A multivariate study on the regulation of metabolic patterns of human fat cells by aerobics exercise from the perspective of biomechanics
Abstract
This paper explores the principle of aerobics exercise and proposes the process of aerobic exercise on energy metabolism and lipid metabolism based on this principle, breaking down fat metabolism into several parts of digestion, absorption, decomposition and synthesis to simulate the process of fat metabolism. A two-way ANOVA was used to analyze the multivariate effects of aerobics exercise on the regulation of human adipocyte metabolic patterns. The results showed that after 6 weeks of intervention, the total cholesterol level of the aerobics exercise group returned to the normal range, and compared with the pre-intervention total cholesterol level decreased by 0.391 mmol/L and there was a significant difference, with a p value of less than 0.05. After 12 weeks of intervention, the total cholesterol level of the aerobics exercise group and the tai chi exercise group returned to the normal range, and the total cholesterol level of the aerobics exercise group compared with the pre-intervention total cholesterol level decreased by 0.676 mmol/L and the total cholesterol level decreased by 0.676 mmol/L. level decreased by 0.676 mmol/L, again with a significant difference. After aerobics exercise, the changes of adipocytokines of serum leptin and resistin were lower than those of the control group, and the changes of cytokines were 7.889 μg/dl and 6.948 μg/dl, respectively, which showed that the effect of aerobics exercise on the metabolism of adipocytes in the human body was more obvious. After the intervention of aerobic exercise lasting 12 weeks, it can effectively alleviate the cell morphological changes caused by high total cholesterol, and play a preventive role in the cell damage induced by high total cholesterol.
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