静息脑电图非周期性斜率与认知能力广泛领域之间的关联。

Psychophysiology Pub Date : 2024-06-01 Epub Date: 2024-02-28 DOI:10.1111/psyp.14543
Matthew J Euler, Julia V Vehar, Jasmin E Guevara, Allie R Geiger, Pascal R Deboeck, Keith R Lohse
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引用次数: 0

摘要

最近的研究表明,脑电图非周期性指数(通常表示为对数空间中的斜率)对选择性注意和信息处理速度等瞬间认知技能的个体差异很敏感。然而,研究结果喜忧参半,而且大多数研究都只集中在较小范围的认知领域。本研究利用一个档案数据集来帮助澄清静息非周期性特征与广泛的认知能力领域之间的关联,这些领域对瞬间处理的要求各不相同。年龄在 18-52 岁之间的本科生(人数 = 166)完成了静息脑电图检查,以及一项标准化的、由个人进行的认知能力评估,其中包括对处理速度、工作记忆、高阶视觉空间和语言技能的测量。一个子样本(n = 110)还完成了一项有三种难度的计算机化反应时间任务。数据还原分析表明,各电极的非周期性偏移和斜率之间存在很强的相关性,在闭眼和睁眼条件下,单个成分占整个头皮斜率方差的 60%。结构方程模型不支持斜率与特定领域攻丝瞬间过程之间的关系。不过,二次分析表明,睁眼斜率与较高的总体表现有关,这体现在一个单一的一般能力因子上。一个潜在的反应时间变量与闭眼和睁眼静止指数呈显著的反比关系,因此反应时间越快,斜率越陡。这些发现支持并有助于澄清静息脑电图指数与认知技能个体差异之间的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Associations between the resting EEG aperiodic slope and broad domains of cognitive ability.

Recent studies suggest that the EEG aperiodic exponent (often represented as a slope in log-log space) is sensitive to individual differences in momentary cognitive skills such as selective attention and information processing speed. However, findings are mixed, and most of the studies have focused on just a narrow range of cognitive domains. This study used an archival dataset to help clarify associations between resting aperiodic features and broad domains of cognitive ability, which vary in their demands on momentary processing. Undergraduates (N = 166) of age 18-52 years completed a resting EEG session as well as a standardized, individually administered assessment of cognitive ability that included measures of processing speed, working memory, and higher-order visuospatial and verbal skills. A subsample (n = 110) also completed a computerized reaction time task with three difficulty levels. Data reduction analyses revealed strong correlations between the aperiodic offset and slope across electrodes, and a single component accounted for ~60% of variance in slopes across the scalp, in both eyes-closed and eyes-open conditions. Structural equation models did not support relations between the slope and specific domains tapping momentary processes. However, secondary analyses indicated that the eyes-open slope was related to higher overall performance, as represented by a single general ability factor. A latent reaction time variable was significantly inversely related to both eyes-closed and eyes-open resting exponents, such that faster reaction times were associated with steeper slopes. These findings support and help clarify the relation of the resting EEG exponent to individual differences in cognitive skills.

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