Dynamics of oxidation stress markers during long-term antiorthostatic hypokinesia: A retrospective study

2016 
Nine volunteers aged 27 to 42 participated in an experiment with 370-day antiorthostatic hypokinesia at–5°C, and their blood serum samples were tested for the concentrations of lipid peroxidation (LPO) derivatives, including diene conjugates (DCs), malonic dialdehyde (MDA), and Schiff bases (SBs), and indices of the antioxidant defense system, including the tocopherol (TP) concentration and total antioxidant activity (AOA). The subjects were divided into two groups, which differed in physical training regimen and prophylaxis measures. Initial LPO steps were inhibited in both of the groups by 54–73% from day 50, while the level of SBs, which are final LPO products, decreased by 50–61% by day 230 and remained much the same up to the end of the experiment. The MDA and SB concentrations decreased by a factor of 1.6–2.3 during recovery. Total AOA decreased as an aftereffect during recovery to a level far lower than physiologically normal. Based on the significant inhibition of free-radical LPO throughout the experiment, long-term adaptation to simulated hypogravity was accompanied by a pronounced decrease in biological oxidation and caused severe stress. Substantial long-term readaptation stress developed during recovery after 370-day antiorthostatic hypokinesia, as was evident from the facts that the LPO activity was almost halved, TP concentration significantly increased, and the functional reserves of water-soluble antioxidants were exhausted. Lack of LPO activation was assumed to reflect adequate compensation in the subjects.
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