运动中氧合血红蛋白饱和度降低与呼出一氧化氮的关系。

A. Sheel, M. R. Edwards, D. Mckenzie
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引用次数: 7

摘要

在高强度训练的男性耐力运动员中,经常观察到氧合血红蛋白饱和度(SaO2)的降低,这被称为运动性低氧血症(EIH)。通气灌注(VA/Q)不匹配和扩散限制被认为是原因。一氧化氮(NO)是一种有效的血管扩张剂,存在于人类休息和锻炼时呼出的空气中。内源性一氧化氮被认为在VA/Q匹配和维持低肺血管阻力中发挥作用。本研究的目的是确定呼出NO与EIH之间的关系。假设与非EIH运动员相比,EIH运动员的NO水平较低。将18名高训练男性自行车运动员(VO2max=67.7 +/- 5.2 mL kg-1 min-1, mean +/- SD)分为normal组(NORM, n=12, SaO2= 93.9 +/- 0.8)和low组(low, n=6, SaO2=90.3 +/- 1.0),差异有统计学意义(P < 0.05)。所有其他描述性和生理特征在两组之间相似。受试者进行了一个斜坡循环测试,直到呼吸不含no的气体。利用化学发光分析仪测定了100、200、250、300、350、400和450 W下静止和运动时混合气体样品中NO的浓度(CNO)和产率(VNO)。所有受试者的CNO与静息值相比保持不变。所有受试者在运动过程中VNO均显著升高,但在LOW组和NORM组之间无差异。从休息到最大运动SaO2和VNO的变化无显著相关性(r=-0.12, P > 0.05)。总的来说,这些数据表明,在训练有素的男性骑自行车者进行剧烈运动时,呼出的NO与SaO2的减少无关。
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Relationship between decreased oxyhaemoglobin saturation and exhaled nitric oxide during exercise.
Decreases in oxyhaemoglobin saturation (SaO2) are frequently observed in highly trained male endurance athletes during heavy work and has been termed exercise-induced hypoxaemia (EIH). Ventilation perfusion (VA/Q) mismatching and diffusion limitations are thought to be responsible. Nitric oxide (NO), a potent vasodilator, is present in the exhaled air of resting and exercising humans. Endogenously produced NO is thought to play a role in VA/Q matching and maintenance of low pulmonary vascular resistance. The purpose of this study was to determine the relationship between exhaled NO and EIH. It was hypothesized that athletes with EIH would have lower NO levels compared with non-EIH athletes. Eighteen highly trained male cyclists (VO2max=67.7 +/- 5.2 mL kg-1 min-1, mean +/- SD) were divided into normal (NORM, n=12, SaO2= 93.9 +/- 0.8) or low (LOW, n=6, SaO2=90.3 +/- 1.0) group, based on significantly different peak exercise SaO2 values (P < 0.05). All other descriptive and physiological characteristics were similar between the groups. Subjects performed a ramped cycle test to exhaustion breathing NO-free gas. The concentration (CNO) and production rate (VNO) of NO were determined from mixed gas samples at rest and during exercise at 100, 200, 250, 300, 350, 400 and 450 W using a chemiluminescent analyser. CNO remained unchanged from resting values in all subjects. VNO increased significantly during exercise in all subjects but was not different between LOW and NORM groups. The correlation between change in SaO2 and VNO from rest to maximal exercise was not significant (r=-0.12, P > 0.05). Collectively, these data suggest that exhaled NO is not related to decreased SaO2 during heavy exercise in highly trained male cyclists.
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