Sleep-phasic heart rate variability predicts stress severity: Building a machine learning-based stress prediction model.

IF 3 2区 心理学 Q2 PSYCHIATRY
Stress and Health Pub Date : 2024-08-01 Epub Date: 2024-02-27 DOI:10.1002/smi.3386
Jingjing Fan, Junhua Mei, Yuan Yang, Jiajia Lu, Quan Wang, Xiaoyun Yang, Guohua Chen, Runsen Wang, Yujia Han, Rong Sheng, Wei Wang, Fengfei Ding
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引用次数: 0

Abstract

We propose a novel approach for predicting stress severity by measuring sleep phasic heart rate variability (HRV) using a smart device. This device can potentially be applied for stress self-screening in large populations. Using a Holter electrocardiogram (ECG) and a Huawei smart device, we conducted 24-h dual recordings of 159 medical workers working regular shifts. Based on photoplethysmography (PPG) and accelerometer signals acquired by the Huawei smart device, we sorted episodes of cyclic alternating pattern (CAP; unstable sleep), non-cyclic alternating pattern (NCAP; stable sleep), wakefulness, and rapid eye movement (REM) sleep based on cardiopulmonary coupling (CPC) algorithms. We further calculated the HRV indices during NCAP, CAP and REM sleep episodes using both the Holter ECG and smart-device PPG signals. We later developed a machine learning model to predict stress severity based only on the smart device data obtained from the participants along with a clinical evaluation of emotion and stress conditions. Sleep phasic HRV indices predict individual stress severity with better performance in CAP or REM sleep than in NCAP. Using the smart device data only, the optimal machine learning-based stress prediction model exhibited accuracy of 80.3 %, sensitivity 87.2 %, and 63.9 % for specificity. Sleep phasic heart rate variability can be accurately evaluated using a smart device and subsequently can be used for stress predication.

睡眠时心率变异性可预测压力严重程度:建立基于机器学习的压力预测模型
我们提出了一种利用智能设备测量睡眠相位心率变异性(HRV)来预测压力严重程度的新方法。这种设备有可能被应用于大量人群的压力自我筛查。我们使用 Holter 心电图(ECG)和华为智能设备,对 159 名正常轮班的医务工作者进行了 24 小时双重记录。基于华为智能设备获取的光电血压计(PPG)和加速度计信号,我们根据心肺耦合(CPC)算法对周期性交替模式(CAP;不稳定睡眠)、非周期性交替模式(NCAP;稳定睡眠)、清醒和快速眼动(REM)睡眠进行了分类。我们利用 Holter ECG 和智能设备 PPG 信号进一步计算了 NCAP、CAP 和 REM 睡眠发作期间的心率变异指数。随后,我们开发了一个机器学习模型,仅根据从参与者处获得的智能设备数据以及对情绪和压力状况的临床评估来预测压力的严重程度。睡眠相位心率变异指数可预测个人压力严重程度,在 CAP 或快速动眼期睡眠中的表现优于 NCAP。仅使用智能设备数据,基于机器学习的最佳压力预测模型的准确率为 80.3%,灵敏度为 87.2%,特异性为 63.9%。使用智能设备可以准确评估睡眠相位心率变异性,随后可用于压力预测。
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来源期刊
Stress and Health
Stress and Health 医学-精神病学
CiteScore
6.40
自引率
4.90%
发文量
91
审稿时长
>12 weeks
期刊介绍: Stress is a normal component of life and a number of mechanisms exist to cope with its effects. The stresses that challenge man"s existence in our modern society may result in failure of these coping mechanisms, with resultant stress-induced illness. The aim of the journal therefore is to provide a forum for discussion of all aspects of stress which affect the individual in both health and disease. The Journal explores the subject from as many aspects as possible, so that when stress becomes a consideration, health information can be presented as to the best ways by which to minimise its effects.
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