Study on the biomechanical mechanism of ankle joint injury in martial arts and application of tissue engineering bone repair materials
Abstract
As a high-intensity competitive sport, martial arts has high explosive power and complex joint movement patterns. Ankle injury is one of the common sports injuries. This paper analyzes the mechanism of ankle injury and the influence of relevant mechanical factors on ankle injury in combination with the biomechanical characteristics of martial arts movements. At the same time, with the continuous development of biomedical engineering, the application of tissue engineering bone repair materials in bone injury repair has received widespread attention. This paper focuses on applying tissue engineering bone repair materials after ankle injury in martial arts sports and analyzes its biocompatibility, mechanical properties, and clinical effects in the bone repair process. Studies have shown that tissue engineering materials can effectively promote bone regeneration, accelerate healing, and show good prospects in reducing the recovery period of athletes. Finally, this article proposes the future application prospects and development direction of tissue engineering bone repair materials in martial arts sports injury repair.
References
1. Yan S, Li D. Observation on the efficacy of sand therapy combined with rehabilitation training and holographic scraping on acute ankle injury caused by military training. Chinese Journal of Convalescent Medicine. 2023.
2. Chen B, Dong B, Luo X, et al. Observation on the effect of balance board motion control training on the rehabilitation of ankle joint injury after repair surgery. Chinese Journal of Rehabilitation. 2025.
3. Sun Q, Tian L, Gao M, et al. Effects of VSD-assisted treatment of soft tissue defect in tibia and fibula fracture on ankle function and stress response of patients. Journal of Practical Orthopaedics. 2023.
4. Xiong Y, Liu H, Liu G, et al. Analysis of the efficacy of fibula intramedullary nail in the treatment of unstable ankle fractures with varying degrees of soft tissue injury. Orthopaedics; 2023.
5. Al Attar WSA, Khaledi EH, Bakhsh JM, et al. Injury prevention programs that include balance training exercises reduce ankle injury rates among soccer players: a systematic review. Journal of physiotherapy. 2022.
6. Li F, Adrien N, He Y. Biomechanical risks associated with foot and ankle injuries in ballet dancers: A systematic review. International journal of environmental research and public health. 2022.
7. Jin H, Qing H, Guang W. Research on the application of functional training in physical training of competitive martial arts routines. Modern Education Frontier; 2022.
8. Liu H, Yin H, Mei B, et al. Risk assessment of knee joint injury caused by 24-posture simplified Tai Chi wild horse mane movement. Chinese Journal of Rehabilitation Theory and Practice. 2022.
9. Koushik TM, Miller CM, Antunes E. Bone tissue engineering scaffolds: function of multi-material hierarchically structured scaffolds. Advanced healthcare materials; 2023.
10. Xue N, Ding X, Huang R, et al. Bone tissue engineering in the treatment of bone defects. Pharmaceuticals; 2022.
11. Xie C, Ye J, Liang R, et al. Advanced strategies of biomimetic tissue‐engineered grafts for bone regeneration. Advanced healthcare materials; 2021.
12. Hao J. Research progress on sports biomechanical analysis of ankle joint injuries. Contemporary Sports Science and Technology; 2022.
13. Wang Z, Meng X, Zhang Z, et al. Biomechanical characteristics of lower limbs during squat jump in men with functional ankle instability. Chinese Journal of Tissue Engineering Research. 2025.
14. Bai Z, Cao X, Sun C, et al. Construction of finite element model and biomechanical analysis of ankle joint during gait cycle. Chinese Journal of Tissue Engineering Research. 2022.
15. Li F. Sports biomechanical analysis of knee joint injuries caused by martial arts flying movements during landing phase. Journal of Taiyuan University of Technology. 2021.
16. Liu G, Li J, Ma S, et al. Kinematic characteristics analysis of whip kick technique of Sanda athletes of different sports levels. Journal of Henan Normal University (Natural Science Edition). 2022.
17. Jiang J, Sun X, Deng Z, et al. Template-guided and data-driven three-dimensional bone repair method. Journal of Jilin University (Science Edition). 2021.
18. Li Q, Han S, Jia E, et al. Repair and reconstruction of ankle fracture with deltoid ligament injury. Chinese Journal of Tissue Engineering Research. 2022.
19. Li W, Bao J, Jin L, et al. Research progress of hydroxyapatite composite materials in bone tissue engineering. Journal of Sichuan University (Medical Sciences). 2021.
20. Zhou Y, Shen L, Wan S, et al. Application and development of bone tissue engineering scaffolds with osteoimmunomodulatory properties in repairing bone defects. Chinese Journal of Tissue Engineering Research. 2024.
21. Ma J, Su X, Tang B, et al. Research progress on degradation behavior of absorbable materials in bone repair. Chinese Journal of Biomedical Engineering. 2023.
22. Niu X, Liu K, Liao Z, et al. Electrospun nanofibers based on bone tissue engineering. Progress in Chemistry; 2022.
23. Xu D, Zhou H, Quan W, et al. New insights optimize landing strategies to reduce lower limb injury risk. Cyborg and Bionic Systems; 2024.
24. Xu D, Zhou H, Quan W, et al. Accurately and effectively predict the ACL force: Utilizing biomechanical landing pattern before and after-fatigue. Computer Methods and Programs in Biomedicine; 2023.
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