Institute of Psychology, Friedrich Schiller University of Jena, Jena, Germany.
Institute of Psychology, Julius Maximilians University of Würzburg, Würzburg, Germany.
Psychophysiology. 2018 Oct;55(10):e13210. doi: 10.1111/psyp.13210. Epub 2018 Jun 20.
In this study, we address the effect of anxiety measured with the State-Trait Anxiety Inventory (STAI) on EEG and risk decisions. We selected 20 high and 20 low anxious participants based on their STAI trait scores in the upper or lower quartile of the norm distribution and implemented a risk game developed in our laboratory. We investigate if high anxious individuals exert more cognitive control, reflected in higher frontal midline theta (FMT) power when they make a risky decision, and if they act less risky compared to low anxious individuals. Participants played a risk game while we recorded their brain responses via EEG. High anxious participants played less risky compared to low anxious participants. Further, high anxious participants showed higher FMT power immediately before they chose one of two risk options, suggesting higher cognitive control during the decision time compared to low anxious participants. Via a mediation analysis, we show that the effect of anxiety on risk behavior is fully mediated by FMT power. Further, questionnaire responses revealed that high anxious participants rated risk situations as riskier compared to low anxious participants. We conclude that anxious individuals perceive risky situations as riskier and thus exert more cognitive control during their risk choices, reflected in higher FMT power, which leads to less risky decisions.
在这项研究中,我们研究了状态-特质焦虑量表(STAI)测量的焦虑对 EEG 和风险决策的影响。我们根据 STAI 特质分数在正态分布的上四分位数或下四分位数选择了 20 名高焦虑和 20 名低焦虑参与者,并实施了我们实验室开发的风险游戏。我们研究了高焦虑个体在做出风险决策时是否会施加更多的认知控制,表现为额中线 theta(FMT)功率更高,以及与低焦虑个体相比,他们是否会采取更少的风险行为。参与者在玩风险游戏时,我们通过 EEG 记录他们的大脑反应。与低焦虑参与者相比,高焦虑参与者的风险行为较少。此外,高焦虑参与者在选择两个风险选项之一之前表现出更高的 FMT 功率,这表明他们在决策时间内的认知控制更高。通过中介分析,我们表明焦虑对风险行为的影响完全由 FMT 功率介导。此外,问卷回答显示,高焦虑参与者认为风险情况比低焦虑参与者更具风险。我们得出结论,焦虑个体认为风险情况更具风险,因此在风险选择过程中施加更多的认知控制,表现为更高的 FMT 功率,从而做出更安全的决策。
