Evaluating cognitive decline detection in aging populations with single-channel EEG features based on two studies and meta-analysis.

IF 3.9 2区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Scientific Reports Pub Date : 2025-07-15 DOI:10.1038/s41598-025-10983-2

Lior Molcho, Neta B Maimon, Talya Zeimer, Ofir Chibotero, Sarit Rabinowicz, Vered Armoni, Noa Bar On, Nathan Intrator, Ady Sasson

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Abstract

Timely detection of cognitive decline is paramount for effective intervention, prompting researchers to leverage EEG pattern analysis, focusing particularly on cognitive load, to establish reliable markers for early detection and intervention. This comprehensive report presents findings from two studies and a meta-analysis, involving a total of 237 senior participants, aimed at investigating cognitive function in aging populations. In the first study, 80 seniors were classified into two groups: 40 healthy individuals (MMSE > 28) and 40 at risk of cognitive impairment (MMSE 24-27). Dimensionality reduction models, such as Lasso and Elastic Net, were employed to analyze EEG features correlated with MMSE scores. These models achieved a sensitivity of 0.90 and a specificity of 0.57, indicating a robust capability for detecting cognitive decline. The second study involved 77 seniors, divided into three groups: 30 healthy individuals (MMSE > 27), 30 at risk of MCI (MMSE 24-27), and 17 with mild dementia (MMSE < 24). Results demonstrated significant differences between MMSE groups and cognitive load levels, particularly for Gamma band and A0, a novel machine learning biomarker used to assess cognitive states. A meta-analysis, combining data from both studies and additional data, included 237 senior participants and 112 young controls. Significant associations were identified between EEG biomarkers, such as A0 activity, and cognitive assessment scores including MMSE and MoCA, suggesting their potential as reliable indicators for timely detection of cognitive decline. EEG patterns, particularly Gamma band activity, demonstrated promising associations with cognitive load and cognitive decline, highlighting the value of EEG in understanding cognitive function. The study highlights the feasibility of using a single-channel EEG device combined with advanced machine learning models, offering a practical and accessible method for evaluating cognitive function and identifying individuals at risk in various settings.

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基于两项研究和荟萃分析的单通道脑电图特征评估老年人认知衰退检测。

及时发现认知能力下降对于有效的干预至关重要，这促使研究人员利用脑电图模式分析，特别是认知负荷，为早期发现和干预建立可靠的标记。这份综合报告介绍了两项研究和一项荟萃分析的结果，涉及237名老年人，旨在调查老年人的认知功能。在第一项研究中，80名老年人被分为两组：40名健康个体（MMSE bbb28）和40名认知障碍风险个体（MMSE 24-27）。采用Lasso、Elastic Net等降维模型分析与MMSE评分相关的脑电特征。这些模型的灵敏度为0.90，特异性为0.57，表明检测认知能力下降的能力很强。第二项研究涉及77名老年人，分为三组：30名健康个体（MMSE bbb27）， 30名MCI风险个体（MMSE 24-27）和17名轻度痴呆患者（MMSE）

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来源期刊

Scientific Reports Natural Science Disciplines-

CiteScore

7.50

自引率

4.30%

发文量

19567

审稿时长

3.9 months

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