Differences between anthropometric indicators and the impact force of taekwondo kicks performed with the dominant and non-dominant limb

1. Balkó S., Rous M., Balkó I., Hnízdil J., Borysiuk Z. (2017) Influence of a 9-week training intervention on the reaction time of fencers aged 15 to 18 years. Phys. Activ. Rev., 5: 146-154.10.16926/par.2017.05.19Search in Google Scholar

2. Bridge C.A., da Silva Santos J.F., Chaabene H., Pieter W., Franchini E. (2014) Physical and physiological profiles of taekwondo athletes. Sports Med., 44(6): 713-733.10.1007/s40279-014-0159-924549477Search in Google Scholar

3. Buśko K., Nikolaidis P.T. (2018) Biomechanical characteristics of Taekwondo athletes: kicks and punches vs. laboratory tests. Biomed. Hum. Kinet., 10(1): 81-88.10.1515/bhk-2018-0013Search in Google Scholar

4. Buśko K., Staniak Z., Łach P., Mazur-Różycka J., Michalski R., Górski, M. (2014) Comparison of two boxing training simulators. Biomed. Hum. Kinet., 6(1): 135-141.10.2478/bhk-2014-0022Search in Google Scholar

5. Buśko K., Staniak Z., Szark-Eckardt M., Nikolaidis P.T., Mazur-Różycka J., Łach P., Michalski R., Gajewski J., Górski M. (2016) Measuring the force of punches and kicks among combat sport athletes using a modified punching bag with an embedded accelerometer. Acta Bioeng. Biomech., 18(1): 47-54.Search in Google Scholar

6. de Sousa Fortes L., de Vasconcelos G.C., de Vasconcelos Costa B.D., Paes P.P., Franchini E. (2017) Effect of 10% weight loss on simulated taekwondo match performance: a randomized trial. J. Exerc. Rehabil., 13(6): 659-665. DOI: 10.12965/jer.1735134.567.10.12965/jer.1735134.567574720129326898Search in Google Scholar

7. Estevan I., Falco C. (2013) Mechanical analysis of the roundhouse kick according to height and distance in taekwondo. Biol. Sport, 30(4): 275-279.10.5604/20831862.1077553394454624744499Search in Google Scholar

8. Estevan I., Jandacka D., Farana R., Falco C. (2012) Kinematic analysis of a roundhouse kick according to the stance position. In: ISBS-Conference Proceedings Archive (Vol. 1, No. 1).Search in Google Scholar

9. Estevan I.A., lvarez O., Falco C., Molina-Garcia J., Castillo I. (2011) Impact force and time analysis influenced by execution distance in a roundhouse kick to the head in Taekwondo. J. Strength Cond. Res., 25(10): 2851-2856.10.1519/JSC.0b013e318207ef7221912286Search in Google Scholar

10. Falco C., Alvarez O., Estevan I., Molina-Garcia J., Mugarra F., Iradi A. (2009) Kinetic and kinematic analysis of the dominant and non-dominant kicking leg in the taekwondo roundhouse kick. In ISBS-Conference Proceedings Archive (Vol. 1, No. 1).Search in Google Scholar

11. Górski M., Lekszycki T., Buśko, K., Mazur-Różycka J. (2014) Modelling and analysis of lower limb joint loads during the Naeryo chagi technique in taekwondo. Biomed. Hum. Kinet, 6(1): 121-127.10.2478/bhk-2014-0020Search in Google Scholar

12. Kim J.W., Kwon M.S., Yenuga S.S., Kwon Y.H. (2010) The effects of target distance on pivot hip, trunk, pelvis, and kicking leg kinematics in Taekwondo roundhouse kicks. Sports Biomech., 9(2): 98-114.10.1080/1476314100379945920806845Search in Google Scholar

13. Kim Y.K., Kim Y.H., Im S.J. (2011) Inter-joint coordination in producing kicking velocity of Taekwondo kicks. J. Sports Sci. Med., 10(1): 31-38.Search in Google Scholar

14. Kong P.W., Luk T.C., Hong Y. (2000) Difference between Taekwondo roundhouse kick executed by the front and back leg-a biomechanical study. In: Scientific Proceedings of XVIII International symposium on biomechanics in sports, The Chinese University of Hong Kong. Hong Kong, pp. 277-280.Search in Google Scholar

15. O’Sullivan D., Chung C., Lee K., Kim E., Kang S., Kim T., Shin I. (2009) Measurement and comparison of Taekwondo and Yongmudo turning kick impact force for two target heights. J. Sports Sci. Med., 8(CSSI3): 13-16.Search in Google Scholar

16. Pędzich W., Mastalerz A., Urbanik C. (2006) The comparison of the dynamics of selected leg strokes in taekwondo WTF. Acta Bioeng. Biomech., 8(1): 83-90.Search in Google Scholar

17. Pieter F., Pieter W. (1995) Speed and force in selected taekwondo techniques, Biol. Sport, 12: 257-266.Search in Google Scholar

18. Rocha F., Costa A., Louro H., Conceição A. (2017) The relationship between bandal chagui power with mechanical efficiency in taekwondo athletes. Sci. Int. (Lahore), 29(6): 1231-1236,Search in Google Scholar