Un análisis biomecánico de la patada descendente de taekwondo modificada

Luigi T. Bercades; Willy Pieter

doi:10.18002/rama.v2i1.282

Autores/as

Luigi T. Bercades University of Asia and the Pacific
Willy Pieter University of Asia and the Pacific

DOI:

https://doi.org/10.18002/rama.v2i1.282

Resumen

El presente estudio es un análisis teórico sobre los aspectos cinéticos y cinemáticos de la patada descendente modificada de taekwondo. En la patada descendente tradicional o clásica se tiene totalmente rígida la pierna que golpea (muslo y pierna) tanto en la fase de ascenso como de descenso de la patada, especulándose que esta posición genera el suficiente momento angular como para aumentar el riesgo de sufrir algunos tipos de lesiones en la competición. El presente estudio presenta una versión alternativa de esta patada que disminuye el momento de inercia en el descenso de la pierna, reduce el posterior momento angular, y finalmente disminuye el impulso resultante sobre el objetivo. Teóricamente, esto reducirá las probabilidades de sufrir ciertos tipos de lesiones causadas por la patada.

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Adrian, M. J., & Cooper, J. M. (1995). Biomechanics of human movement. Madison, WI: WCB Brown & Benchmark.

Ahn, B. H. (1985). Kinematic and kinetic analysis of taekwondo kicking motions. Unpublished Master’s Thesis, Purdue University.

Beis, K., Tsaklis, P., Pieter, W., & Abatzides, G. (2001). Taekwondo competition injuries in Greek young and adult athletes. European Journal of Sports Traumatology and Related Research, 23(3): 130-136.

Boey, L. W. & Xie, W. (2005). Experimental investigation of turning kick performance of Singapore national taekwondo players. Comunicación presentada en el XXIII International Symposium on Biomechanics in Sports, Beijing, China, 22-27 de agosto.

Chen, C. W., Chin, Y. F., & Shiang, T. Y. (2006). A study of the upper attacks score and breaking rules using new taekwondo competition regulations. [On-line]. http://www.ceps.com.tw/ec/ecjnlarticleView.aspx?jnlcattype=0&jnlptype=0&jnltype=0&jnliid=357&issueiid=2346&atliid=20239 Abstract de: Journal of Physical Education in Higher Education. (Acceso 2 de octubre de 2006, desde el China Electronic Periodical Service).

Hong, Y., Kam, L. H., & Luk, T. C. (sin fecha). Biomechanical analysis of Taekwondo kicking technique, performance and training effects. Final Report. Hong Kong: Hong Kong Sports Development Board.

Hwang, I. S. (1987). Analysis of the kicking leg in taekwondo. En J. Terauds, B. Gowitzke and L. Holt (Eds.), Biomechanics in sports III & IV. Proceedings of ISBS, Del Mar, CA: Academic Publishers.

Hwang, I. S. (1985). Biomechanical analysis of dwihuryo-chagi in taekwondo. En A Collection of Research Papers in the 1st World Taekwondo Seminar (pp. 67-79). Seoul: Kukkiwon.

Koh, J. O., & Watkinson, E. J. (2002). Video analysis of blows to the head and face at the 1999 World Taekwondo Championshps. Journal of Sports Medicine and Physical Fitness, 42(3): 348-353.

Lee, S. H., Jung, C. J., Sin, S. H., & Lee, D. W. (2001). An analysis of the angular momentum of dolyeo chagi in taekwondo. International Journal of Applied Sport Science, 13(1): 18-32.

Lissner, H. R., Lebow, M., & Evans, F. G. (1960). Experimental studies on the relation between acceleration and intracranial pressure changes in man. Surgery, Gynecology and Obstetrics, 111(3): 329 - 338.

Luk, T. C., Hong, Y., & Chu, D. P. K. (2001). Analysis of strategy used in taekwondo competition. En Blackwell, J. R. (Ed.), Proceedings of poster sessions, XIX International Symposium on Biomechanics in Sports (pp. 166-169). San Francisco, CA: Exercise and Sport Science Department, University of San Francisco.

McArdle, W. D., Katch, F. I., & Katch, V. L. (2001). Exercise physiology– Energy, nutrition, and human performance. Philadelphia: Lippincott, Williams and Wilkins.

