无监督的心电图深度学习使可扩展的人类疾病分析成为可能

IF 12.4 1区医学 Q1 HEALTH CARE SCIENCES & SERVICES

NPJ Digital Medicine Pub Date : 2025-01-12 DOI:10.1038/s41746-024-01418-9

Sam F. Friedman, Shaan Khurshid, Rachael A. Venn, Xin Wang, Nate Diamant, Paolo Di Achille, Lu-Chen Weng, Seung Hoan Choi, Christopher Reeder, James P. Pirruccello, Pulkit Singh, Emily S. Lau, Anthony Philippakis, Christopher D. Anderson, Mahnaz Maddah, Puneet Batra, Patrick T. Ellinor, Jennifer E. Ho, Steven A. Lubitz

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引用次数: 0

摘要

12导联心电图（ECG）价格低廉，可广泛使用。目前尚不清楚是否可以使用ECG检测人类疾病状况。我们开发了一种深度学习去噪自动编码器，并系统地评估了ECG编码与约1,600种基于phecode的疾病之间的关联，这些数据集与模型开发分开，并对结果进行了meta分析。潜在空间ECG模型确定了与645个流行和606个事件的关联。关联在循环（n = 140, 82%的类别特异性Phecodes），呼吸（n = 53, 62%）和内分泌/代谢（n = 73, 45%）类别中最为丰富，其他关联在整个表型中。与高血压的ECG相关性最强（p < 2.2×10-308）。与使用标准心电图间隔的模型相比，ECG潜伏空间模型显示出更多的关联，与包含年龄、性别和种族的模型相比，该模型对流行疾病有更好的区分。我们进一步展示了潜伏空间模型如何用于生成疾病特异性ECG波形并促进个体疾病分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Unsupervised deep learning of electrocardiograms enables scalable human disease profiling

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Unsupervised deep learning of electrocardiograms enables scalable human disease profiling

The 12-lead electrocardiogram (ECG) is inexpensive and widely available. Whether conditions across the human disease landscape can be detected using the ECG is unclear. We developed a deep learning denoising autoencoder and systematically evaluated associations between ECG encodings and ~1,600 Phecode-based diseases in three datasets separate from model development, and meta-analyzed the results. The latent space ECG model identified associations with 645 prevalent and 606 incident Phecodes. Associations were most enriched in the circulatory (n = 140, 82% of category-specific Phecodes), respiratory (n = 53, 62%) and endocrine/metabolic (n = 73, 45%) categories, with additional associations across the phenome. The strongest ECG association was with hypertension (p < 2.2×10^-308). The ECG latent space model demonstrated more associations than models using standard ECG intervals, and offered favorable discrimination of prevalent disease compared to models comprising age, sex, and race. We further demonstrate how latent space models can be used to generate disease-specific ECG waveforms and facilitate individual disease profiling.

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来源期刊

NPJ Digital Medicine Multiple-

CiteScore

25.10

自引率

3.30%

发文量

170

审稿时长

15 weeks

期刊介绍： npj Digital Medicine is an online open-access journal that focuses on publishing peer-reviewed research in the field of digital medicine. The journal covers various aspects of digital medicine, including the application and implementation of digital and mobile technologies in clinical settings, virtual healthcare, and the use of artificial intelligence and informatics. The primary goal of the journal is to support innovation and the advancement of healthcare through the integration of new digital and mobile technologies. When determining if a manuscript is suitable for publication, the journal considers four important criteria: novelty, clinical relevance, scientific rigor, and digital innovation.