Cognitive reappraisal plays an important role in individuals' mental health and adaptation and depends on individual differences in emotion differentiation. However, it is unclear how individual differences in emotion differentiation modulate the electrocortical dynamics of cognitive reappraisal. To this end, we employed event-related potentials (ERPs) and source analysis to characterize temporal dynamics and cortical functions of cognitive reappraisal related with positive emotion differentiation. The electroencephalogram (EEG) data from 36 participants (aged 18-25 years) were recorded when they were required to view neutral, pleasant emotional stimuli, or positively reappraise neutral emotional stimuli. Results showed that, compared with the individuals with low positive emotion differentiation, the individuals with high positive emotion differentiation presented larger late positive potential (LPP) amplitude enhancement during positive reappraisal. Source analysis further found that individuals with high positive emotion differentiation exhibited more activations in the middle frontal gyrus (Brodmann area [BA] 11), superior temporal gyrus (BA 38), and inferior frontal gurus (BA 47) when they implemented cognitive reappraisal as compared with their counterparts. Our findings deepen our understanding of the dynamic cortical organization of how positive emotion differentiation impacts cognitive reappraisal and informs cognitive reappraisal interventions for individuals with low emotion differentiation.
Keywords: ERP; cognitive reappraisal; emotion differentiation; late positive potential; source analysis.
© 2020 Society for Psychophysiological Research.