Park, Y. J. (1989). The biomechanical analysis of taekwondo front kicks. Unpublished Ph.D. Dissertation, University of Minnesota.

Pieter, F., Pieter, W., & Heijmans, J. (1987). Movement analysis of taekwondo techniques. Asian Journal of Physical Education, 10(3): 45-58.

Pieter, F., & Pieter, W. (1995). Speed and force of selected taekwondo techniques. Biology of Sport, 12(4): 257-266.

Pieter, W., & Zemper, E. D. (1999). Injuries in adult American taekwondo athletes. Fifth IOC World Congress on Sport Sciences, Sydney, Australia, 31 Octubre -5 Noviembre.

Powell, S. W. (1989). A cinematographical analysis and force measure of three styles of the karate back punch and side kick. Unpublished Ph.D. Dissertation, Texas A & M University.

Rasch, P. J. (1989). Kinesiology and applied anatomy, 7th edición. Malvern, PA: Lea & Febiger.

Serina, E. R., & Lieu, D. K. (1991). Thoracic injury potential of basic competition taekwondo kicks. Journal of Biomechanics, 24(10): 951- 960.

Smith, P. K., & Hamill, J. (1986). The effect of punching glove type and skill level on force transfer. Journal of Human Movement Studies, 12(3): 153 - 161.

Sørensen, H., Zacho, M., Simonsen, E. B., Dyhre-Poulsen, P., & Klausen, K. (1996). Dynamics of the martial arts high front kick. Journal of Sports Sciences, 14(6): 483 - 495.

Stull, R. A., & Barham, J. N. (1990a). An analysis of movement patterns utilized by different styles in the karate reverse punch in front stance. En E. Kreighbaum and A. McNeill (Eds.), Biomechanics in Sports VI. Proceedings of the 6th International Symposium on Biomechanics in Sports (pp. 233-243). Bozeman, MT: International Society of Biomechanics in Sports and Department of Health and Human Development, Montana State University.

Stull, R. A., & Barham, J. N. (1990b). An analysis of work and power produced by different styles in the karate reverse punch in front stance. En E. Kreighbaum and A. McNeill (Eds.), Biomechanics in Sports VI. Proceedings of the 6th International Symposium on Biomechanics in Sports (pp. 225-231). Bozeman, MT: International Society of Biomechanics in Sports and Department of Health and Human Development, Montana State University.

Sung, T. Y. (1987). A biomechanical analysis of selected taekwondo kicks. The Journal of Taekwondo, 61: 106-115.

Tsai, Y. J., Gu, G. H., Lee, C. J., Huang, C. F., & Tsai, C. L. (2005). The biomechanical analysis of the taekwondo front-leg axe-kick [sic]. Comunicación presentada en el XXIII International Symposium on Biomechanics in Sports, Beijing, China, 22-27 de agosto.

Tsai, Y. J., & Huang, C. F. (2006). Kinematic analysis of the taekwondo fl exstretching and straight axe-kick. http://www.ceps.com.tw/ec/ecjnlarticleView.aspx?atliid=79044&issu eiid=7090&jnliid=363 Abstract de: Journal of Physical Education in Higher Education. (Acceso 2 de octubre de 2006, desde el China Electronic Periodical Service).

Tsai, Y. J., Lee, S. P., & Huang, C. F. (2004). The biomechanical analysis of taekwondo axe-kick in senior high school athletic [sic]. Comunicación presentada en el XXII International Symposium of Biomechanics in Sports, University of Ottawa, Ontario, Canada, 9-12 de agosto.

Wohlin, S. (1989). A biomechanical description of the taekwondo turning hook kick. Unpublished Master’s Thesis, Montana State University.

Zandbergen, A. (no date). Taekwondo Blessures en Fysiotherapie, Unpublished Thesis, Twentse Akademie voor Fysiotherapie, Enschede.

Zemper, E. D., & Pieter, W. (1991). A two-year prospective study of taekwondo injuries at national competitions. Comunicación presentada en el International Congress and Exposition on Sports Medicine and Human Performance, Vancouver, BC, Canada, 16-20 de abril.