Advanced waveform analysis of the photoplethysmogram signal using complementary signal processing techniques for the extraction of biomarkers of cardiovascular function.

IF 1.4 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS JRSM Cardiovascular Disease Pub Date : 2024-02-01 eCollection Date: 2024-01-01 DOI:10.1177/20480040231225384
Aristide Jun Wen Mathieu, Miquel Serna Pascual, Peter H Charlton, Maria Volovaya, Jenny Venton, Philip J Aston, Manasi Nandi, Jordi Alastruey
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Abstract

Introduction: Photoplethysmogram signals from wearable devices typically measure heart rate and blood oxygen saturation, but contain a wealth of additional information about the cardiovascular system. In this study, we compared two signal-processing techniques: fiducial point analysis and Symmetric Projection Attractor Reconstruction, on their ability to extract new cardiovascular information from a photoplethysmogram signal. The aim was to identify fiducial point analysis and Symmetric Projection Attractor Reconstruction indices that could classify photoplethysmogram signals, according to age, sex and physical activity.

Methods: Three datasets were used: an in-silico dataset of simulated photoplethysmogram waves for healthy male participants (25-75 years old); an in-vivo dataset containing 10-min photoplethysmogram recordings from 57 healthy subjects at rest (18-39 or > 70 years old; 53% female); and an in-vivo dataset containing photoplethysmogram recordings collected for 4 weeks from a single subject, in daily life. The best-performing indices from the in-silico study (5/48 fiducial point analysis and 6/49 Symmetric Projection Attractor Reconstruction) were applied to the in-vivo datasets.

Results: Key fiducial point analysis and Symmetric Projection Attractor Reconstruction indices, which showed the greatest differences between groups, were found to be consistent across datasets. These indices were related to systolic augmentation, diastolic peak positioning and prominence, and waveform variability. Both fiducial point analysis and Symmetric Projection Attractor Reconstruction techniques provided indices that supported the classification of age and physical activity, but not sex.

Conclusions: Both fiducial point analysis and Symmetric Projection Attractor Reconstruction techniques demonstrated utility in identifying cardiovascular differences between individuals and within an individual over time. Future research should investigate the potential utility of these techniques for extracting information on fitness and disease, to support healthcare-decision making.

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利用互补信号处理技术对光敏血压计信号进行高级波形分析,以提取心血管功能的生物标志物。
简介来自可穿戴设备的照相人脉图信号通常测量心率和血氧饱和度,但其中包含大量有关心血管系统的附加信息。在这项研究中,我们比较了两种信号处理技术:靶心点分析和对称投影吸引器重构,看它们是否能从人血压图信号中提取新的心血管信息。研究的目的是根据年龄、性别和体力活动,确定能对照相人血压图信号进行分类的靶点分析和对称投影吸引器重构指数:使用了三个数据集:健康男性参与者(25-75 岁)的模拟光敏血流图数据集;包含 57 名健康受试者(18-39 岁或大于 70 岁;53% 为女性)静息时 10 分钟光敏血流图记录的体内数据集;以及包含单个受试者日常生活中 4 周光敏血流图记录的体内数据集。在体内数据集上应用了在模拟研究中表现最好的指数(5/48 定点分析和 6/49 对称投影吸引器重构):结果:研究发现,各组间差异最大的关键靶点分析和对称投影吸引重建指数在不同数据集之间是一致的。这些指数与收缩期增强、舒张期峰值定位和突出以及波形变异性有关。靶点分析和对称投影吸引重建技术提供的指数都支持年龄和体育活动分类,但不支持性别分类:结论:靶心点分析和对称投影吸引器重构技术在识别个体之间和个体内部随时间变化的心血管差异方面都很有用。未来的研究应探讨这些技术在提取体能和疾病信息方面的潜在用途,以支持医疗保健决策。
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来源期刊
JRSM Cardiovascular Disease
JRSM Cardiovascular Disease CARDIAC & CARDIOVASCULAR SYSTEMS-
自引率
6.20%
发文量
12
审稿时长
12 weeks
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