Korean Journal of Applied Biomechanics (한국운동역학회지)

Korean Society of Applied Biomechanics (한국운동역학회)
권호 표지
DOI QR코드

DOI QR Code

The Effects of Fibular Repositioning Taping on Joint Angle and Joint Stiffness of the Lower Extremity in Sagittal Plane during a Drop Landing

낙하 착지 시 FRT가 하지의 관절의 시상각과 강직도에 미치는 효과

  • Jun, Hyung-pil (Department of Physical Education, Dong-A University)
  • Received : 2021.11.01
  • Accepted : 2021.11.22
  • Published : 2021.12.31
Download PDF
⟨ Previous Next ⟩

Abstract

Objective: To investigate effects of Fibular Repositioning Taping (FRT) on lower extremity joint stiffness and angle during drop-landing. Method: Twenty-eight participants (14 healthy, 14 with chronic ankle instability [CAI]) performed drop-landings from a 60 cm box; three were performed prior to tape application and three were performed post-FRT. Three-dimensional kinematic and kinetic data were collected using an infrared optical camera system (Vicon Motion Systems Ltd. Oxford, UK) and force-plate (AMTI, Watertown, MA). Joint stiffness and sagittal angle of the ankle, knee, and hip were analyzed. Results: The hip [Healthy: p<.05; M ± SD: 29.43 ± 11.27 (pre), 33.04 ± 12.03 (post); CAI: p<.05; M ± SD: 31.45 ± 9.70 (pre), 32.29 ± 9.85 (post)] and knee [Healthy: p<.05; M ± SD: 53.44 ± 8.09 (pre), 55.13 ± 8.36 (post); CAI: p<.05; M ± SD: 53.12 ± 8.35 (pre), 55.55 ± 9.81 (post)] joints demonstrated significant increases in sagittal angle after FRT. A significant decrease in joint angle was found at the ankle [Healthy: p<.05; M ± SD: 56.10 ± 3.71 (pre), 54.09 ± 4.31 (post); CAI: p<.05; M ± SD: 52.80 ± 6.04 (pre), 49.86 ± 10.08 (post)]. A significant decrease in hip [Healthy: p<.05; M ± SD: 1549.16 ± 517.53 (pre), 1272.48 ± 646.73 (post); CAI: p<.05; M ± SD: 1300.42 ± 595.55 (pre), 1158.27 ± 550.58 (post)] and knee [Healthy: p<.05; M ± SD: 270.12 ± 54.07 (pre), 239.13 ± 64.70 (post); CAI: p<.05; M ± SD: 241.58 ± 93.48 (pre), 214.63 ± 101.00 (post)] joint stiffness was found post-FRT application, while no difference was found at the ankle [Healthy: p>.05; M ± SD: 57.29 ± 17.04 (pre), 59.37 ± 18.30 (post); CAI: p>.05; M ± SD: 69.15 ± 17.63 (pre), 77.24 ± 35.05 (post)]. Conclusion FRT application decreased joint angle at the ankle without altering ankle joint stiffness. In contrast, decreased joint stiffness and increased joint angle was found at the hip and knee following FRT. Thus, participants utilize an altered shock absorption mechanism during drop-landings following FRT. When compared to previous research, the joint kinematics and stiffness of the lower extremity appear to be different following FRT versus traditional ankle taping.

Keywords

Acknowledgement

This study was supported by Dong-A University.

