Application of the modernized wavelet transform to highlight the dynamics of changes in the duration of intervals during electrocardiogram diagnostics

Charif Alali, Dmitry A. Balalkin
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引用次数: 0

Abstract

BACKGROUND: Cardiovascular diseases represent the leading cause of mortality worldwide [1]. A significant proportion of medical diagnoses are based on the evaluation of characteristic points in the electrocardiographic signal. For example, two important time intervals are P–R and Q–T, which have a significant impact on the patient’s health status [2]. However, the detection of minimal changes in amplitudes and intervals between waves over time is challenging through visual inspection alone. The difficulty is compounded by the lack of a clear-cut rule for determining the beginning and end of the Q–T interval, and the fact that the duration of the intervals varies with each heartbeat [3]. AIM: The study aimed to develop an algorithm to highlight the dynamics of interval duration changes when analyzing electrocardiographic signals. MATERIALS AND METHODS: The wavelet transform serves as a valuable analytical tool. Its ability to decompose signals into well-localized basis functions makes it well suited to distinguish electrocardiographic waves from noise [4]. Furthermore, its ability to change the scale allows for the detection of various local inhomogeneities in the electrocardiographic signal, as well as their durations. One of the main problems in using wavelet transform is the choice of the mother function. In this paper, we propose to use Hermite transform [5], due to which a mother function of arbitrary shape can be designed, which improves the detection efficiency. Moreover, the Hermite transform can be applied to the authentic electrocardiographic signal recording, ensuring the retention of the distinctive attributes of the patient’s signal. RESULTS: The result of the algorithm is a set of rhythmograms, each of which traces the changes over time of intervals of the electrocardiographic signal, for example, P–R or Q–T. The rhythmogram is a stochastic characteristic that allows estimation of the dispersion of Q–T intervals even during short time intervals and when changing the level of physical activity. This is why, by applying the statistical apparatus, it is possible to quantify the diagnostic efficiency of the proposed processing algorithm. CONCLUSIONS: The paper presents the main conclusions of the algorithm and the results of processing model electrocardiographic signals.
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应用现代化小波变换突出心电图诊断过程中间期持续时间的动态变化
背景:心血管疾病是导致全球死亡的主要原因[1]。医疗诊断的很大一部分是基于对心电图信号特征点的评估。例如,两个重要的时间间隔是 P-R 和 Q-T,它们对患者的健康状况有重大影响[2]。然而,仅靠目测来检测波幅和波间期随时间的微小变化是非常困难的。由于缺乏明确的规则来确定 Q-T 间期的开始和结束,而且间期的持续时间随每次心跳而变化,因此难度更大[3]。目的:本研究旨在开发一种算法,以便在分析心电信号时突出显示间期持续时间的动态变化。材料与方法:小波变换是一种有价值的分析工具。它能将信号分解为定位良好的基函数,因此非常适合将心电图波与噪声区分开来 [4]。此外,它还能改变尺度,从而检测心电信号中的各种局部不均匀性及其持续时间。使用小波变换的主要问题之一是母函数的选择。本文建议使用 Hermite 变换 [5],因为它可以设计任意形状的母函数,从而提高检测效率。此外,Hermite 变换可应用于真实的心电信号记录,确保保留患者信号的独特属性。结果:该算法的结果是一组节律图,每个节律图都追踪心电信号(如 P-R 或 Q-T)随时间的变化。心律图是一种随机特征,即使在短时间间隔内和改变体力活动水平时,也能估算出 Q-T 间期的离散程度。因此,通过应用统计仪器,可以量化建议的处理算法的诊断效率。结论:本文介绍了该算法的主要结论和模型心电信号的处理结果。
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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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
44
审稿时长
5 weeks
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