TY - JOUR
T1 - Metabolie Changes Observed in Astronauts
AU - Leach, Carolyn S.
AU - Cintrón, N. M.
AU - Krauhs, J. M.
PY - 1991/10
Y1 - 1991/10
N2 - Study of metabolic alterations that occur during space flight can provide insight into mechanisms of physiologic regulation. Results of medical experiments with astronauts reveal rapid loss of volume (2 L) from the legs and a transient early increase in left ventricular volume index. These findings indicate that, during space flight, fluid is redistributed from the legs toward the head. In about 2 days, total body water decreases 2 to 3%. Increased levels of plasma renin activity and antidiuretic hormone while blood sodium and plasma volume are reduced suggest that space flight‐associated factors are influencing the regulatory systems. In addition to fluid and electrolyte loss, Skylab astronauts lost an estimated 0.3 kg of protein. Endocrine factors, including increased cortisol and thyroxine and decreased insulin, are favorable for protein catabolism. The body appears to adapt to weightlessness at some physiologic cost. Readaptation to Earth's gravity at landing becomes another physiologic challenge. 1991 American College of Clinical Pharmacology
AB - Study of metabolic alterations that occur during space flight can provide insight into mechanisms of physiologic regulation. Results of medical experiments with astronauts reveal rapid loss of volume (2 L) from the legs and a transient early increase in left ventricular volume index. These findings indicate that, during space flight, fluid is redistributed from the legs toward the head. In about 2 days, total body water decreases 2 to 3%. Increased levels of plasma renin activity and antidiuretic hormone while blood sodium and plasma volume are reduced suggest that space flight‐associated factors are influencing the regulatory systems. In addition to fluid and electrolyte loss, Skylab astronauts lost an estimated 0.3 kg of protein. Endocrine factors, including increased cortisol and thyroxine and decreased insulin, are favorable for protein catabolism. The body appears to adapt to weightlessness at some physiologic cost. Readaptation to Earth's gravity at landing becomes another physiologic challenge. 1991 American College of Clinical Pharmacology
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U2 - 10.1002/j.1552-4604.1991.tb03650.x
DO - 10.1002/j.1552-4604.1991.tb03650.x
M3 - Article
C2 - 1761722
AN - SCOPUS:0026232029
SN - 0091-2700
VL - 31
SP - 921
EP - 927
JO - The Journal of Clinical Pharmacology
JF - The Journal of Clinical Pharmacology
IS - 10
ER -