آمار

تعداد نشریات26
تعداد شماره‌ها405
تعداد مقالات3,552
تعداد مشاهده مقاله5,511,068
تعداد دریافت فایل اصل مقاله3,770,219
Hoseini, Yasin, Alemzadeh, Mahboobeh. (1402). The Immediate Effect of Medical Insoles on Kinematic Variables of Lower Limb Joints in People with Ankle Sprains during Running. سامانه مدیریت نشریات علمی, 7(4), 47-56. doi: 10.22098/jast.2023.2904
Yasin Hoseini; Mahboobeh Alemzadeh. "The Immediate Effect of Medical Insoles on Kinematic Variables of Lower Limb Joints in People with Ankle Sprains during Running". سامانه مدیریت نشریات علمی, 7, 4, 1402, 47-56. doi: 10.22098/jast.2023.2904
Hoseini, Yasin, Alemzadeh, Mahboobeh. (1402). 'The Immediate Effect of Medical Insoles on Kinematic Variables of Lower Limb Joints in People with Ankle Sprains during Running', سامانه مدیریت نشریات علمی, 7(4), pp. 47-56. doi: 10.22098/jast.2023.2904
Hoseini, Yasin, Alemzadeh, Mahboobeh. The Immediate Effect of Medical Insoles on Kinematic Variables of Lower Limb Joints in People with Ankle Sprains during Running. سامانه مدیریت نشریات علمی, 1402; 7(4): 47-56. doi: 10.22098/jast.2023.2904

The Immediate Effect of Medical Insoles on Kinematic Variables of Lower Limb Joints in People with Ankle Sprains during Running

