缺氧会破坏血压正常和未经治疗的高血压男性的神经血管对血压的调节。

Hypoxia disrupts neurovascular regulation of blood pressure in normotensive and untreated hypertensive men.

作者信息

Ojikutu Qudus A, Sabino-Carvalho Jeann L, Latham Katherine, Rocha Marcos, Mattos Joao D, Campos Monique O, Mansur Daniel E, Vianna Lauro C, Nóbrega Antonio C L, Fernandes Igor A

机构信息

Human Neurovascular Control Laboratory, Department of Health and Kinesiology, Purdue University, West Lafayette, IN, USA.

Division of Renal Medicine, Department of Medicine, Emory University School of Medicine, Atlanta, GA, USA.

出版信息

Clin Auton Res. 2025 Jun 18. doi: 10.1007/s10286-025-01135-7.

DOI:10.1007/s10286-025-01135-7

PMID:40531379

Abstract

BACKGROUND

Hypoxia is a common feature of arterial hypertension that does not consistently elevate blood pressure (BP), but triggers exaggerated increases in muscle sympathetic nerve activity (MSNA) and may disturb sympathetic transduction and baroreflex sensitivity in hypertensive individuals. Elevated resting MSNA, enhanced sympathetic transduction, and reduced baroreflex sensitivity are all associated with increased blood pressure variability (BPV), a marker of target organ damage independent of absolute BP levels. We hypothesized that hypoxia would elicit greater BPV in hypertensive individuals compared to normotensive controls METHODS: Nine young- to middle-aged men with untreated stage 1-2 hypertension (HT) and normotensive controls (NT) were exposed to normoxia (21% O) and isocapnic hypoxia (IH, 10% O). During both conditions, oxygen saturation, beat-to-beat BP, MSNA, and end-tidal CO (PetCO) were continuously monitored, with PetCO clamped. BPV was quantified using standard deviation, coefficient of variation, and average real variability for systolic (SBP), diastolic (DBP), and mean BP (MBP). Sympathetic transduction was assessed using a time-domain signal averaging technique. Cardiac baroreflex sensitivity (cBRS) was evaluated using the sequence method, and sympathetic baroreflex sensitivity (sBRS) was calculated via MSNA-DBP regression RESULTS: IH induced comparable oxygen desaturation in both groups (NT: -25.7 ± 3.3% vs. HT: -21.2 ± 4.0%, p > 0.05). Although BP and PetCO remained unchanged, MSNA responses were significantly greater in HT (NT: +8 ± 2 vs. HT: +12 ± 2 bursts/min, p = 0.03). IH increased all indices of BPV and sympathetic transduction, while both cBRS and sBRS were similarly impaired in the two groups.

CONCLUSIONS

In conclusion, IH similarly exacerbates BPV and disrupts sympathetic transduction and baroreflex function in normotensive and untreated hypertensive men, despite greater MSNA reactivity in the hypertensive group.

摘要

背景

缺氧是动脉高血压的一个常见特征，它并不会持续升高血压（BP），但会引发肌肉交感神经活动（MSNA）的过度增加，并且可能会干扰高血压个体的交感神经传导和压力反射敏感性。静息MSNA升高、交感神经传导增强以及压力反射敏感性降低均与血压变异性（BPV）增加有关，BPV是一种独立于绝对血压水平的靶器官损伤标志物。我们假设，与血压正常的对照组相比，缺氧会在高血压个体中引发更大的BPV。

方法

9名未接受治疗的1-2期高血压（HT）的年轻至中年男性和血压正常的对照组（NT）暴露于常氧（21% O₂）和等碳酸血症性缺氧（IH，10% O₂）环境中。在这两种情况下，持续监测血氧饱和度、逐搏血压、MSNA和呼气末二氧化碳（PetCO₂），并使PetCO₂保持恒定。使用收缩压（SBP）、舒张压（DBP）和平均血压（MBP）的标准差、变异系数和平均实际变异性来量化BPV。使用时域信号平均技术评估交感神经传导。使用序列法评估心脏压力反射敏感性（cBRS），并通过MSNA-DBP回归计算交感神经压力反射敏感性（sBRS）。

结果

IH在两组中引起了相当的氧饱和度下降（NT：-25.7±3.3% 对 HT：-21.2±4.0%，p>0.05）。尽管血压和PetCO₂保持不变，但HT组的MSNA反应明显更大（NT：+8±2对HT：+12±2次/分钟，p = 0.03）。IH增加了BPV和交感神经传导的所有指标，而两组的cBRS和sBRS均同样受损。

结论

总之，尽管高血压组的MSNA反应性更高，但IH同样会加剧血压正常和未治疗的高血压男性的BPV，并破坏交感神经传导和压力反射功能。

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缺氧会破坏血压正常和未经治疗的高血压男性的神经血管对血压的调节。

Hypoxia disrupts neurovascular regulation of blood pressure in normotensive and untreated hypertensive men.

作者信息

机构信息

出版信息

BACKGROUND

CONCLUSIONS

背景

方法

结果

结论

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