Tomasz S. Ligeza scite author profile

The locationist model of affect, which assumes separate brain structures devoted to particular discrete emotions, is currently being questioned as it has not received enough convincing experimental support. An alternative, constructionist approach suggests that our emotional states emerge from the interaction between brain functional networks, which are related to more general, continuous affective categories. In the study, we tested whether the three-dimensional model of affect based on valence, arousal, and dominance (VAD) can reflect brain activity in a more coherent way than the traditional locationist approach. Independent components of brain activity were derived from spontaneous EEG recordings and localized using the DIPFIT method. The correspondence between the spectral power of the revealed brain sources and a mood self-report quantified on the VAD space was analysed. Activation of four (out of nine) clusters of independent brain sources could be successfully explained by the specific combination of three VAD dimensions. The results support the constructionist theory of emotions.

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The dynamics of pain reappraisal: the joint contribution of cognitive change and mental load

Adamczyk

Ligeza

Wyczesany

2020

Cogn Affect Behav Neurosci

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This study was designed to investigate the neural mechanism of cognitive modulation of pain via a reappraisal strategy with high temporal resolution. The EEG signal was recorded from 29 participants who were instructed to down-regulate, up-regulate, or maintain their pain experience. The L2 minimum norm source reconstruction method was used to localize areas in which a significant effect of the instruction was present. Down-regulating pain by reappraisal exerted a robust effect on pain processing from as early as~100 ms that diminished the activity of limbic brain regions: the anterior cingulate cortex, right orbitofrontal cortex, left anterior temporal region, and left insula. However, compared with the no-regulation condition, the neural activity was similarly attenuated in the up-and down-regulation conditions. We suggest that this effect could be ascribed to the cognitive load that was associated with the execution of a cognitively demanding reappraisal task that could have produced a general attenuation of pain-related areas regardless of the aim of the reappraisal task (i.e., up-or down-regulation attempts). These findings indicate that reappraisal effects reflect the joint influence of both reappraisal-specific (cognitive change) and unspecific (cognitive demand) factors, thus pointing to the importance of cautiously selected control conditions that allow the modulating impact of both processes to be distinguished. Keywords Pain . Cognitive reappraisal . Cognitive demand . EEG source localization Highlights • Temporal aspects of cognitive modulation of pain via cognitive reappraisal are investigated.• Reappraisal showed both early (from~100 ms) and late-latency effects, with neural attenuation in both regulatory conditions. • Reappraisal effects are driven by both cognitive change and unspecific cognitive load.

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Tomasz S. Ligeza

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Towards a constructionist approach to emotions: verification of the three-dimensional model of affect with EEG-independent component analysis

The dynamics of pain reappraisal: the joint contribution of cognitive change and mental load

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