Dynamics of error-related activity in deterministic learning - an EEG and fMRI study

Gawłowska, Magda; Domagalik, Aleksandra; Beldzik, Ewa; Marek, Tadeusz; Mojsa-Kaja, Justyna

doi:10.1038/s41598-018-32995-x

Cited by 10 publications

(5 citation statements)

References 56 publications

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“…Faerman & Spiegel (2021) proposed that hypnotizability involves similar cognitive mechanisms as resolving cognitive conflict and applying learned rules to new situations. Specifically, error evaluation, mediated by the anterior cingulate cortex (Gawlowska et al, 2018), and implementing logical rules, involving the posterior medial frontal cortex and caudate nucleus (Danielmeier et al, 2011;Tachibana et al, 2009), may relate to hypnotizability. Doi et al (2020) proposed the caudate nucleus (part of basal ganglia) may integrate ambiguous stimuli and reward context.…”

Section: Existing Literature On Neural Correlates Of Hypnosismentioning

confidence: 99%

Neuroimaging Evidence for Clinical Hypnosis and its Relationship with the Triple Network Model of Psychopathology: An fMRI Perspective

Bralić

2023

Preprint

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Neural correlates of hypnosis remain incompletely characterized despite recognition of its clinical utility. Examining functional connectivity changes in large-scale brain networks during hypnosis can provide insights into cognitive control, dissociation, and self-awareness. This study aimed to review fMRI studies of hypnosis, qualitatively synthesize evidence regarding its impact on brain network connectivity, and offer recommendations for future research by identifying inconsistencies in existing literature and methodology. PubMed, PsycINFO, Scopus and Web of Science and other databases were searched for fMRI studies on hypnosis. Peer-reviewed articles written in English were screened against eligibility criteria. 35 experimental studies met inclusion criteria (n=689 participants). The review found heterogeneous effects on network connectivity during hypnosis, with both increased and decreased connectivity reported depending on suggestions used. Evidence indicates potential therapeutic effects for pain and anxiety, but overall direct clinical support was limited. Preliminary findings suggest hypnosis impacts connectivity between salience/executive control networks, enhancing top-down regulation of interoception and affect. Reduced connectivity was reported within default mode regions involved in internal mentation like the posterior cingulate cortex and precuneus. While the literature exhibits variability in protocols and results, findings indicate that hypnosis exerts top-down influence on internal mentation, attentional control, and emotional processing through altering functional interactions between cortical and subcortical brain regions. Inconsistencies arising from methodological variations and study heterogenity constrain definitive conclusions. Addressing these limitations through standardized protocols and comparisons based on universal large scale brain network taxonomy would strengthen the evidence for neural signature of hypnosis and enhance its applicability in various contexts.

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Section: Existing Literature On Neural Correlates Of Hypnosismentioning

confidence: 99%

Neuroimaging Evidence for Clinical Hypnosis and its Relationship with the Triple Network Model of Psychopathology: An fMRI Perspective

Bralić

2023

Preprint

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“…For ERN analysis, amplitudes of each participant ERP were obtained from electrodes FFCz, FCCz, and CCPz according to a 5% electrode system (Oostenveld and Praamstra, 2001) using a trough to peak method (Wessel and Ullsperger, 2011;Gawlowska et al, 2018). We chose FFCz, FCCz, and CCPz because they are the electrodes closest to Fz, Cz, and Pz, the electrodes which frequently chosen in ERN analysis.…”

Section: Event-related Potential Datamentioning

confidence: 99%

Measuring Task-Related Brain Activity With Event-Related Potentials in Dynamic Task Scenario With Immersive Virtual Reality Environment

Arake

Ohta

Tsuruhara³

et al. 2022

Front. Behav. Neurosci.

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Measurement of event-related potentials (ERPs) in simulated and real environments is advantageous for understanding cognition and behavior during practice of goal-directed activities. Recently, instead of using task-irrelevant “probe stimuli” to elicit ERPs, extraction of ERPs directly from events that occur in simulated and real environments has drawn increased attention. Among the previous ERP studies using immersive virtual reality, only a few cases elicited ERPs from task-related events in dynamic task settings. Furthermore, as far as we surveyed, there were no studies that examined the source of ERPs or correlation between ERPs and behavioral performance in 360-degree immersive virtual reality using head-mounted display. In this study, EEG signals were recorded from 16 participants while they were playing the first-person shooter game with immersive virtual reality environment. Error related negativity (ERN) and correct-(response)-related negativity (CRN) elicited by shooting-related events were successfully extracted. We found the ERN amplitudes to be correlated with the individual shooting performance. Interestingly, the main source of the ERN was the rostral anterior cingulate cortex (ACC), which is different from previous studies where the signal source was often estimated to be the more caudal part of ACC. The obtained results are expected to contribute to the evaluation of cognitive functions and behavioral performance by ERPs in a simulated environment.

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“…Subsequently, for the second level of analysis, the first-level contrast images, along with the dispersion and temporal derivatives, were subjected to extraction of amplitude measures from the basis sets [122][123][124][125][126] . The robust regression toolbox 127 was used to conduct group-level random-effects analysis.…”

Section: Assessment Of Neural Mechanisms Associated With Functional Hmentioning

confidence: 99%

Microstates-based resting frontal alpha asymmetry approach for understanding affect and approach/withdrawal behavior

Kaur

Chinnadurai

Chaujar

2020

Sci Rep

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The role of resting frontal alpha-asymmetry in explaining neural-mechanisms of affect and approach/ withdrawal behavior is still debatable. the present study explores the ability of the quasi-stable resting EEG asymmetry information and the associated neurovascular synchronization/desynchronization in bringing more insight into the understanding of neural-mechanisms of affect and approach/withdrawal behavior. For this purpose, a novel frontal alpha-asymmetry based on microstates, that assess quasi-stable EEG scalp topography information, is proposed and compared against standard frontalasymmetry. Both proposed and standard frontal alpha-asymmetries were estimated from thirty-nine healthy volunteers resting-EEG simultaneously acquired with resting-fMRI. Further, neurovascular mechanisms of these asymmetry measures were estimated through EEG-informed fMRI. Subsequently, the Hemodynamic Lateralization index (HLi) of the neural-underpinnings of both asymmetry measures was assessed. Finally, the robust correlation of both asymmetry-measures and their HLI's with PANAS, BIS/BAS was carried out. The standard resting frontal-asymmetry and its HLI yielded no significant correlation with any psychological-measures. However, the microstate resting frontal-asymmetry correlated significantly with negative affect and its neural underpinning's HLI significantly correlated with Positive/Negative affect and BIS/BAS measures. Finally, alpha-BOLD desynchronization was observed in neural-underpinning whose HLI correlated significantly with negative affect and BIS. Hence, the proposed resting microstate-frontal asymmetry better assesses the neural-mechanisms of affect, approach/withdrawal behavior.

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Dynamics of error-related activity in deterministic learning - an EEG and fMRI study

Cited by 10 publications

References 56 publications

Neuroimaging Evidence for Clinical Hypnosis and its Relationship with the Triple Network Model of Psychopathology: An fMRI Perspective

Neuroimaging Evidence for Clinical Hypnosis and its Relationship with the Triple Network Model of Psychopathology: An fMRI Perspective

Measuring Task-Related Brain Activity With Event-Related Potentials in Dynamic Task Scenario With Immersive Virtual Reality Environment

Microstates-based resting frontal alpha asymmetry approach for understanding affect and approach/withdrawal behavior

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