Journal of Advanced Sport Technology
دوره 7، شماره 4 - شماره پیاپی 15، اسفند 2023، صفحه 47-56    اصل مقاله (367.63 K)
نوع مقاله: Original research papers
شناسه دیجیتال (DOI): 10.22098/jast.2023.2904
نویسندگان
Yasin Hoseini* 1؛ Mahboobeh Alemzadeh2
1Department of Sports Sciences, Faculty of human Sciences, Malayer University, Malayer, Hamedan, Iran.
2Department of Sports Biomechanics, Faculty of Sport Sciences, Bu-Ali Sin University, Hamedan, Iran.
چکیده
Ankle sprain is one of the common injuries among athletes and the general public. It seems that limiting the range of motion of ankle inversion can have positive effects on reducing the recurrence rate of ankle sprains. Therefore, the aim of this research is to use medical insoles to prevent excessive ankle movements. 10 soccer players with ankle sprains participated in this research. Kinematic data were collected using a motion recording system including four Vicon cameras and light-reflecting markers with a sampling rate of 100 Hz in two conditions running with and without insoles. Then the peak range of motion of inversion/eversion, dorsiflexion/plantarflexion, abduction/adduction in the ankle and flexion movements, internal/external rotation, abduction/adduction in the knee and flexion/extension movements, internal/external rotation and abduction/adduction in the hip joint in two conditions, with and without medical insoles was evaluated. Repeated measurement analysis of variance was used for intragroup comparison with a significance level (P˂0.05) for statistical analysis. The results of this research showed that medical insoles reduce ankle dorsiflexion (p=0.036, d=1.14), inversion (p=0.003, d=1.44) and abduction (p=0.007: d=1.6). Also, the use of insoles decreased the internal rotation of the knee (p=0.04, d=0.61). Therefore, the use of insoles reduces the kinematic risk factors of ankle sprain and helps the stability of the ankle joint during running. As a result, the use of medical insoles can be suggested as a suitable therapeutic intervention to prevent ankle sprains.
کلیدواژه‌ها
Lateral Ankle Sprain؛ Kinematic؛ Insole؛ Running
مراجع
  1. Wang, Xiaoya, Jihong Qiu, and Daniel TP Fong. The applications of wearable devices in the rehabilitation of ankle injuries: A systematic review and meta-analysis. Medicine in Novel Technology and Devices 2023;(21): 100-112.‏
  2. Hertel, Jay, and Revay O. Corbett. An updated model of chronic ankle instability. Journal of athletic training. 2019;(54.6): 572-588.‏
  3. Ha, Sophia Chui-Wai, Daniel Tik-Pui Fong, and Kai-Ming Chan. Review of ankle inversion sprain simulators in the biomechanics laboratory. Asia-Pacific journal of sports medicine, arthroscopy, rehabilitation and technology. 2015;(2.4):114-121.‏
  4. Khalaj, Nafiseh,. Is chronic ankle instability associated with impaired muscle strength? Ankle, knee and hip muscle strength in individuals with chronic ankle instability: a systematic review with meta-analysis. British Journal of Sports Medicine. 2020;(2):24-38.‏
  5. Jeon, Kyoungkyu, Kewwan Kim, and Nyeonju Kang. Leg stiffness control during drop landing movement in individuals with mechanical and functional ankle disabilities. Sports Biomechanics. 2022 (21.9): 1093-1106.‏
  6. Delahunt, E., Bleakley, C. M., Bossard, D. S., Caulfield, B. M., Docherty, C. L., Doherty, C., ... & Gribble, P. A. Clinical assessment of acute lateral ankle sprain injuries (ROAST): consensus statement and recommendations of the International Ankle Consortium. British journal of sports medicine. 2018;(21): 1021-1032.‏
  7. Zhang, J., Yang, K., Wang, C., Gu, W., Li, X., Fu, S., ... & Shi, Z. Risk factors for chronic ankle instability after first episode of lateral ankle sprain: A retrospective analysis of 362 cases. Journal of Sport and Health Science.‏ 2023;(22):234-244.
  8. Wikstrom, Erik A., Tricia Hubbard-Turner, and Patrick O. McKeon. Understanding and treating lateral ankle sprains and their consequences: a constraints-based approach. Sports medicine. 2013;(43): 385-393.‏
  9. van Dijk, C. Niek, and Gwendolyn Vuurberg. There is no such thing as a simple ankle sprain: clinical commentary on the 2016 International Ankle Consortium position statement. British Journal of Sports Medicine. 2016;(32):43-56.
  10. Kosik, K. B., McCann, R. S., Terada, M., & Gribble, P. A. (2016). Therapeutic interventions for improving self-reported function in patients with chronic ankle instability: a systematic review. British Journal of Sports Medicine. ‏2016;(23):57-68.
  11. Gribble, P. A., Bleakley, C. M., Caulfield, B. M., Docherty, C. L., Fourchet, F., Fong, D. T. P., ... & Delahunt, E. Evidence review for the 2016 International Ankle Consortium consensus statement on the prevalence, impact and long-term consequences of lateral ankle sprains. British journal of sports medicine. ‏2016;(23):88-99.
  12. Kaminski, Thomas W., Alan R. Needle, and Eamonn Delahunt. Prevention of lateral ankle sprains. Journal of Athletic Training. 2019;(54.6): 650-661.‏
  13. Bahr, Roald, and Tron Krosshaug. Understanding injury mechanisms: a key component of preventing injuries in sport. British journal of sports medicine. 2005;(39.6): 324-336.‏
  14. Garrick, James G. The frequency of injury, mechanism of injury, and epidemiology of ankle sprains. The American journal of sports medicine. 1977;(5.6): 241-242.‏
