also seems to reflect pre-response attentional mechanisms independently of the action to be performed. Our findings also add to the discussion regarding how salience network nodes interact during performance monitoring by suggesting that pre- and post-error patterns have different neuronal sources within this network.

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