寻找可检测心力衰竭患者在接受β受体阻滞剂治疗时交感神经变化的 HRV 参数。

Search for HRV-parameters that detect a sympathetic shift in heart failure patients on β-blocker treatment.

机构信息

AEF/Systems Physiology, Heart Failure Research Center, Academic Medical Center at the University of Amsterdam Amsterdam, Netherlands.

出版信息

Front Physiol. 2013 Apr 16;4:81. doi: 10.3389/fphys.2013.00081. eCollection 2013.

DOI:10.3389/fphys.2013.00081

PMID:23596424

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3627138/

Abstract

BACKGROUND

A sympathetic shift in heart rate variability (HRV) from high to lower frequencies may be an early signal of deterioration in a monitored patient. Most chronic heart failure (CHF) patients receive β-blockers. This tends to obscure HRV observation by increasing the fast variations. We tested which HRV parameters would still detect the change into a sympathetic state.

METHODS AND RESULTS

β-blocker (Carvedilol®) treated CHF patients underwent a protocol of 10 min supine rest, followed by 10 min active standing. CHF patients (NYHA Class II-IV) n = 15, 10m/5f, mean age 58.4 years (47-72); healthy controls n = 29, 18m/11f, mean age 62.9 years (49-78). Interbeat intervals (IBI) were extracted from the finger blood pressure wave (Nexfin®). Both linear and non-linear HRV analyses were applied that (1) might be able to differentiate patients from healthy controls under resting conditions and (2) detect the change into a sympathetic state in the present short recordings. Linear: mean-IBI, SD-IBI, root mean square of successive differences (rMSSD), pIBI-50 (the proportion of intervals that differs by more than 50 ms from the previous), LF, HF, and LF/HF ratio. Non-linear: Sample entropy (SampEn), Multiscale entropy (MSE), and derived: Multiscale variance (MSV) and Multiscale rMSSD (MSD). In the supine resting situation patients differed from controls by having higher HF and, consequently, lower LF/HF. In addition their longer range (τ = 6-10) MSE was lower as well. The sympathetic shift was, in controls, detected by mean-IBI, rMSSD, pIBI-50, and LF/HF, all going down; in CHF by mean-IBI, rMSSD, pIBI-50, and MSD (τ = 6-10) going down. MSD6-10 introduced here works as a band-pass filter favoring frequencies from 0.02 to 0.1 Hz.

CONCLUSIONS

In β-blocker treated CHF patients, traditional time domain analysis (mean-IBI, rMSSD, pIBI-50) and MSD6-10 provide the most useful information to detect a condition change.

摘要

背景

心率变异性（HRV）从高频到低频的交感神经转移可能是监测患者病情恶化的早期信号。大多数慢性心力衰竭（CHF）患者接受β受体阻滞剂治疗。这往往会通过增加快速变化来掩盖 HRV 观察。我们测试了哪些 HRV 参数仍能检测到向交感状态的转变。

方法和结果

β受体阻滞剂（卡维地洛）治疗的 CHF 患者接受了 10 分钟仰卧休息和 10 分钟主动站立的方案。CHF 患者（NYHA 分级 II-IV）n = 15，10m/5f，平均年龄 58.4 岁（47-72）；健康对照组 n = 29，18m/11f，平均年龄 62.9 岁（49-78）。心跳间隔（IBI）从手指血压波（Nexfin®）中提取。应用线性和非线性 HRV 分析，这些分析可能能够在休息状态下区分患者和健康对照者，并且能够在目前的短记录中检测到向交感状态的变化。线性：平均 IBI、SD-IBI、均方根差（rMSSD）、pIBI-50（与前一个相差超过 50ms 的间隔比例）、LF、HF 和 LF/HF 比值。非线性：样本熵（SampEn）、多尺度熵（MSE）和衍生：多尺度方差（MSV）和多尺度 rMSSD（MSD）。在仰卧休息状态下，患者与对照组的区别在于 HF 较高，因此 LF/HF 较低。此外，他们的长程（τ=6-10）MSE 也较低。在对照组中，交感神经转移通过平均 IBI、rMSSD、pIBI-50 和 LF/HF 检测到，所有这些都下降；在 CHF 中，通过平均 IBI、rMSSD、pIBI-50 和 MSD（τ=6-10）下降。这里引入的 MSD6-10 作为一个带通滤波器，有利于 0.02 到 0.1 Hz 的频率。

结论

在接受β受体阻滞剂治疗的 CHF 患者中，传统的时域分析（平均 IBI、rMSSD、pIBI-50）和 MSD6-10 提供了最有用的信息来检测病情变化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b053/3627138/99c185f87b9c/fphys-04-00081-g0001.jpg

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寻找可检测心力衰竭患者在接受β受体阻滞剂治疗时交感神经变化的 HRV 参数。

Search for HRV-parameters that detect a sympathetic shift in heart failure patients on β-blocker treatment.

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法和结果

结论

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