Association of a pace of aging epigenetic clock with rate of cognitive decline in the Framingham Heart Study Offspring Cohort.

IF 4 Q1 CLINICAL NEUROLOGY

Alzheimer''s and Dementia: Diagnosis, Assessment and Disease Monitoring Pub Date : 2024-11-23 eCollection Date: 2024-10-01 DOI:10.1002/dad2.70038

Micah J Savin, Haoyang Wang, Heming Pei, Allison E Aiello, Stephanie Assuras, Avshalom Caspi, Terrie E Moffitt, Peter A Muenning, Calen P Ryan, Baoyi Shi, Yaakov Stern, Karen Sugden, Linda Valeri, Daniel W Belsky

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引用次数: 0

Abstract

Introduction: The geroscience hypothesis proposes systemic biological aging is a root cause of cognitive decline.

Methods: We analyzed Framingham Heart Study Offspring Cohort data (n = 2296; 46% male; baseline age M = 62, SD = 9, range = 25-101 y). We measured cognitive decline across two decades of neuropsychological-testing follow-up. We measured pace of aging using the DunedinPACE epigenetic clock. Analysis tested if participants with faster DunedinPACE values experienced more rapid cognitive decline compared with those with slower DunedinPACE values.

Results: Participants with faster DunedinPACE had poorer cognitive functioning at baseline and experienced more rapid cognitive decline over follow-up. Results were robust to confounders and consistent across population strata. Findings were similar for the PhenoAge and GrimAge epigenetic clocks.

Discussion: Faster pace of aging is a risk factor for preclinical cognitive decline. Metrics of biological aging may inform risk stratification in clinical trials and prognosis in patient care.

Highlights: Faster DunedinPACE is associated with preclinical cognitive aging.Higher baseline cognition was protective of DunedinPACE-associated cognitive decline.The DunedinPACE association with cognitive decline explained a fourth of dementia risk.

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弗拉明汉心脏研究后代队列中衰老速度表观遗传时钟与认知能力下降率的关系。

导言地球科学假说认为，系统性生物衰老是认知能力下降的根本原因：我们分析了弗雷明汉心脏研究后代队列数据（n = 2296；46% 为男性；基线年龄 M = 62，SD = 9，范围 = 25-101 y）。我们测量了二十年来神经心理测试随访的认知能力下降情况。我们使用 DunedinPACE 表观遗传时钟测量衰老速度。分析检验了达尼丁PACE值较快的参与者是否比达尼丁PACE值较慢的参与者认知能力下降更快：结果：DunedinPACE值较快的参与者基线认知功能较差，随访期间认知功能下降更快。这些结果对混杂因素的影响很小，而且在不同人群中也是一致的。PhenoAge和GrimAge表观遗传时钟的研究结果相似：讨论：衰老速度加快是临床前认知能力下降的一个风险因素。生物老化指标可为临床试验中的风险分层和患者护理中的预后提供依据：更高的基线认知能力对 DunedinPACE 相关认知能力下降具有保护作用。DunedinPACE 与认知能力下降的关系可解释四分之一的痴呆症风险。

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

Alzheimer''s and Dementia: Diagnosis, Assessment and Disease Monitoring Medicine-Psychiatry and Mental Health

CiteScore

7.80

自引率

7.50%

发文量

101

审稿时长

8 weeks

期刊介绍： Alzheimer''s & Dementia: Diagnosis, Assessment & Disease Monitoring (DADM) is an open access, peer-reviewed, journal from the Alzheimer''s Association® that will publish new research that reports the discovery, development and validation of instruments, technologies, algorithms, and innovative processes. Papers will cover a range of topics interested in the early and accurate detection of individuals with memory complaints and/or among asymptomatic individuals at elevated risk for various forms of memory disorders. The expectation for published papers will be to translate fundamental knowledge about the neurobiology of the disease into practical reports that describe both the conceptual and methodological aspects of the submitted scientific inquiry. Published topics will explore the development of biomarkers, surrogate markers, and conceptual/methodological challenges. Publication priority will be given to papers that 1) describe putative surrogate markers that accurately track disease progression, 2) biomarkers that fulfill international regulatory requirements, 3) reports from large, well-characterized population-based cohorts that comprise the heterogeneity and diversity of asymptomatic individuals and 4) algorithmic development that considers multi-marker arrays (e.g., integrated-omics, genetics, biofluids, imaging, etc.) and advanced computational analytics and technologies.