A machine learning approach for potential Super-Agers identification using neuronal functional connectivity networks.

IF 4 Q1 CLINICAL NEUROLOGY
Mohammad Fili, Parvin Mohammadiarvejeh, Brandon S Klinedinst, Qian Wang, Shannin Moody, Neil Barnett, Amy Pollpeter, Brittany Larsen, Tianqi Li, Sara A Willette, Jonathan P Mochel, Karin Allenspach, Guiping Hu, Auriel A Willette
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引用次数: 0

Abstract

Introduction: Aging is often associated with cognitive decline. Understanding neural factors that distinguish adults in midlife with superior cognitive abilities (Positive-Agers) may offer insight into how the aging brain achieves resilience. The goals of this study are to (1) introduce an optimal labeling mechanism to distinguish between Positive-Agers and Cognitive Decliners, and (2) identify Positive-Agers using neuronal functional connectivity networks data and demographics.

Methods: In this study, principal component analysis initially created latent cognitive trajectories groups. A hybrid algorithm of machine learning and optimization was then designed to predict latent groups using neuronal functional connectivity networks derived from resting state functional magnetic resonance imaging. Specifically, the Optimal Labeling with Bayesian Optimization (OLBO) algorithm used an unsupervised approach, iterating a logistic regression function with Bayesian posterior updating. This study encompassed 6369 adults from the UK Biobank cohort.

Results: OLBO outperformed baseline models, achieving an area under the curve of 88% when distinguishing between Positive-Agers and cognitive decliners.

Discussion: OLBO may be a novel algorithm that distinguishes cognitive trajectories with a high degree of accuracy in cognitively unimpaired adults.

Highlights: Design an algorithm to distinguish between a Positive-Ager and a Cognitive-Decliner.Introduce a mathematical definition for cognitive classes based on cognitive tests.Accurate Positive-Ager identification using rsfMRI and demographic data (AUC = 0.88).Posterior default mode network has the highest impact on Positive-Aging odds ratio.

利用神经元功能连接网络识别潜在超级黑客的机器学习方法。
引言衰老通常与认知能力下降有关。了解区分具有卓越认知能力的中年成人(Positive-Agers)的神经因素,有助于深入了解衰老大脑如何实现恢复力。本研究的目标是:(1) 引入一种最佳标记机制,以区分 "积极的成年人 "和 "认知能力下降的成年人";(2) 利用神经元功能连接网络数据和人口统计数据识别 "积极的成年人":在这项研究中,主成分分析法最初创建了潜在认知轨迹组。然后设计了一种机器学习和优化的混合算法,利用静息状态功能磁共振成像得出的神经元功能连接网络预测潜在群体。具体来说,贝叶斯优化(OLBO)算法采用了一种无监督方法,通过贝叶斯后验更新迭代逻辑回归函数。这项研究涵盖了英国生物库队列中的6369名成年人:结果:OLBO 的表现优于基线模型,在区分积极-积极者和认知能力下降者时,OLBO 的曲线下面积达到了 88%:讨论:OLBO 可能是一种新颖的算法,能高度准确地区分认知能力未受损的成年人的认知轨迹:利用rsfMRI和人口统计学数据(AUC = 0.88)准确识别 "正-老龄化"(Positive-Ager)。后默认模式网络对 "正-老龄化 "几率的影响最大。
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来源期刊
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.
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