Design and evaluation of comprehensive rehabilitation plan for functional recovery of tennis players’ knee joint injuries

  • Shunyong Wang Xijing University, Xi’an 710123, China
DOI: https://doi.org/10.62617/mcb427
Keywords: rehabilitation plan, functional recovery, biomechanical analysis, knee joint injuries, tennis players, statistical analysis
Ariticle ID: 427

Abstract

Tennis is a popular game among people of all ethnicities. During the game, players work their lower limbs intensively, which leads to their knee joints getting very painful and injured. Many injuries can be sustained during play, including ligament sprains, tears to the meniscus, and pains to the patellar tendon due to sudden stops, changes of direction, and twist running. To understand the mechanics of these injuries, there is an obligatory use of biomechanical techniques that allow one to determine the exact loads and movements that lead to these injuries. The study is to evaluate the efficiency of the complex rehabilitation record aimed at restoring the functions of the injured knee joints in tennis players. One hundred forty-six tennis players with a past of knee joint troubles were included. The subjects were separated into two groups: Group A prescribed a rehabilitation program, while Group B underwent standard treatment. To determine the result of the rehabilitation program on the participants’ physical state, data such as joint angles, gait analysis, and force measurements were collected. The treatment program included rehabilitation approaches, such as active range of motion, flexibility exercises, muscle balance, static and dynamic strength training, and others. With respect to statistical analysis, the obtained data were tested by ANOVA, t-tests, logistic regression and correlation to assess functional outcome variances within and among the groups. Thus, the data were analyzed using SPSS. In functional outcomes, between Group A and Group B, the treatment outcome was significantly improved due to the intensive comprehensive rehabilitation program. Long-term recovery satisfaction among the athletes improved with time, confirming the benefits of a well-structured rehabilitation provision. The current research report offers substantial perspectives on the improvement of recovery programs drawn for tennis players. It highlights the importance of a tailored sports rehabilitation program in optimizing performance and minimizing the risk of injuries recurring.

References

1. Wörner, E.A. and Safran, M.R., 2022. Racquet sports: tennis, badminton, racquetball, squash. In Specific Sports-Related Injuries (pp. 431–446). Cham: Springer International Publishing.

2. Diaconu, M., Kuwelkar, S. and Kuhn, A., 2021. The court of arbitration for sport jurisprudence on match-fixing: a legal update. The International Sports Law Journal, 21(1), pp.27–46.

3. Musa, R.M., Hassan, I., Abdullah, M.R., LatiffAzmi, M.N., Abdul Majeed, A.P. and Abu Osman, N.A., 2022. A longitudinal analysis of injury characteristics among elite and amateur tennis players at different tournaments from electronic newspaper reports. Frontiers in Public Health, 10, p.835119.

4. Karlström, J., Wiklund, M. and Tengman, E., 2022. Disrupted knee–disrupted me: a strenuous process of regaining balance in the aftermath of an anterior cruciate ligament injury. BMC musculoskeletal disorders, 23(1), p.290.

5. Fernandez-Fernandez, J., Moreno-Perez, V., Cools, A., Nakamura, F.Y., Teixeira, A.S., Ellenbecker, T., Johansson, F. and Sanz-Rivas, D., 2023. The effects of a compensatory training program adding an isoinertial device in the shoulder function on young tennis players. The Journal of Strength & Conditioning Research, 37(5), pp.1096–1103.

6. Irawan, R., Azam, M., Rahayu, S., Setyawati, H., Adi, S., Priyono, B. and Nugroho, A., 2023. Biomechanical Motion of the Tennis Forehand Stroke: Analyzing the Impact on the Ball Speed Using Biofor Analysis Software. Physical Education Theory and Methodology, 23(6), pp.918–924.

7. Vincent, H.K., Brownstein, M. and Vincent, K.R., 2022. Injury prevention, safe training techniques, rehabilitation, and return to sport in trail runners. Arthroscopy, sports medicine, and rehabilitation, 4(1), pp.e151–e162.

8. Donnelly, C.J., Jackson, B.S., Gucciardi, D.F. and Reinbolt, J., 2020. Biomechanically-informed training: the four pillars for knee and ACL injury prevention built upon behavior change and motivation principles. Applied Sciences, 10(13), p.4470.

9. Shannon, N., Cable, B., Wood, T. and Kelly IV, J., 2020. Common and less well-known upper-limb injuries in elite tennis players. Current sports medicine reports, 19(10), pp.414–421.

10. Codsi, M., McCarron, J. and Brems, J.J., 2021. Clinical evaluation of shoulder problems. Philadelphia, PA, 2009, pp.145–176.

11. Bullock, G.S., Collins, G.S., Peirce, N., Arden, N.K. and Filbay, S.R., 2020. Playing sport injured is associated with osteoarthritis, joint pain and worse health-related quality of life: a cross-sectional study. BMC musculoskeletal disorders, 21, pp.1–11.

12. Severyn, A.M., 2022. Development and Application of 3D Kinematic Methodologies for Biomechanical Modelling in Adaptive Sports and Rehabilitation.

