Effect of Exercise Intensity on Bone Density and Bone Metabolism in Diabetic Rats

In recent years, exercise therapy has been widely used in clinical treatment due to its safety and effectiveness. It has been confirmed in the rehabilitation of various diseases such as bone and joint injuries, craniocerebral trauma, and sleep disorders. The purpose of this article is to explore the specific impact of different sports intensities on changes in bone mineral density and bone metabolism in diabetic rats. The conclusions drawn from this study provide an experimental basis for the correlation between diabetes and bone tissue. And further provide support for the prevention and treatment of diabetic osteoporosis. Firstly, a model of diabetic rats was constructed. The experimental object-rats with diabetes were randomly selected Divided into diabetic control group, and then divided the rats into high-intensity exercise group, medium-intensity exercise group and small-intensity exercise group according to different training intensity of the treadmill. By comparing the test results, the bone density of rats with different exercise intensity was analyzed and the different effects of bone metabolism. The method in this paper is to measure the blood glucose, bone density, alkaline phosphorylase blood calcium (S-Ca) and blood phosphorus (SP) content of rats in each group before and after exercise, and then draw the corresponding conclusions through data comparison, through theory Innovative exploration to find sports patterns that are more likely to cause injury. The results of the experimental study are as follows: the blood glucose content of the high-intensity exercise group is 8 mmol/L, the medium-intensity exercise group and the low-intensity exercise groups are 12 mmol/L and 13 mmol/L, respectively. The blood sugar content of the control group was 26mmol/L. From this result, we can see that the blood glucose of the exercise group is lower than that before training and the control group (P