Detection of Fibrillatory Episodes in Atrial Fibrillation Rhythms via Topology-informed Machine Learning

Proceedings of the 2023 6th International Conference on Machine Vision and Applications Pub Date : 2023-03-10 DOI:10.1145/3589572.3589576

Paul Samuel P. Ignacio

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Abstract

Effective and efficient methods for diagnosing cardiac conditions remain of significant importance and relevance in clinical cardiology. As such, advances in machine- and deep-learning technologies pave the way to high throughput approaches to automated classification of cardiac abnormalities. While there is rich literature on ECG-based classification of cardiac conditions, particularly on diagnosing Atrial Fibrillation, there is a dearth on algorithms that can effectively measure the onset and offset of atrial fibrillation events within an ECG. In this work, we show that an off-the-shelf machine learning algorithm can be trained on mathematically-computable shape signatures embedded within the local topology of ECGs to identify fibrillatory episodes in ECGs of AF patients. More precisely, we show that a topology-informed machine learning algorithm can accurately classify segments within an ECG as either resembling an atrial fibrillation event or not. Furthermore, we show that based on the model-provided classification of segments, a simple criterion may be used to determine whether the AF rhythm is paroxysmal or persistent.

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通过拓扑信息的机器学习检测心房颤动节律中的纤颤发作

诊断心脏疾病的有效方法在临床心脏病学中仍然具有重要意义和相关性。因此，机器和深度学习技术的进步为心脏异常自动分类的高通量方法铺平了道路。虽然有丰富的基于心电图的心脏状况分类文献，特别是在诊断房颤方面，但缺乏能够有效测量心电图中房颤事件的发作和偏移的算法。在这项工作中，我们展示了一种现成的机器学习算法可以在嵌入在心电图局部拓扑中的数学可计算的形状特征上进行训练，以识别AF患者心电图中的纤颤发作。更准确地说，我们表明拓扑信息的机器学习算法可以准确地将ECG中的片段分类为类似心房颤动事件或不类似心房颤动事件。此外，我们表明，基于模型提供的节段分类，可以使用一个简单的标准来确定AF节律是阵发性的还是持续性的。

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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Proceedings of the 2023 6th International Conference on Machine Vision and Applications

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