The neurocognitive mechanism underlying math avoidance among math anxious people.

IF 3 1区心理学 Q1 EDUCATION & EDUCATIONAL RESEARCH

npj Science of Learning Pub Date : 2025-08-02 DOI:10.1038/s41539-025-00343-0

Jie Liu, Zhifeng Li, Jiawang Yang, Hao He, Fang Cui

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Abstract

This study explores the cognitive and neural mechanisms underlying math avoidance in individuals with high math anxiety (HMA), a pattern contributing to reduced practice and poor performance. Using an approach-avoid conflict paradigm and both general linear mixed model and Hierarchical Drift Diffusion Model (HDDM) regression analyses, we found their avoidance behavior is primarily driven by heightened sensitivity to task difficulty, rather than reward sensitivity. Task difficulty sensitivity also mediated the link between math anxiety and avoidance tendency. Neuroimaging revealed distinct activation in the ventral valuation network (e.g., nucleus accumbens, hippocampus) and cognitive control regions (e.g., precuneus, mid-cingulate cortex, temporo-parietal junction) in HMA individuals. Functional connectivity among these regions effectively distinguished HMA from low math anxiety participants. Additionally, activations in the hippocampus, mid-cingulate cortex, and posterior insula mediated the relationship between math anxiety and avoidance. These findings highlight the cognitive and neural bases of math avoidance and may inform targeted interventions.

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数学焦虑者数学回避的神经认知机制。

本研究探讨了高数学焦虑（HMA）个体数学回避的认知和神经机制，这种模式导致练习减少和表现不佳。采用方法-避免冲突范式以及一般线性混合模型和层次漂移扩散模型（HDDM）回归分析，我们发现他们的回避行为主要是由对任务难度的高度敏感性驱动的，而不是奖励敏感性。任务难度敏感性也在数学焦虑和回避倾向之间起中介作用。神经影像学显示，HMA个体的腹侧评估网络（如伏隔核、海马）和认知控制区域（如楔前叶、中扣带皮层、颞顶叶交界处）明显激活。这些区域之间的功能连通性有效地区分了HMA和低数学焦虑参与者。此外，海马体、中扣带皮层和后岛的激活介导了数学焦虑和逃避之间的关系。这些发现强调了数学回避的认知和神经基础，并可能为有针对性的干预提供信息。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

npj Science of Learning Multiple-

CiteScore

5.40

自引率

7.10%

发文量