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Long-term stress and trait anxiety affect brain network balance in dynamic cognitive computations

Liangying Liu, Jianhui Wu, Haiyang Geng, Chao Liu, Yuejia Luo, Jing Luo, Shaozheng Qin

2021Cerebral Cortex30 citationsDOI

Abstract

Long-term stress has a profound impact on executive functions. Trait anxiety is recognized as a vulnerable factor accounting for stress-induced adaptive or maladaptive effects. However, the neurocognitive mechanisms underlying long-term stress and trait anxiety interactions remain elusive. Here we investigated how long-term stress and trait anxiety interact to affect dynamic decisions during n-back task performance by altering functional brain network balance. In comparison to controls, participants under long-term stress experienced higher psychological distress and exhibited faster evidence accumulation but had a lower decision-threshold when performing n-back tasks in general. This corresponded with hyper-activation in the anterior insula, less deactivation in the default-mode network, and stronger default-mode network decoupling with the frontoparietal network. Critically, high trait anxiety under long-term stress led to slower evidence accumulation through higher frontoparietal activity during cognitively demanding task, and increased decoupling between the default-mode and frontoparietal networks. Our findings suggest a neurocognitive model of how long-term stress and trait anxiety interplay to affect latent dynamic computations in executive functioning with adaptive and maladaptive changes, and inform personalized assessments and preventions for stress vulnerability.

Topics & Concepts

NeurocognitivePsychologyDefault mode networkAnxietyAffect (linguistics)CognitionCognitive psychologyTraitDistressInsulaDevelopmental psychologyNeuroscienceClinical psychologyPsychiatryCommunicationComputer scienceProgramming languageFunctional Brain Connectivity StudiesMental Health Research TopicsStress Responses and Cortisol
Long-term stress and trait anxiety affect brain network balance in dynamic cognitive computations | Litcius