13. Zhu, L., Li, P., Qin, Y., Xiao, B., Li, J., Xu, W. and Yu, B., 2024. Platelet-rich plasma in orthopedics: bridging innovation and clinical applications for bone repair. Journal of Orthopaedic Surgery, 32(1), p.10225536231224952.

14. Jacob, A., 2023. Injury Prevention and Rehabilitation in Sports. International Journal of Sports, Yoga and Physical Activity, ISSN: 3005-5083, 2(1), pp.8–13.

15. Davis, C.M., 2024. Integrative therapies in rehabilitation: Evidence for efficacy in therapy, prevention, and wellness. Taylor & Francis.

16. Yin, J., Yang, Z., Li, Y. and Wang, L., 2022. Function monitoring and recovery methods in the rehabilitation of tennis players. RevistaBrasileira de MedicinadoEsporte, 28(6), pp.690–693.

17. Chen, J. and Chen, Y., 2022. Nanoligament Combined with Tennis Exercise on Rehabilitation Training for Treatment of Ligament Injury Patients. Journal of Nanomaterials, 2022(1), p.1575200.

18. Cigercioglu, N.B., Guney-Deniz, H., Unuvar, E., Colakoglu, F. and Baltaci, G., 2021. Shoulder range of motion, rotator strength, and upper-extremity functional performance in junior tennis players. Journal of sport rehabilitation, 30(8), pp.1129–1137.

19. Liu, B. and Yi, Y., 2023. Effects of functional training on the hitting quality of tennis players. RevistaBrasileira de MedicinadoEsporte, 29, p.e2022_0620.

20. Martin, C., Sorel, A., Touzard, P., Bideau, B., Gaborit, R., DeGroot, H. and Kulpa, R., 2021. Influence of the forehand stance on knee biomechanics: Implications for potential injury risks in tennis players. Journal of sports sciences, 39(9), pp.992–1000.

21. Purushothaman, V.K., Roshan, R., Subbarayalu, A.V., Palanivel, R.M., Orhan, B.E., Gohel, B., Kandasamy, M. and Chandrasekaran, K., 2024. Comparative Analysis of Balance Metrics in Injured versus Healthy Professional Tennis Players. Physical Education Theory and Methodology, 24(4), pp.596–601.

22. Lv, T. and Fu, T., 2022. Physical training guided by functional movement screen in the rehabilitation of sports injuries. RevistaBrasileira de MedicinadoEsporte, 28, pp.557–560.

23. Liu, S., Cui, B. and Liang, C., 2024. Rehabilitation strategies and magnetic resonance imaging techniques for shoulder injuries in sports. Journal of Radiation Research and Applied Sciences, 17(1), p.100813.

24. Liu, L., 2022. Correlation between location and cause of injuries in tennis players. RevistaBrasileira de MedicinadoEsporte, 29, p.e2022_0299.

25. Liang, Z., Wu, J., Yu, J., Ying, S., Liu, Z., Zhang, Y., Gu, Y. and Li, J., 2023. Comparison and analysis of the biomechanics of the lower limbs of female tennis players of different levels in foot-up serve. Frontiers in Physiology, 14, p.1125240.

26. Krueckel, J., Szymski, D., Lenz, J., Fluegel, J., Weber, J., Achenbach, L., Meffert, R., Alt, V. and Fehske, K., 2024. Tennis injuries among German league players: investigating patterns and epidemiology of acute and chronic injuries. Open access journal of sports medicine, pp.67–75.

27. Xiao, W., Bai, X., Geok, S.K., Yu, D. and Zhang, Y., 2023. Effects of a 12-week functional training program on the strength and power of Chinese adolescent tennis players. Children, 10(4), p.635.

28. Rytelewski, M., WaldziŃska, E. and WaldziŃski, T., 2023. ASSESSMENT OF THE IMPACT OF PHYSIOTHERAPY ON THE FREQUENCY OF INJURIES IN TENNIS. Polish Journal of Applied Sciences, 9(1).

29. Kazemi, S., Alizadeh, M.H. and Daneshmandi, H., 2024. Investigating the validity and reliability of the functional movement screening tool in tennis as a predictor of injury.

30. Mainer-Pardos, E., Álvarez, V.E.V., Moreno-Apellaniz, N., Gutiérrez-Logroño, A. and Calero-Morales, S., 2024. Effects of a neuromuscular training program on the performance and inter-limb asymmetries in highly trained junior male tennis players. Heliyon, 10(5).

Published
2024-11-07
How to Cite
Wang, S. (2024). Design and evaluation of comprehensive rehabilitation plan for functional recovery of tennis players’ knee joint injuries. Molecular & Cellular Biomechanics, 21(2), 427. https://doi.org/10.62617/mcb427
Issue
Vol. 21 No. 2 (2024)
Section
Article

Copyright (c) 2024 Shunyong Wang

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Copyright on all articles published in this journal is retained by the author(s), while the author(s) grant the publisher as the original publisher to publish the article.

Articles published in this journal are licensed under a Creative Commons Attribution 4.0 International, which means they can be shared, adapted and distributed provided that the original published version is cited.