利用小波变换和瓦尔萨尔瓦动作去噪检测人体交感神经活动的尖峰。

Spike detection of human sympathetic nerve activity using wavelet transformation and Valsalva maneuver denoising.

作者信息

Kulapatana Surat, Rigo Stefano, Urechie Vasile, Brychta Robert J, Furlan Raffaello, Biaggioni Italo, Diedrich André

机构信息

Department of Biomedical Engineering, Vanderbilt University, Nashville, TN, USA; Autonomic Dysfunction Center, Department of Medicine, Division of Clinical Pharmacology, Vanderbilt University Medical Center, Nashville, TN, USA; Department of Physiology, Faculty of Medicine Siriraj Hospital, Mahidol University, Bangkok, Thailand.

Autonomic Dysfunction Center, Department of Medicine, Division of Clinical Pharmacology, Vanderbilt University Medical Center, Nashville, TN, USA; Humanitas Clinical and Research Center, IRCCS, Via Alessandro Manzoni, 56, Rozzano, Italy; Humanitas University, Department of Biomedical Sciences, Pieve Emanuele, Italy.

出版信息

J Neurosci Methods. 2025 Aug;420:110482. doi: 10.1016/j.jneumeth.2025.110482. Epub 2025 May 9.

DOI:10.1016/j.jneumeth.2025.110482

PMID:40350041

Abstract

BACKGROUND

Sympathetic function is directly assessed by microneurography measuring muscle sympathetic nerve activity (MSNA). The recordings are typically corrupted with noise and require denoising. We aim to estimate microneurographic noise individually from physiologically suppressed MSNA during Valsalva phase 4 (VM4).

NEW METHOD

We developed MSNA adaptive processing (MAP). MSNA recordings during Valsalva were transformed by stationary wavelet transformation. Level-specific noise thresholds were computed from 4 SD of detail coefficients from VM4 and were implemented for denoising. The denoised signals were inverse transformed, then the MSNA spikes were detected. We compared detection performance of the MAP with the current two-stage kurtosis method in simulated MSNA signals, and recordings from 17 healthy and 19 postural orthostatic tachycardia syndrome (POTS) female subjects performing Valsalva.

RESULTS

The MAP had higher correct detections of MSNA spikes than the kurtosis method in simulated signals wit high burst rate (50 burst/min) and low signal-to-noise ratio (SNR =2) (MAP vs kurtosis; 23.81 ± 15.49 % vs 16.98 ± 12.75 %, p < 0.001). The improvement was confirmed by shorter error distance of the precision-recall plot (0.535 ± 0.175 vs 0.542 ± 0.177, p = 0.011). The MAP detected higher spike rate during VM phase 2 in healthy (24.11 ± 9.85 vs 19.57 ± 8.60 spike/s, p = 0.049), but non-significant in POTS (24.19 ± 13.70 vs 20.30 ± 11.85 spike/s, p = 0.101).

COMPARISON WITH EXISTING METHODS

The detection performance of the MAP is superior to the current two-stage kurtosis method.

CONCLUSIONS

The proposed MAP method individually estimating noise from VM4 could improve MSNA spike detection, compared with the kurtosis method. The advantages are most prominent in high burst rate and low SNR MSNA recordings.

摘要

背景

交感神经功能通过测量肌肉交感神经活动（MSNA）的微神经ography直接评估。记录通常会被噪声干扰，需要进行去噪处理。我们旨在从瓦氏动作第4阶段（VM4）生理抑制的MSNA中单独估计微神经ography噪声。

新方法

我们开发了MSNA自适应处理（MAP）。瓦氏动作期间的MSNA记录通过平稳小波变换进行转换。根据VM4细节系数的4倍标准差计算特定水平的噪声阈值，并用于去噪。对去噪后的信号进行逆变换，然后检测MSNA尖峰。我们在模拟的MSNA信号以及17名健康女性和19名患有体位性直立性心动过速综合征（POTS）的女性在进行瓦氏动作时的记录中，比较了MAP与当前两阶段峰度法的检测性能。

结果

在高爆发率（50次爆发/分钟）和低信噪比（SNR = 2）的模拟信号中，MAP对MSNA尖峰的正确检测率高于峰度法（MAP与峰度法；23.81±15.49%对16.98±12.75%，p < 0.001）。精确召回图的误差距离缩短证实了这种改进（0.535±0.175对0.542±0.177，p = 0.011）。MAP在健康受试者的VM第2阶段检测到更高的尖峰率（24.11±9.85对19.57±8.60次尖峰/秒，p = 0.049），但在POTS患者中无显著差异（24.19±13.70对20.30±11.85次尖峰/秒，p = 0.101）。