The cognitive neural mechanism of trait anxiety influences mind wandering: An ERP study

Abstract

Converging evidence from behavioral and neuroscience studies demonstrated that our attention to the external world is influenced by emotion, especially anxiety. However, little is known about how trait anxiety influences neural and behavioral responses during mind wandering. The present study aimed to examine the neural and cognitive time courses of how trait anxiety affects mind wandering. Event-related potentials (ERPs) were recorded from 20 individuals with high trait anxiety and 20 with low trait anxiety when they performed the Sustained Attention to Response Task (SART) in which they were asked to respond to frequent ‘‘nontargets’’ (digits 0–6, 8–9) but withhold responses to infrequent ‘‘targets’’ (the digit 7). We compared the behavioral performance and electroencephalographic waves between the high and low trait anxiety groups during states of “mind wandering” (fail to withhold a response to the target number) and being “on-task” (correctly withhold a response to the target number). Results showed that a larger late positive component (LPC, 400–950 ms) was elicited when participants were “on task” than when they were mind wandering. Additionally, a larger late slow waveform (LSW, 950–1050 ms) was elicited in the high trait anxiety group than in the low trait anxiety group. Moreover, there was a positive correlation between self-reported trait anxiety scores and the LSW amplitudes during mind wandering. It was proposed that the effect of trait anxiety on the cognitive neural mechanism underlying attentional processing was primarily reflected in a later process involving the redistribution of cognitive resources.