1. The external respiration and gas exchange in space missions.
- Author
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Baranov VM, Tikhonov MA, and Kotov AN
- Subjects
- Aerospace Medicine, Carbon Dioxide, Humans, Lung physiopathology, Oxygen, Pulmonary Atelectasis physiopathology, Hypergravity adverse effects, Lung physiology, Pulmonary Atelectasis etiology, Pulmonary Circulation physiology, Respiratory Mechanics physiology, Space Flight, Weightlessness adverse effects
- Abstract
Literature data and results of our own studies into an effect of micro- and macro-gravity on an external respiration function of man are presented. It is found that in cosmonauts following the 7-366 day space missions there is an enhanced tendency associated with an increased flight duration toward a decrease in the lung volume and breathing mechanics parameters: forced vital capacity of the lungs FVC) by 5-25 percent, peak inspiratory and expiratory (air) flows (PIF, PEF) by 5-40 percent. A decrease in FVC appears to be explained by a new balance of elastic forces of the lungs, chest and abdomen occurring in microgravity as well as by an increased blood filling and pulmonary hydration. A decline of PIF and PEF is probably resulted from antigravitational deconditioning of the respiratory muscles with which a postflight decreased physical performance can in part be associated. The ventilation/perfusion ratios during orthostasis and +Gz and +Gx accelerations are estimated. The biophysical nature of developing the absorption atelectases on a combined exposure to accelerations and 100% oxygen breathing is confirmed. A hypothesis that hypervolemia and pulmonary congestion can increase the tendency toward the development of atelectases in space in particular during pure oxygen breathing is suggested. Respiratory physiology problem area which is of interest for space medicine is defined.
- Published
- 1992
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