References

  1. Butler, R. J., Crowell III, H. P. & Davis, I. M. (2003). Lower extremity stiffness: implications for performance and injury. Clinical Biomechanics, 18(6), 511-517. https://doi.org/10.1016/S0268-0033(03)00071-8
  2. Cho, J. H. & Kim, R. B. (2011). The effects of landing height and distance on knee injury mechanism. Korean Journal of Sport Biomechanics, 21(2), 197-205. https://doi.org/10.5103/KJSB.2011.21.2.197
  3. Chou, E., Kim, K. M., Baker, A. G., Hertel, J. & Hart, J. M. (2013). Lower leg neuromuscular changes following fibular reposition taping in individuals with chronic ankle instability. Manual Therapy, 18(4), 316-320. https://doi.org/10.1016/j.math.2012.11.004
  4. De Ridder, R., Willems, T., Vanrenterghem, J., Robinson, M. A., Palmans, T. & Roosen, P. (2015). Multi-segment foot landing kinematics in subjects with chronic ankle instability. Clinical Biomechanics, 30(6), 585-592. https://doi.org/10.1016/j.clinbiomech.2015.04.001
  5. Delahunt, E., Cusack, K., Wilson, L. & Doherty, C. (2013). Joint mobilization acutely improves landing kinematics in chronic ankle instability. Medicine & Science in Sports & Exercise, 45(3), 514-519. https://doi.org/10.1249/MSS.0b013e3182746d0a
  6. Doherty, C., Bleakley, C., Hertel, J., Caulfield, B., Ryan, J. & Delahunt, E. (2016). Single-leg drop landing movement strategies in participants with chronic ankle instability compared with lateral ankle sprain 'copers'. Knee Surgery, Sports Traumatology, Arthroscopy, 24(4), 1049-1059. https://doi.org/10.1007/s00167-015-3852-9
  7. East, M. N., Blackburn, J. T., DiStefano, L. J., Zinder, S. M. & Norcross, M. F. (2010). Effects of fibular repositioning tape on ankle kinematics and muscle activity. Athletic Training Sports Health Care, 2(3), 113-122. https://doi.org/10.3928/19425864-20100428-05
  8. Gribble, P. A., Delahunt, E., Bleakley, C., Caulfield, B., Docherty, C., Fourchet, F., Fong, D., Hertel, J., Hiller, C. & Kaminski, T. (2013). Selection criteria for patients with chronic ankle instability in controlled research: a position statement of the International Ankle Consortium. Journal of Orthopaedic & Sports Physical Therapy, 43(8), 585-591. https://doi.org/10.2519/jospt.2013.0303
  9. Gribble, P. A. & Robinson, R. H. (2009). Alterations in knee kinematics and dynamic stability associated with chronic ankle instability. Journal of Athletic Training, 44(4), 350. https://doi.org/10.4085/1062-6050-44.4.350
  10. Grimm, N. L., Jacobs Jr, J. C., Kim, J., Amendola, A. & Shea, K. G. (2016). Ankle injury prevention programs for soccer athletes are protective: a level-I meta-analysis. The Journal of Bone and Joint Surgery, 98(17), 1436-1443. https://doi.org/10.2106/JBJS.15.00933
  11. Hoch, M. C., Staton, G. S., McKeon, J. M. M., Mattacola, C. G. & McKeon, P. O. (2012). Dorsiflexion and dynamic postural control deficits are present in those with chronic ankle instability. Journal of Science Medicine in Sport, 15(6), 574-579. https://doi.org/10.1016/j.jsams.2012.02.009
  12. Hubbard, T. J. & Hertel, J. (2008). Anterior positional fault of the fibula after sub-acute lateral ankle sprains. Manual Therapy, 13(1), 63-67. https://doi.org/10.1016/j.math.2006.09.008
  13. Hyun, S. (2021). Effect of Different Drop Heights and Load on Lower Extremity Kinetics in Landing Task. The Journal of The Institute of Internet, Broadcasting and Communication, 21(3), 115-121. https://doi.org/10.7236/JIIBC.2021.21.3.115
  14. Jeon, K. & Park, J. (2021). Biomechanical Characteristic on Lower Extremity with or without Chronic Ankle Instability during Double Leg Drop Landing. Korean Journal of Sport Biomechanics, 31(2), 113-118. https://doi.org/10.5103/KJSB.2021.31.2.113
  15. Jeon, K. K., Kim, K. W., Ryew, C. C. & Hyun, S. H. (2018). Effect of Functional Ankle Instability and Surgical Treatment on Dynamic Postural Stability and Leg Stiffness Variables during Vertical-Drop Landing. Korean Journal of Sport Biomechanics, 28(2), 135-141. https://doi.org/10.5103/KJSB.2018.28.2.135
  16. Jun, H., Choi, S. & Chang, E. (2021). Influence of prophylactic ankle tapes on lower-extremity kinematics during a stop-jump task in chronic ankle instability. Journal of Men's Health, 17(4), 255-263.
