Convertino VA; NASA Cardiopulmonary Workshop (1st : 1990 Dec 5-7 : Houston, TX).
Proc First Jt NASA Cardiopulm Workshop. 1991; 3-5.
In a series of studies, we have examined the effects of exposure to simulated microgravity, varying states of vascular volume, and acute exercise on the function of the carotid-cardiac baroreflex in man. In the first study, exposure to simulated microgravity (6 degrees headdown bedrest) reduced the sensitivity and buffer capacity of the vagal baroreceptor-cardiac reflex mechanisms and this impaired baroreflex function was associated with orthostatic hypotension. Since the reduction in plasma volume during BR was not correlated with impaired baroreflex function, a second study was conducted which demonstrated that the carotid-cardiac baroreflex response was not affected by either acute hypovolemia or hypervolemia. These results suggest that acute fluid replacement prior to reentry may not reverse impaired baroreflex function associated with postflight hypotension. In a third study, we demonstrated that one bout of maximal exercise increased baroreflex sensitivity and buffer capacity through 24 h post-exercise. These baroreflex changes were opposite to those observed following BR. Taken together, these data suggest that the contributions of reduced blood volume and impaired carotid-cardiac baroreflex function to orthostatic hypotension following exposure to microgravity are probably separate and additive; maximal exercise in addition to fluid replacement may provide an acute effective countermeasure against postflight hypotension.
Publication Types:
Keywords:
- Baroreflex
- Bed Rest
- Blood Volume
- Exercise
- Heart
- Heart Rate
- Humans
- Hypotension, Orthostatic
- Male
- Plasma Volume
- Weightlessness
- Weightlessness Countermeasures
- Weightlessness Simulation
- NASA Center KSC
- NASA Discipline Cardiopulmonary
- NASA Discipline Number 14-10
- NASA Program Space Physiology and Countermeasures
Other ID:
UI: 102215432
From Meeting Abstracts