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病例报告:减压病中的双相自主神经反应:心率变异性和窦房结研究结果。

Case report: Biphasic autonomic response in decompression sickness: HRV and sinoatrial findings.

作者信息

Schmitz Gerald

机构信息

Centro de Medicina Hiperbarica OHB, Hyperbaric Medical Service, San Jose, Costa Rica.

出版信息

Front Physiol. 2025 Apr 29;16:1605779. doi: 10.3389/fphys.2025.1605779. eCollection 2025.

DOI:10.3389/fphys.2025.1605779
PMID:40365084
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12069374/
Abstract

BACKGROUND

Decompression sickness (DCS) may involve neurological and cardiovascular systems, but cardiac autonomic dysfunction is rarely documented. Heart rate variability (HRV) can provide insight into autonomic modulation in such cases, particularly when incorporating advanced nonlinear and dynamic techniques.

CASE

We present a 35-year-old recreational diver who developed neurological DCS and persistent bradycardia following multiple consecutive dives. Neurological symptoms resolved with hyperbaric oxygen therapy (HBOT), but bradyarrhythmias persisted, prompting continuous monitoring.

METHODS

HRV was assessed using time-domain, frequency-domain, nonlinear, and dynamic analyses during HBOT and over two 24-h Holter recordings. Principal Dynamic Mode (PDM) analysis was employed to characterize autonomic control dynamics beyond conventional spectral markers.

RESULTS

During HBOT, the patient exhibited pronounced parasympathetic activity (RMSSD: 243 m; HF power: 8,656 m; SD1: 172 m). Post-treatment, a shift toward sympathovagal imbalance was observed, with the LF/HF ratio rising from 1.53 to 3.80. Despite high total HRV power (38,549 m during HBOT), SD1/SD2 ratio declined from 0.52 to 0.12, suggesting selective vagal withdrawal. PDM analysis showed a low PDM2/PDM1 ratio (0.42), consistent with preserved beat-to-beat vagal responsiveness but impaired long-range autonomic integration.

CONCLUSION

This case illustrates a biphasic autonomic pattern in DCS-initial parasympathetic dominance followed by sympathetic tilt and desynchronization. Advanced nonlinear and dynamic HRV analysis revealed regulatory disturbances not captured by traditional methods, supporting its role in post-dive assessment and autonomic monitoring.

摘要

背景

减压病(DCS)可能累及神经和心血管系统,但心脏自主神经功能障碍鲜有记录。心率变异性(HRV)可洞察此类情况下的自主神经调节,尤其是采用先进的非线性和动态技术时。

病例

我们报告一名35岁的休闲潜水员,在连续多次潜水后发生神经型DCS并出现持续性心动过缓。神经症状经高压氧治疗(HBOT)后缓解,但心律失常持续存在,因此进行持续监测。

方法

在HBOT期间以及通过两次24小时动态心电图记录评估HRV,采用时域、频域、非线性和动态分析方法。运用主动态模式(PDM)分析来描述传统频谱指标之外的自主神经控制动态变化。

结果

在HBOT期间,患者表现出明显的副交感神经活动(RMSSD:243毫秒;高频功率:8656毫秒;SD1:172毫秒)。治疗后,观察到向交感迷走神经失衡转变,低频/高频比值从1.53升至3.80。尽管总HRV功率较高(HBOT期间为38549毫秒),但SD1/SD2比值从0.52降至0.12,提示选择性迷走神经撤离。PDM分析显示PDM2/PDM1比值较低(0.42),这与逐搏迷走神经反应性保留但远程自主神经整合受损一致。

结论

本病例说明了DCS中的双相自主神经模式——最初副交感神经占优势,随后交感神经倾斜和失同步。先进的非线性和动态HRV分析揭示了传统方法未捕捉到的调节紊乱,支持其在潜水后评估和自主神经监测中的作用。

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Association Between Heart Rate Variability and Decompression-Induced Physiological Stress.心率变异性与减压诱导的生理应激之间的关联
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