Gender differences and relationships between upper extremity muscle strength, lower limb power and shuttle velocity in forehand smash and jump smash in badminton

• Autorzy: Ferreira Anna , Górski Michał , Gajewski Jan

Identyfikatory

DOI

10.37190/ABB-01643-2020-02

• Języki publikacji: EN

Abstrakty

EN

The aim of the study was to investigate the relationships between shuttlecock velocity during a badminton forehand smash with and without jump (VmaxWJ and VmaxNJ), strength of upper limb muscles, vertical jump height and to analyze differences in these parameters for each gender. Methods: The study examined members of the Polish National Badminton Team seven women and seven men. A special torque meter was used to assess the strength of the upper limb muscles. Vertical jumps were performed on an AMTI force plate. Shuttlecock velocity was measured using Vicon motion capture system. Results: Differences between the right and left limbs were observed in all muscle groups except shoulder flexion for both genders. The results of all measured parameters: torques, height of countermovement and spike jump (HACMJ, HCMJ, HSPJ), VmaxWJ and VmaxNJ, were greater for men than for women. No statistically significant differences were found between VmaxWJ (men: 83.27 ± 4.83 m/s; women: 67.57 ± 4.21 m/s) and VmaxNJ (men: 84.19 ± 6.05 m/s; women: 69.70 ± 6.53 m/s) within the same gender. Positive correlations were found between both HCMJ and HSPJ regarding VmaxWJ in men; the height of shuttlecock impact in jump smash (HWJ) and HSPJ in women; proving the importance of jumping ability in badminton. Negative correlations were found between HWJ and VmaxWJ for both genders. Conclusions: The jump before smash is not used in order to hit the shuttle from the highest point, but to gain time to correctly prepare the phase of stroke while being in the air.

Słowa kluczowe

EN

biomechanics; shuttlecock speed; technique; badminton players; performance

PL

biomechanika; prędkość lotki; technika; gracze w badmintona; wydajność

• Wydawca: Oficyna Wydawnicza Politechniki Wrocławskiej
• Czasopismo: Acta of Bioengineering and Biomechanics
• Rocznik: 2020
• Tom: Vol. 22, no. 4
• Strony: 41--49
• Opis fizyczny: Bibliogr. 31 poz., tab., rys., wykr.

Twórcy

autor

Ferreira Anna

• Faculty of Physical Education, Józef Piłsudski University of Physical Education in Warsaw, Poland

autor

Górski Michał

• Department of Kinesiology, Institute of Sport – National Research Institute, Warsaw, Poland

autor

Gajewski Jan

• Faculty of Physical Education, Józef Piłsudski University of Physical Education in Warsaw, Poland

