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The testing of dynamic balance involves tests that assess the muscle control of spatial changes of the position of the centre of gravity over the base of support. The purpose of this work was to determine the structure of the Y-balance test and its accuracy based on the measurements of strength performance of the muscles acting on the knee joint, as well as the flexibility and balance in boys aged 14 years. Methods: The study included 43 schoolboys regularly participating in physical education lessons. The examination of postural stability was conducted with the use of the Y-balance test. The measurements of muscle strength and of resistance to fatigue of the extensors and flexors of knee joints in isometric contraction were performed on a measurement stand in a standard position with the use of tensometric sensors. The measurement of mobility range of the lower extremity joints was performed according to the SFTR. The examination of balance was performed with the use of the modified ‘Flamingo balance test’. Results: The factor structure of the Y-balance test results for the left and right lower extremities is similar and includes five principal independent factors that characterise the structure of analysed variables. They explain 76% and 74% of communality in total for the left and the right extremity, respectively. Conclusions: The extracted factor structure points to a hybrid structure of the Y-balance test and shows its accuracy in the measurements of the lower limb joint mobility and strength performance of knee joint extensors.
Czasopismo
Rocznik
Tom
Strony
121--128
Opis fizyczny
Bibliogr. 27 poz., rys.
Twórcy
autor
- Section of Biological Regeneration of the University of Physical Education, Cracow, Poland
autor
- Department of Biomechanics of the University of Physical Education, Cracow, Poland
autor
- Department of Rehabilitation of the University of Physical Education, Cracow, Poland
autor
- Department of Rehabilitation of the University of Physical Education, Cracow, Poland
autor
- Gimnazjum no. 2 in Skawina, Skawina, Poland
Bibliografia
- [1] Olchowik G., Tomaszewski M., Olejarz P., Warchoł J., Różańska –Boczula M., Maciejewski R., The human balance system and gender, Acta of Bioengineering and Biomechanics, 2015, 17(1), 69-74.
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- [3] Plisky P.J., Rauh M.J., Kaminski T.W., Underwood F.B., Star Excursion Balance Test as a predictor of lower extremity injury in high school basketball players, J. Orthop. Sports Phys. Ther. 2006, 36(12), 911–919.
- [4] Plisky P., Gorman P., Kiesel K., Butler R., Underwood F., Elkins B., The reliability of an instrumented device for measuring components of the Star Excursion Balance Test, N. Am. J. Sports Phys. Ther., 2009, 4(2), 92–99.
- [5] Butler R.J., Lehr M.E., Fink M.L., Kiesel K.B., Plisky P.J., Dynamic Balance Performance and Noncontact Lower Extremity Injury in College Football Players: An Initial Study, Sports Health, 2013, 5(5), 417-422.
- [6] Robinson R., Gribble P., Kinematic predictors of performance on the Star Excursion Balance Test, J. Sport Rehabil., 2008, 17(4), 347–357.
- [7] Bressel E., Yonker J., Kras J., Heath E., Comparison of static and dynamic balance in female collegiate soccer, basketball, and gymnastics athletes, J. Athl. Train., 2007, 42(1), 42-46.
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- [9] Petersen W., Rembitzki I.V., Koppenburg A.G., Ellermann A., Liebau C., Brüggemann G.P.,Treatment of acute ankle ligament injuries: a systematic review, Arch. Orthop. Trauma. Surg., 2013, 133(8),1129-1141.
- [10] lmsted L.C., Carcia C.R., Hertel J., Shultz S.J., Efficacy of the Star Excursion Balance Tests in detecting reach deficits in subjects with chronic ankle instability, J. Athl. Train., 2002, 37(4), 501–506.
- [11] Hertel J., Braham R., Hale S., Olmsted L., Simplifying the Star Excursion Balance Test: Analyses of subjects with and without ankle instability, J. Orthop. Sports Phys. Ther., 2006, 36(3), 131–137.
- [12] Gribble P.A., Hertel J., Denegar C.R., Chronic ankle instability and fatigue create proximal joint alterations during performance of the Star Excursion Balance Test, Int. J. Sports Med., 2007, 28(3), 236–242.
- [13] Shaffer S.W., Teyhen D.S., Lorenson C.L., Warren R.L., Koreerat C.M., Straseske C.A., Childs J.D., Mil. Med., 2013, 178(11), 1264-1270.
- [14] Dong-Kyu L., Min-Hyeok K., Tae-Sik L., Jae-Seop O., Relationships among the Y balance test, Berg Balance Scale, and lower limb strength in middle-aged and older females, Braz. J. Phys. Ther., 2015, 19(3), 227-234.
- [15] Lee D.K., Kim G.M., Ha S.M., Oh J.S., Correlation of the Y-Balance Test with Lowerlimb Strength of Adult Women, J. Phys. Ther. Sci., 2014, 26(5), 641-643.
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- [23] Struzik A., Zawadzki J., Pietraszewski B., Balance disorders caused by running and jumping occurring in young basketball players, Acta of Bioengineering and Biomechanics, 2015, 17(2), 103-109.
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- [25] Herrington L., Hatcher J., Hatcher A., McNicholas M., A comparison of Star Excursion Balance Test reach distances between ACL deficient patients and asymptomatic controls, Knee, 2009, 16(2), 149-152.
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Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
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