急性缺氧后的交感神经血管转导

Sympathetic neurovascular transduction following acute hypoxia.

作者信息

Steele Andrew R, Skow Rachel J, Fraser Graham M, Berthelsen Lindsey F, Steinback Craig D

机构信息

Neurovascular Health Lab, Faculty of Kinesiology, Sport, and Recreation, , University of Alberta, 1-059D Li Ka Shing Centre for Health Research Innovation, Edmonton, AB, Canada, T6G 2E1.

Women and Children's Health Research Institute, University of Alberta, Edmonton, AB, Canada.

出版信息

Clin Auton Res. 2021 Dec;31(6):755-765. doi: 10.1007/s10286-021-00824-3. Epub 2021 Sep 15.

DOI:10.1007/s10286-021-00824-3

PMID:34528146

Abstract

PURPOSE

Following an acute exposure to hypoxia, sympathetic nerve activity remains elevated. However, this elevated sympathetic nerve activity does not elicit a parallel increase in vascular resistance suggesting a blunted sympathetic signaling [i.e. blunted sympathetic neurovascular transduction (sNVT)]. Therefore, we sought to quantify spontaneous sympathetic bursts and related changes in total peripheral resistance following hypoxic exposure. We hypothesized that following hypoxia sNVT would be blunted.

METHODS

Nine healthy participants (n = 6 men; mean age 25 ± 2 years) were recruited. We collected data on muscle sympathetic nerve activity (MSNA) using microneurography and beat-by-beat total peripheral resistance (TPR) via finger photoplethysmography at baseline, during acute hypoxia and during two periods of recovery (recovery period 1, 0-10 min post hypoxia; recovery period 2, 10-20 min post hypoxia). MSNA burst sequences (i.e. singlets, doublets, triplets and quads+) were identified and coupled to changes in TPR over 15 cardiac cycles as an index of sNVT for burst sequences. A sNVT slope for each participant was calculated from the slope of the relationship between TPR plotted against normalized burst amplitude.

RESULTS

The sNVT slope was blunted during hypoxia [Δ 0.0044 ± 0.0014 (mmHg/L/min)/(a.u.)], but unchanged following termination of hypoxia [recovery 1, Δ 0.031 ± 0.0019 (mmHg/L/min)/(a.u.); recovery 2, Δ 0.0038 ± 0.0014 (mmHg/L/min)/(a.u.) compared to baseline (Δ 0.038 ± 0.0015 (L/min/mmHg)/(a.u.)] (main effect of group p = 0.012).

CONCLUSIONS

Contrary to our hypothesis, we have demonstrated that systemic sNVT is unchanged following hypoxia in young healthy adults.

摘要

目的

急性暴露于低氧环境后，交感神经活动仍会升高。然而，这种升高的交感神经活动并未引起血管阻力的平行增加，这表明交感神经信号传导减弱[即交感神经血管转导（sNVT）减弱]。因此，我们试图量化低氧暴露后自发的交感神经冲动发放以及总外周阻力的相关变化。我们假设低氧暴露后sNVT会减弱。

方法

招募了9名健康参与者（n = 6名男性；平均年龄25±2岁）。我们在基线、急性低氧期间以及两个恢复期（恢复期1，低氧后0 - 10分钟；恢复期2，低氧后10 - 20分钟），使用微神经电图收集肌肉交感神经活动（MSNA）数据，并通过手指光电容积描记法逐搏测量总外周阻力（TPR）。识别出MSNA冲动序列（即单峰、双峰、三峰和四峰+），并将其与15个心动周期内TPR的变化相联系，作为冲动序列sNVT的指标。根据TPR相对于标准化冲动幅度绘制的关系曲线的斜率，计算出每位参与者的sNVT斜率。

结果

低氧期间sNVT斜率减弱[Δ0.0044±0.0014（mmHg/L/min）/（任意单位）]，但低氧终止后未发生变化[恢复期1，与基线相比（Δ0.038±0.0015（L/min/mmHg）/（任意单位）]，Δ0.031±0.0019（mmHg/L/min）/（任意单位）；恢复期2，Δ0.0038±0.0014（mmHg/L/min）/（任意单位）]（组间主效应p = 0.012）。

结论

与我们的假设相反，我们证明了年轻健康成年人低氧暴露后全身sNVT未发生变化。

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急性缺氧后的交感神经血管转导

Sympathetic neurovascular transduction following acute hypoxia.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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