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http://dx.doi.org/10.5103/KJSB.2017.27.1.25

The Effects of the Foot Types and Structures of the Inner Arch Support Bands on Ground Reaction Force Variables and Sensations during 2nd Vertical Ballet Jump  

Kim, Juhyun (Major in physical Education The Graduate School of Education Ewha Womans University)
Yi, Kyungock (Division of Kinesiology and Sports Studies College of Science and Industry Convergence Ewha Womans University)
Publication Information
Korean Journal of Applied Biomechanics / v.27, no.1, 2017 , pp. 25-33 More about this Journal
Abstract
Objective: The purpose of this research was to establish the differences of ground reaction force variables and sensations according to the foot types and the structures of the inner arch support band during $2^{nd}$ vertical ballet jump. Method: 12 Female ballet majors in their twenties who have danced for more than 10 years and had no injuries were selected for this research. Independent variables consist of the foot type (pes rectus, pes planus) and the structure of the inner arch support band (no band, x-shaped, linear shaped). Dependent variables consist of ground reaction force variables and relative wearing sensation. Results: The impact decreased the most when x-shaped bands were used on pes rectus and rigid pes planus. When linear-shaped bands were used on flexible pes planus, the impact decreased. Conclusion: The bands also helped reduce the impact on pes rectus. Furthermore, it is clear that according to the foot type, the impact reducing band structures perform differently. The inner arch support bands were necessary for jump training for any foot type.
Keywords
Foot type; Inner arch support band; Second vertical ballet jump;
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Times Cited By KSCI : 1  (Citation Analysis)
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1 Chiu, M. C. & Wang, M. J. (2007). Professional footwear evaluation for clinical nurses. Applied Ergonomics, 38, 2, 133-141.   DOI
2 Choi, S. Y. (2001). The Segment Coordination in Different Types of Jumping Movement. Official Journal of Korea Society of Dance Science, 3, 57-70.
3 Erol, K., Karahan, A. Y., Kerimoglu, U., Ordahan, B., Tekin, L., Sahin, M. & Kaydok, E. (2015). An important cause of pes planus: the posterior tibial tendon dysfunction. Clin Pract, 5(1), 699.   DOI
4 Jacobs, A. M. (2007). Soft tissue procedures for the stabilization of medial arch pathology in the management of flexible flatfoot deformity. Clin Podiatr Med Surg, 24(4), 657-665.   DOI
5 Jang, S. Y. (2007). Ballet. 2nd edition. Chungnam National Univrtsity Publication, Daejeon Metropolitan City.
6 Kadakia, A. R. & Haddad, S. L. (2003). Hindfoot arthrodesis for the adult acquired flat foot. Foot Ankle Clin, 8(3), 569-594.   DOI
7 Ker, R. F., Bennett, M. B., Bibby, S. R., Kester, R. C. & Alexander, R. M. (1987). The spring in the arch of the human foot. Nature, 8(14), 47-49.
8 Kim, H. L. (2013). The Effects of Foot type and Shoes on Gait Biomechanics. Un- published Master's Thesis. Graduate School of Sports Science, Ewha womans University.
9 Kim, M. S. (2011). Change in lower muscle activation and fatigue in accordance with treadmill walking and the time after application of low-dye taping for the flatfoot adults. Un- published Doctor's Dissertation. Graduate School of Life Sciences Catholic University of Busan.
10 Kohls-Gatzoulis, J., Angel, J. C., Singh, D., Haddad, F., Livingstone, J. & Berry, G. (2004). Tibialis posterior dysfunction: a common and treatable cause of adult acquired flatfoot. BMJ, 4(329), 1328-1333.
11 Lee, Y. H. & Hong, W. H. (2005). Effects of shoe inserts and heel height on foot pressure, impact force, and perceived comfort during walking. Applied Ergonomics, 36(3), 355-362.   DOI
12 Nicholas, P. & Linthorne, N. P. (2001). Analysis of standing vertical jumps using a force platform. American Journal of Physics, 69(11), 1198-1204,   DOI
13 Napolitano, C., Walsh, S., Mahoney, L. & McCrea, J. (2000). Risk factors that may adversely modify the natural history of the pediatric pronated foot. Clin Podiatr Med Surg, 17(3), 397-417.
14 Nawoczenski, T. J. & Flemister, A. (2006). Comparison of foot Kinematics between subjects with Posterior tibialis tendon dysfunction and healthy controls. Journal of Orthopaedic & Sport Physical Therapy, 36(9), 635-644.   DOI
15 Park, K. Y. (2008). Study on changing the angle of ankle to the sagittal plane with F. F. O before and after wearing during the walk. Un-published Doctor's Dissertation. Graduate School of Alternative Medicine Kyonggi University.
16 Richie, D.H. Jr. (2007). Biomechanics and clinical analysis of the adult acquired flatfoot. Clin Podiatr Med Surg, 24(4), 617-644.   DOI
17 Yi, K. O. (2016). The lmmediate Effects External kinesio-tape Wrapping for lnner Arch Support on the Lower Leg EMG for Gait in Stietto Heels. Korean Journal of Sport Biomechanics, 26(1), 127-133.   DOI
18 Yoo, C. R. (2015). The Analysis of Vertical Ground Reaction Force During the Ballet Second Position Jump According to Foot Types. Un-published Master's Thesis. Graduate School of Education, Ewha womans University.
19 Chen, S. J. & Gielo-Perczak, K. (2011). Effect of impeded medial longitudinal arch drop on vertical ground reaction force and center of pressure during static loading. Foot & Ankle International, 32, 1, 77-84.   DOI