Physiological Cost of Physical Exercise and Mitochondrial Volume in Working Muscles of Subjects Exposed to Long-Term Hypokinesia: Effects of Local Resistance Exercise

Abstract

The results of changes in the physiological cost of 30-min submaximal aerobic bicycle ergometric exercise and characteristics of the mitochondrial apparatus of m. vastus lateralis were assessed comparatively during 120-day (–6°) antiorthostatic hypokinesia either without prophylactic measures or with low-intensity resistance exercise training for 60 days using a Penguin exercise suit. Hypokinesia was accompanied by an increase in the working heart rate and lactate accumulation in the blood during the test exercise, as well as by a decrease in the myofibril size and the volume density of mitochondria in the m. vastus lateralis fibers. The patterns of dynamic changes in the lactate concentration in the blood during exercise training and in the volume density of central mitochondria were found to be similar. A correlation between the rate of lactate accumulation in the blood during the test exercise and the volume density of mitochondria in the working muscle appeared after long-term (60 days) exposure to hypokinesia. The use of the Penguin exercise suit in dynamic mode during prolonged (60-day) exposure to hypokinesia completely prevented the following effects: atrophy of slow-type fibers, a decrease in the volume density of central mitochondria, and an increase in the level of lactate accumulation in the blood under conditions of a standard submaximal aerobic exercise load. The correlation links between the oxidative potential of working muscle and the energy supply of muscular work are discussed.