Observe Athlete’s Ankle Pain and Ankle Joint Muscle Characteristics Based on Microscope Images

Objective. To observe the characteristics of ankle pain and ankle joint muscle by microscope. Methods. In a sports university, 15 athletes above grade 2 were randomly selected as the experimental group, and 15 nonathletes were randomly selected as the control group. The experiment mainly included fo...

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Autores principales: Mingzhi Li, Lina Sun
Formato: article
Lenguaje:EN
Publicado: Hindawi Limited 2021
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Acceso en línea:https://doaj.org/article/66007b7968d143169f3bc3de17815ec9
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Sumario:Objective. To observe the characteristics of ankle pain and ankle joint muscle by microscope. Methods. In a sports university, 15 athletes above grade 2 were randomly selected as the experimental group, and 15 nonathletes were randomly selected as the control group. The experiment mainly included foot shape test, standard scaphoid height test, ankle range of motion test, ankle muscle emg test, and other experimental procedures. Medical microscopic image processing is a new technology developed in the past thirty years, which has brought great progress for mankind to understand and transform nature. Among them, the image processing and recognition of tumor cell microscopic images are one of the research focuses on the use of computers to process and recognize medical images. Results. In the test of ankle range of motion, when the angular velocity was the same as 60°/s, compared with the control group, the difference value of bilateral flexor peak moment in the experimental group was large, and the difference between the two groups was significant (P<0.05), with statistical significance. As the angular velocity dropped from 240°/s to 60°/s, 30 members of the experimental group and control group also experienced a decrease in the bilateral ankle isokyclic muscles, reflecting their lack of ankle strength. On the other hand, the muscle strength of the ankle joint in the experimental group was relatively small, and the difference between the two groups was significant (P<0.05). During the exercise, some members of the experimental group suffered from ankle pain, which resulted in insufficient strength of the muscles of the ankle joint, resulting in the interruption of the experiment. In the emg test of ankle muscles, the effective discharge values of preexcitation current of tibial anterior muscle before and after exercise were 104.6±26.5 and 129.2±38.1, respectively, with significant difference and statistical significance. In the foot morphology test and the standard scaphoid height test, the difference between the two groups was not significant (P>0.05), and there was no statistical significance. Conclusion. Microscope based on athlete’s foot and ankle pain and ankle muscle characteristics to improve the accuracy of the observation, with the help of a microscope, you can see the details of a doctor are invisible to the naked eye and can record the relevant data in time in order to observe the late, for athlete’s foot and ankle pain relief and enhanced ankle muscles provide data support.