
As a prelude to a flight experiment, an attempt was made to separate energy requirements associated with gravity from all other metabolic needs. The biological effects of weightlessness were simulated by suspending animals in a harness so that antigravity muscles were not supporting the body. Twelve pairs of rats were allowed to adapt to wearing a harness for 5 d. Experimental animals were then suspended in harness for 7 d followed by recovery for 7 d. Control animals were harnessed but never suspended. VO2, VCO2 and rate of 14CO2 expiration from radio-labeled glucose were monitored on selected days. Food intake and body mass were recorded daily. Metabolic rate decreased in experimental animals during 7 d of suspension and returned to normal during recovery. Although some of the metabolic changes may have related to variation in food intake, simulated weightlessness appears to directly affect bioenergetic balance.
Male, Time Factors, Weightlessness, Respiration, Body Weight, Carbon Dioxide, Rats, Eating, Oxygen Consumption, Animals, Energy Metabolism
Male, Time Factors, Weightlessness, Respiration, Body Weight, Carbon Dioxide, Rats, Eating, Oxygen Consumption, Animals, Energy Metabolism
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