Accurate QT correction method from transfer entropy

IF 2.6 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS Cardiovascular digital health journal Pub Date : 2023-02-01 DOI:10.1016/j.cvdhj.2022.10.006

Esa Räsänen PhD , Teemu Pukkila , Matias Kanniainen , Minna Miettinen , Rostislav Duda , Jiyeong Kim , Janne Solanpää PhD , Katriina Aalto-Setälä MD , Ilya Potapov PhD

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Abstract

Background

The QT interval in the electrocardiogram (ECG) is a fundamental risk measure for arrhythmic adverse cardiac events. However, the QT interval depends on the heart rate and must be corrected accordingly. The present QT correction (QTc) methods are either simple models leading to under- or overcorrection, or impractical in requiring long-term empirical data. In general, there is no consensus on the best QTc method.

Objective

We introduce a model-free QTc method—AccuQT—that computes QTc by minimizing the information transfer from R-R to QT intervals. The objective is to establish and validate a QTc method that provides superior stability and reliability without models or empirical data.

Methods

We tested AccuQT against the most commonly used QT correction methods by using long-term ECG recordings of more than 200 healthy subjects from PhysioNet and THEW databases.

Results

AccuQT overperforms the previously reported correction methods: the proportion of false-positives is reduced from 16% (Bazett) to 3% (AccuQT) for the PhysioNet data. In particular, the QTc variance is significantly reduced and thus the RR-QT stability is increased.

Conclusion

AccuQT has significant potential to become the QTc method of choice in clinical studies and drug development. The method can be implemented in any device recording R-R and QT intervals.

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基于传递熵的精确QT校正方法

背景心电图中的QT间期是心律失常不良心脏事件的基本风险指标。然而，QT间期取决于心率，必须进行相应的校正。目前的QT校正（QTc）方法要么是导致校正不足或过度的简单模型，要么在需要长期经验数据时不切实际。一般来说，对于最佳QTc方法没有达成共识。目的介绍一种无模型QTc方法——AccuQT，该方法通过最小化从R-R到QT间期的信息传递来计算QTc。目的是建立和验证一种QTc方法，该方法在没有模型或经验数据的情况下提供卓越的稳定性和可靠性。方法我们使用PhysioNet和THEW数据库中200多名健康受试者的长期心电图记录，将AccuQT与最常用的QT校正方法进行比较。结果AccuQT优于先前报道的校正方法：PhysioNet数据的假阳性比例从16%（Bazett）降低到3%（AccuQT）。特别地，QTc方差显著降低，因此RR-QT稳定性增加。结论AccuQT具有成为临床研究和药物开发中首选的QTc方法的巨大潜力。该方法可以在记录R-R和QT间期的任何设备中实现。

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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