  15. Andersen, T. E., Floerenes, T. W., Arnason, A., & Bahr, R. Video analysis of the mechanisms for ankle injuries in football. The American journal of sports medicine. 2004;(32):69-79.‏
  16. Fong, D. T. P., Hong, Y., Shima, Y., Krosshaug, T., Yung, P. S. H., & Chan, K. M. Biomechanics of supination ankle sprain: a case report of an accidental injury event in the laboratory. The American journal of sports medicine. 2009;37(4), 822-827.‏
  17. Terada, M., Bowker, S., Thomas, A. C., Pietrosimone, B., Hiller, C. E., Rice, M. S., & Gribble, P. A. (). Alterations in stride-to-stride variability during walking in individuals with chronic ankle instability. Human movement science. 2015; 40(1): 154-162.‏
  18. Suphasubtrakul, Thitirat, Raweewan Lekskulchai, and Chutima Jalayondeja. Balance, strength and physical activity after ankle sprain: Comparison between children with chronic ankle instability and copers. Physical Therapy in Sport. 2024;(65): 49-53.‏
  19. Moisan, G., Mainville, C., Descarreaux, M., & Cantin, V. Effects of foot orthoses on walking and jump landing biomechanics of individuals with chronic ankle instability. Physical Therapy in Sport. 2019;(40):53-58.‏
  20. Doherty, C., Bleakley, C., Delahunt, E., & Holden, S. Treatment and prevention of acute and recurrent ankle sprain: an overview of systematic reviews with meta-analysis. British journal of sports medicine. ‏2016.
  21. Hadadi, M., Ebrahimi, I., Mousavi, M. E., Aminian, G., Esteki, A., & Rahgozar, M. The effect of combined mechanism ankle support on postural control of patients with chronic ankle instability. Prosthetics and Orthotics International. 2017;41(1):58-64. ‏
  22. Abbasi, Faezeh, Mahmood Bahramizadeh, and Mohammad Hadadi. Comparison of the effect of foot orthoses on Star Excursion Balance Test performance in patients with chronic ankle instability. Prosthetics and Orthotics International. 2019;(43.1):6-11. ‏
  23. Faul, F., Erdfelder, E., Lang, A. G., & Buchner, A. G* Power 3: A flexible statistical power analysis program for the social, behavioral, and biomedical sciences. Behavior research methods. 2007;(39):175-191.‏
  24. Ross, S. E., Guskiewicz, K. M., Gross, M. T., & Yu, B. Assessment tools for identifying functional limitations associated with functional ankle instability. Journal of athletic training. 2008; 43(1): 44-50.
  25. Jafarnezhadgero AA, Shad MM, Majlesi M, Granacher U. A comparison of running kinetics in children with and without genu varus: A cross sectional study. PloS one. 2017 Sep 19;12(9): 185-194.
  26. Cohen, Jacob. Statistical power analysis for the behavioral sciences. Academic press, 2013.‏
  27. Kraus, Moritz, et al. "Significant influence of ankle orthoses on knee joint kinematics." GAIT & POSTURE. 2023;(100):15-25. ‏
  28. Lack, S., Barton, C., Malliaras, P., Twycross-Lewis, R., Woledge, R., & Morrissey, D. The effect of anti-pronation foot orthoses on hip and knee kinematics and muscle activity during a functional step-up task in healthy individuals: a laboratory study. Clinical biomechanics.2014;(29):177-182. ‏
  29. Simpson, J. D., Stewart, E. M., Macias, D. M., Chander, H., & Knight, A. C. Individuals with chronic ankle instability exhibit dynamic postural stability deficits and altered unilateral landing biomechanics: A systematic review. Physical Therapy in Sport. 2019;(37): 210-219. ‏
  30. Moisan, G., Mainville, C., Descarreaux, M., & Cantin, V. Effects of foot orthoses on walking and jump landing biomechanics of individuals with chronic ankle instability. Physical Therapy in Sport. 2019;(40):53-58.‏
  31. Prieske, O., Muehlbauer, T., Mueller, S., Krueger, T., Kibele, A., Behm, D. G., & Granacher, U. Effects of surface instability on neuromuscular performance during drop jumps and landings. European Journal of Applied Physiology. 2013;(113):2943-2951.‏
  32. Dingenen, B., Peeraer, L., Deschamps, K., Fieuws, S., Janssens, L., & Staes, F. Muscle-activation onset times with shoes and foot orthoses in participants with chronic ankle instability. Journal of athletic training. 2015;(50):688-696.‏
  33. Gehring, D., Wissler, S., Lohrer, H., Nauck, T., & Gollhofer, A. Expecting ankle tilts and wearing an ankle brace influence joint control in an imitated ankle sprain mechanism during walking. Gait & posture. 2014;(39):894-898.‏
  34. Mok, K. M., Ha, S. C., Chan, Z. Y., Yung, P. S., & Fong, D. T. An inverted ankle joint orientation at foot strike could incite ankle inversion sprain: Comparison between injury and non-injured cutting motions of a tennis player. The Foot. 2021;(48):101-113.‏
  35. Lin, C. Y., Shau, Y. W., Wang, C. L., & Kang, J. H. Modeling and analysis of the viscoelastic response of the ankle ligament complex in inversion ankle sprain. Annals of biomedical engineering. 2015;(43):2047-2055.‏
  36. Hoseini, Yasin, and Mahboobe Alemzade. The Immediate Effect of the Use of Arch Support Insole on the Components of Ground Reaction Forces during Running in People with Functional Ankle Instability. Journal of Advanced Sport Technology. 2021;(5.2):36-46.‏
  37. Barton, C. J., Levinger, P., Crossley, K. M., Webster, K. E., & Menz, H. B. The relationship between rearfoot, tibial and hip kinematics in individuals with patellofemoral pain syndrome. Clinical biomechanics. 2012;(27):702-705.‏
 

آمار
تعداد مشاهده مقاله: 155
تعداد دریافت فایل اصل مقاله: 166


سامانه مدیریت نشریات علمی. قدرت گرفته از سیناوب