Deep learning chest X-ray age, epigenetic aging clocks, and associations with age-related subclinical disease in the Project Baseline Health Study.

The journals of gerontology. Series A, Biological sciences and medical sciences Pub Date : 2025-09-19 DOI:10.1093/gerona/glaf173

Jay Chandra, Sarah Short, Fatima Rodriguez, David J Maron, Neha Pagidipati, Adrian F Hernandez, Kenneth W Mahaffey, Svati H Shah, Douglas P Kiel, Michael T Lu, Vineet K Raghu

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Abstract

Background: Chronological age is an important component of medical risk scores and decision-making. However, there is considerable variability in how individuals age. We recently published an open-source deep learning model to assess biological age from chest radiographs (CXR-Age), which predicts all-cause and cardiovascular mortality better than chronological age. Here, we compare CXR-Age to 2 established epigenetic aging clocks (First generation-Horvath Age; Second generation-DNAm PhenoAge) to test which is more strongly associated with cardiopulmonary disease and frailty.

Methods: Our cohort consisted of 2097 participants from the Project Baseline Health Study, a prospective cohort study of individuals from 4 US sites. We compared the association between the different aging clocks and measures of cardiopulmonary disease, frailty, and protein abundance collected at the participant's first annual visit using linear regression models adjusted for common confounders.

Results: We found that CXR-Age was associated with coronary calcium, cardiovascular risk factors, worsening pulmonary function, increased frailty, and abundance in plasma of 2 proteins implicated in neuroinflammation and aging. Associations with DNAm PhenoAge were weaker for pulmonary function and all metrics in middle-age adults. We identified 13 proteins that were associated with DNAm PhenoAge, one (CDH13) of which was also associated with CXR-Age. No associations were found with Horvath Age.

Conclusions: These results suggest that CXR-Age may serve as a better metric of cardiopulmonary aging than epigenetic aging clocks, especially in midlife adults.

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在项目基线健康研究中，深度学习胸片年龄、表观遗传衰老时钟和与年龄相关的亚临床疾病的关联。

背景：实足年龄是医疗风险评分和决策的重要组成部分。然而，个体衰老的方式存在相当大的差异。我们最近发布了一个开源的深度学习模型，用于评估胸部x线片的生物年龄（CXR-Age），该模型比实足年龄更能预测全因死亡率和心血管死亡率。在这里，我们将CXR-Age与两个已建立的表观遗传衰老时钟(第一代-霍瓦特年龄；第二代脱氧核糖核酸（dnam）与心肺疾病和虚弱更密切相关。方法：我们的队列包括来自基线健康研究项目的2097名参与者，这是一项来自美国四个地点的前瞻性队列研究。我们使用线性回归模型对常见混杂因素进行调整，比较了不同的衰老时钟与参与者首次年度就诊时收集的心肺疾病、虚弱和蛋白质丰度的测量之间的关系。结果：我们发现CXR-Age与冠状动脉钙、心血管危险因素、肺功能恶化、虚弱增加以及血浆中两种与神经炎症和衰老有关的蛋白质的丰度有关。在中年成人中，肺功能和所有指标与DNAm表型的相关性较弱。我们鉴定了13个与DNAm表型age相关的蛋白，其中一个（CDH13）也与CXR-Age相关。没有发现与霍瓦特时代有关。结论：这些结果表明，CXR-Age可能是比表观遗传衰老时钟更好的心肺衰老指标，特别是在中年成年人中。

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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The journals of gerontology. Series A, Biological sciences and medical sciences

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