Dementia Risk and Machine Learning-Derived Brain Age Index from Sleep Electroencephalography: A Pooled Cohort Analysis of Over 7,000 Individuals Across Five Community Cohorts.

medRxiv : the preprint server for health sciences Pub Date : 2025-09-24 DOI:10.1101/2025.09.21.25336255

Haoqi Sun, Sasha Milton, Yi Fang, Hash Brown Taha, Shreya Shiju, Robert J Thomas, Wolfgang Ganglberger, Matthew P Pase, Timothy Hughes, Shaun Purcell, Susan Redline, Katie L Stone, Kristine Yaffe, M Brandon Westover, Yue Leng

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Abstract

Importance: Sleep electroencephalographic (EEG) microstructures are closely related to cognition and undergo age-dependent changes. However, their multidimensional nature makes them challenging to interpret using conventional approaches. Machine learning-computed EEG brain age index (BAI) represents the difference between the sleep EEG-based brain age and chronological age, quantifying deviations in sleep EEG microstructures from normative patterns.

Objective: To determine the association between sleep BAI and incident dementia in community-dwelling populations.

Design: Five individual cohorts and random-effects meta-analysis.

Setting: This study pooled data from five community-based, methodologically consistent, longitudinal cohorts: MESA, ARIC, FHS-OS, MrOS, and SOF. We used Fine-Gray models to assess the association between BAI and incident dementia within each cohort, accounting for death as a competing risk. Cohort-specific estimates were then pooled using random-effects meta-analyses.

Participants: 7,071 participants (MESA 54-94 years old, ARIC 52-75, FHS-OS 40-81, MrOS 67-96, SOF 79-93) without dementia at the time of polysomnography were included.

Exposure: The sleep EEG-based BAI was computed using interpretable machine learning, incorporating 13 age-dependent features extracted from central EEG channels in overnight, home-based sleep polysomnography.

Main outcomes and measures: Incident dementia or probable dementia was determined in each cohort, with death as a competing risk.

Results: Across the five cohorts, dementia incidence ranged from 6.6% to 34.3% over a median follow-up of 3.5 to 17.0 years. Across cohorts, each 10-year increase in BAI was associated with a 39% increased risk of incident dementia (hazard ratio: 1.39 [95% confidence interval=1.21-1.59], p<0.001) after adjustment for age, sex, race, education, body mass index, current smoking, sleep medications, and physical activity level. The top feature underlying BAI was waveform kurtosis in N2 with a negative association with incident dementia (p<0.001). The associations remained after additional adjustment for multiple comorbidities, APOE e4 status, and apnea-hypopnea index, and were consistent across sex and age groups.

Conclusions and relevance: A higher sleep EEG-based BAI was associated with a higher risk of incident dementia across five community-based longitudinal cohorts. Future studies are warranted to evaluate the predictive value of BAI as a non-invasive digital biomarker for the early detection of dementia in community settings.

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来自睡眠脑电图的痴呆风险和机器学习衍生的脑年龄指数：来自五个社区队列的7000多人的汇总队列分析

重要性：睡眠脑电图（EEG）微结构与认知密切相关，并发生年龄依赖性变化。然而，它们的多维性使得使用传统方法来解释它们具有挑战性。机器学习-计算脑电图脑年龄指数（BAI）代表了基于睡眠脑电图的脑年龄与实足年龄之间的差异，量化了睡眠脑电图微结构与规范模式的偏差。目的：探讨社区居民睡眠BAI与痴呆发病的关系。设计：5个个体队列和随机效应荟萃分析。背景：本研究汇集了来自5个基于社区、方法一致的纵向队列的数据：MESA、ARIC、FHS-OS、mro和SOF。我们使用Fine-Gray模型评估每个队列中BAI和痴呆事件之间的关系，并将死亡作为竞争风险考虑在内。然后使用随机效应荟萃分析汇总特定队列的估计值。参与者：7071名受试者（MESA 54-94岁，ARIC 52-75岁，FHS-OS 40-81岁，mrs 67-96岁，sof79 -93岁）在多导睡眠图检查时无痴呆。暴露：使用可解释的机器学习计算基于睡眠脑电图的BAI，结合从夜间家庭睡眠多导睡眠图中提取的13个年龄相关特征。主要结局和测量：在每个队列中确定偶发性痴呆或可能的痴呆，死亡作为竞争风险。结果：在5个队列中，痴呆发病率从6.6%到34.3%不等，中位随访时间为3.5年至17.0年。在所有队列中，每10年BAI增加与痴呆发生率增加39%相关（风险比：1.39[95%置信区间=1.21-1.59]）。结论和相关性：在五个基于社区的纵向队列中，较高的睡眠脑电图BAI与较高的痴呆发生率相关。未来的研究有必要评估BAI作为一种非侵入性数字生物标志物在社区环境中早期发现痴呆的预测价值。

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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