Abstract
One of the reasons for the increase in disability and mortality among the working population is cardiovascular diseases. Long-term studies of the nature of diseases belonging to this group hypertension, renovascular and malignant arterial hypertension, dyslipidemia, diabetic and dilatational cardiomyopathy, atherosclerosis, ischemic heart disease show that the main cause of pathogenesis is the formation of oxidative stress under the influence of internal and external environmental factors. Mismatch between the processes of free-radical oxidation caused by such active oxygen species as superoxide-anion radical, hydroxide-radical radical, lipid radical, hydrogen peroxide, peroxynitrite, chloric acid and the capabilities of the antioxidant system leads to a disruption of the functional activity of cell structures, displacement of homeostatic balance in the body. Despite the rather deep study of cardiovascular system pathologies, data on the functional activity of myocardial cells under destructive effects and oxidative stress are still insufficient.The article presents the study of the interrelation of the concentration distribution of enzymes of the lipidantioxidant peroxidation system in blood serum and skeletal muscle tissue of white non-pedigree rats. By means of Spearman, Gamma and Kendel Tau correlation coefficients it was revealed a reliable presence of a weak force of inverse correlation between the concentration of catalase in blood serum and skeletal muscle (Spearman R = -0.21 at p < 0.011749, Gamma = -0.14 at p < 0.010977; Kendall Tau = -0.14 at p < 0.010977).
Highlights
Adaptation of warm-blooded organisms to various factors, including muscle activity, is one of the main physiological problems
Many studies have found that adequate physical activity increases the body's resistance to oxidative stress, which is a state of hyperproduction of active oxygen species (AOS) due to increased functional capacity of oxygen transport systems, mitochondrial system, as well as the development of adaptive changes in the system POL-AO
At the first stage of the statistical analysis we checked for compliance with the normal distribution of POL-AO enzyme concentrations in blood serum and rat muscle tissue
Summary
Adaptation of warm-blooded organisms to various factors, including muscle activity, is one of the main physiological problems. Motor activity acts as a powerful health factor that enhances the functionality of various physiological systems. For normal functioning of the body and preservation of health a certain "dose" of motor activity is required [1]. Motor activity is one of the main factors determining the level of metabolic processes of the body and the state of its bone, muscle and cardiovascular systems. Many studies have found that adequate physical activity increases the body's resistance to oxidative stress, which is a state of hyperproduction of active oxygen species (AOS) due to increased functional capacity of oxygen transport systems, mitochondrial system, as well as the development of adaptive changes in the system POL-AO. Lipid peroxidation (LPO) is a chain-like process that continuously increases power over time, alters all stages of metabolism and has global functional significance
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