  17. Kaminski, T. W., Needle, A. R. & Delahunt, E. (2019). Prevention of lateral ankle sprains. Journal of Athletic Training, 54(6), 650-661. https://doi.org/10.4085/1062-6050-487-17
  18. Kim, D. W. & Sung, K. S. (2018). Chronic Lateral Ankle Instability. Journal of Korean Foot and Ankle Society, 22(2). https://doi.org/10.14193/jkfas.2018.22.2.78
  19. Kim, E. J. & Lee, K. B. (2019). The Effects of Kinesio Taping Applying to Foot and Ankle Joints on Foot Pressure and Gait in Patients with Chronic Stroke. Journal of Neurotherapy, 23(2), 1-6.
  20. Kim, H., Son, S. J., Seeley, M. K. & Hopkins, J. T. (2018). Kinetic Compensations due to chronic ankle instability during landing and jumping. Medicine Science in Sports Exercise, 50(2), 308-317. https://doi.org/10.1249/MSS.0000000000001442
  21. Kim, R. B. & Cho, J. H. (2017). Comparative Analysis of Drop Landing Skill Level on Joint Stiffness. Journal of Sport and Leisure Studies, 70, 595-602. https://doi.org/10.51979/KSSLS.2017.11.70.595
  22. Kobayashi, T. & Gamada, K. (2014). Lateral ankle sprain and chronic ankle instability: a critical review. Foot & Ankle Specialist, 7(4), 298-326. https://doi.org/10.1177/1938640014539813
  23. Koh, Y. C., Kim, K. H., Hwang, S. W., Kim, C. Y., Cho, S. W. & Cho, J. H. (2013). Effects of Warm-up on Landing Strategy during Drop-Landing Journal of Sport and Leisure Studies, 51(2), 759-766. https://doi.org/10.51979/KSSLS.2013.02.51.759
  24. Kwon, O., Kim, H. & Shin, W. (2020). Comparison of the Effects of Different Types of Taping on Static and Dynamic Balance in Adults with Chronic Ankle Instability. Journal of The Korean Society of Integrative Medicine, 8(1), 27-36.
  25. Lee, K. I. & Hong, W. K. (2014). Analysis of Kinetic Differences According to Ankle Taping Types in Drop Landing. Korean Journal of Sport Biomechanics, 24(1), 51-57. https://doi.org/10.5103/KJSB.2014.24.1.051
  26. McCleve, IV, J. M. (2017). Effects of the Fibular Repositioning Taping on Lower Extremity Biomechanics during Gait in Active Adults with Chronic Ankle Instability. Unpublished Master's Thesis, University of Toledo.
  27. Moiler, K., Hall, T. & Robinson, K. (2006). The role of fibular tape in the prevention of ankle injury in basketball: A pilot study. Journal of Orthopaedic Sports Physical Therapy, 36(9), 661-668. https://doi.org/10.2519/jospt.2006.2259
  28. Park, S. J., Kim, T. H., Go, J. H. & Youn, P. S. (2017). The impact of convergence balance training and taping on spasticity and balance ability in patients with chronic stroke. Journal of Digital Convergence, 15(7), 297-306. https://doi.org/10.14400/JDC.2017.15.7.297
  29. Rine, J. A. (2019). Single Leg Hop Landing Analysis in Patients with Chronic Ankle Instability, Lateral Ankle Sprain Copers, and Healthy Individuals. Published Master's Thesis by ProQuest LLC, Illinois State University.
  30. Sarcon, A. K., Heyrani, N., Giza, E. & Kreulen, C. (2019). Lateral ankle sprain and chronic ankle instability. Foot Ankle Orthopaedics, 4(2), 2473011419846938.
  31. Seegmiller, J. G. & McCaw, S. T. (2003). Ground reaction forces among gymnasts and recreational athletes in drop landings. Journal of Athletic Training, 38(4), 311.
  32. Song, K., Jang, W. & Oh, J. (2013). Difference in ROM, Balance, Proprioception, Agility according to Types of Taping. The Korean Journal of Sport, 11(4), 461-471.
  33. Theisen, A. & Day, J. (2019). Chronic ankle instability leads to lower extremity kinematic changes during landing tasks: a systematic review. International Journal of Exercise Science, 12(1), 24.
  34. Won, K. H. & Lee, M. G. (2012). Effects of adhesive ankle taping on range of motion, proprioception, and functional performance capability in basketball players with functional ankle instability. Exercise Science, 21(1), 11-22. https://doi.org/10.15857/KSEP.2012.21.1.11
  35. Yeow, C. H., Lee, P. V. S. & Goh, J. C. H. (2011). An investigation of lower extremity energy dissipation strategies during single-leg and double-leg landing based on sagittal and frontal plane biomechanics. Human Movement Science, 30(3), 624-635. https://doi.org/10.1016/j.humov.2010.11.010