Effect of acute hypoxia on vasopressin release and intravascular fluid during dynamic exercise in humans.
نویسندگان
چکیده
To test the hypothesis that acute hypoxia does not modify the relationship between plasma vasopressin concentration ([AVP](p)) and plasma osmolality (P(osmol)) during exercise and that the increase in [AVP](p) during exercise is due mainly to the exercise intensity-dependent increase in P(osmol), we examined [AVP](p) during a graded exercise in a hypoxic condition (13% O(2), N(2) balance) in seven healthy male subjects. A graded exercise in a normoxic condition on a separate day served as the control. Hypoxia reduced peak aerobic power (VO(2 peak)) by 32.4 +/- 2.7%. Blood samples obtained during rest and at around 25, 45, 65, 80, and 100% of VO(2 peak) of each of the respective conditions were used for analyses of intravascular water and electrolyte balance. The pattern of the changes in fluid and electrolyte balance in response to percent VO(2 peak) was similar between the two conditions. Plasma volume decreased linearly as percent VO(2 peak) increased while P(osmol) increased in a curvilinear fashion with a steep increase occurring at above approximately 66% VO(2 peak). Above this relative exercise intensity, plasma sodium, potassium, and lactate concentrations also increased, whereas plasma bicarbonate concentration decreased. Thus transvascular fluid movement at above approximately 66% VO(2 peak) was due to the net efflux of hypotonic fluid out of the vascular space in both conditions. The relationship between [AVP](p) and P(osmol) during exercise in response to relative exercise intensity was similar between the two conditions. The results indicate that acute mild hypoxia itself has no direct effect on vasopressin release, and it does not modify the relationship between [AVP](p) and P(osmol) during exercise. The results also support the hypothesis that exercise-induced vasopressin release is primarily stimulated by increased P(osmol) produced by hypotonic fluid movement out of the vascular space in a relative exercise intensity-dependent manner.
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ورودعنوان ژورنال:
- American journal of physiology. Regulatory, integrative and comparative physiology
دوره 279 1 شماره
صفحات -
تاریخ انتشار 2000