Bibliografia

• [1] ABDURRAHMAN M.R., MILLER R., MCERLAIN-NAYLOR S.A., HILEY M.J., KING M.A., Consistency in the badminton jump smash, Kuala Lumpur World Badminton Federation, 2016, 1–12.
• [2] ABIÁN-VICÉN J., DEL COSO J., GONZÁLEZ-MILLÁN C., SALINERO J.J., ABIÁN P., Analysis of dehydration and strength in elite badminton players, Plos one, 2012, 7 5), 1–8, e37821.
• [3] ARIFF F.H.M., RAMBELY A.S., Determination of torques at upper limb joints during jumping in badminton smash via Kane’s method, ISBS – Conference Proceedings Archive, 2008, 73–76.
• [4] AWATANI T., MORIKITA I., URATA T., SHINOHARA J., TATSUMI Y., Correlation between isometric shoulder strength and racket velocity during badminton forehand smash movements: study of valid clinical assessment methods, J. Phys. Ther. Sci., 2018, 30 (6), 850–854.
• [5] BAIGET E., CORBI F., FUENTES J.P., FERNÁNDEZ-FERNÁNDEZ J., The relationship between maximum isometric strength and ball velocity in the tennis serve, J. Hum. Kinet., 2016, 53 (1), 63–71.
• [6] BAZYLER C.D., BECKHAM G.K., SATO K., The use of the isometric squat as a measure of strength and explosiveness, J. Strength Cond. Res., 2015, 29, 1386–1392.
• [7] BORMS D., MAENHOUT A., COOLS A.M., Upper quadrant field tests and isokinetic upper limb strength in overhead athletes, J. Athl. Training, 2016, 51 (10), 789–796.
• [8] BUŚKO K., Training-induced changes in the topography of muscle torques and maximal muscle torques in basketball players, Biol. Sport, 2012, 29, 77–83.
• [9] BUŚKO K., Comparison of muscle strength in male combat sport athletes, Polish J. Sport Tour, 2016, 23 (4), 186–189.
• [10] GAJEWSKI J., BUŚKO K., MAZUR J., MICHALSKI R., Application of allometry for determination of strength profile in young female athletes from different sports, Biol. Sport, 2011, 28 (4), 239–243.
• [11] GAJEWSKI J., MICHALSKI R., BUŚKO K., MAZUR-RÓŻYCKA J., STANIAK Z., Countermovement depth – a variable which clarifies the relationship between the maximum power output and height of a vertical jump, Acta Bioeng. Biomech., 2018, 20 (1), 127–134.
• [12] GÓRSKI M., STARCZEWSKI M., PASTUSZAK A., MAZUR- -RÓŻYCKA J., GAJEWSKI J., BUŚKO K., Changes of strength and maximum power of lower extremities in adolescent handball players during a two-year training cycle, J. Hum. Kinet., 2018, 63 (1), 95–103.
• [13] HOPKINS W.G., A Scale of Magnitudes for Effect Statistics, A New View of Statistics. 2002, Available at: URL: http:// www.sportsci.org/resource/stats/effectmag.html, accessed on 15.05.2019.
• [14] HUSSAIN I., BARI M.A., Kinematical analysis of forehand and backhand smash in badminton, Innovative Systems Design and Engineering, 2011, 2 (7), 20–25.
• [15] LEE B.K., The effect of the kinematic link principle on performance, Biomechanics in Sports XI, 1993, 239–242.
• [16] NG G.Y.F., LAM P.C.W., A study of antagonist/agonist isokinetic work ratios of shoulder rotators in men who play badminton, J. Orthop. Sport Phys., 2002, 32 (8), 399 –404.
• [17] OOI C.H., TAN A., AHMAD A., KWONG K.W., SOMPONG R., GHAZALI K.A., LIEW S.L., CHAI W.J., THOMPSON M.W., Physiological characteristics of elite and sub-elite badminton players, J. Sport Sci., 2009, 27 (14), 1591–1599.
• [18] PĘDZICH W., MASTALERZ A., SADOWSKI J., Estimation of muscle torque in various combat sports, Acta Bioeng. Biomech, 2012, 14 (4), 107–112.
• [19] PHOMSOUPHA M., LAFFAYE G., Shuttlecock velocity during a smash stroke in badminton evolves linearly with skill level, Comput. Method Biomec., 2014, 17, 140–141.
• [20] PHOMSOUPHA M., LAFFAYE G., The science of badminton: game characteristics, anthropometry, physiology, visual fitness and biomechanics, Sports Med., 2015, 45 (4), 473–495.
• [21] POPIELUCH A., STANISZEWSKI M., WYCHOWAŃSKI M., Strength of the Shoulder Rotators in Second-League Volleyball Players, Polish J. Sport Tour, 2015, 22 (4), 215–218.
• [22] RAMBELY A.S., ABAS W.A.B.W., YUSOF M.S., The analysis of the jumping smash in the game of badminton, ISBS – Conference Proceedings Archive, 2005, 671–674.
• [23] RAMBLEY A.S., ABAS W.A.B.W., Contact time and take-off speed relationship in determining height of jump in jumping badminton smash, ISBS – Conference Proceedings Archive, 2008, 661–663.
• [24] TIWARI M.L., RAI V., SRINET S., Relationship of selected motor fitness components with the performance of badmin-ton player, Asian J. Phys. Educ. Comput. Sci. Sport, 2011, 5, 88–91.
• [25] TSAI C.L., HUANG C.F., CHANG S.S., LAI C.M., Biomechanical analysis between badminton standing smash and jumping smash in the different target setup, International Society of Biomechanics Xlxth Congress, Book of Abstracts, Dunedin, 2003, 393.
• [26] TSAI C.L., YANG C.C., LIN M.S., HUANG K.S., The surface emg activity analysis between badminton smash and jump smash, ISBS – Conference Proceedings Archive, 2005, 483–486.
• [27] TSAI C.L., HSUEH Y.C., PAN K.M., CHANG S.S., Biomechanical analysis of different badminton forehand overhead strokes of Taiwan elite female players, ISBS – Conference Proceedings Archive, 2008, 719–722.
• [28] WADDELL D.B., GOWITZKE B.A., Biomechanical principles applied to badminton power strokes, ISBS – Conference Proceedings Archive, 2000.
• [29] WAGNER H., PFUSTERSCHMIED J., TILP M., LANDLINGER J., VON DUVILLARD S.P., MÜLLER E., Upper body kinematics in team handball throw, tennis serve, and volleyball spike, Scand. J. Med. Sci. Spor., 2014, 24 (2), 345–354.
• [30] WERNER S.L., GUIDO Jr J.A., STEWART G.W., MCNEICE R.P., VANDYKE T., JONES D.G., Relationships between throwing mechanics and shoulder distraction in collegiate baseball pitchers, J. Shoulder Elb. Surg., 2007, 16 (1), 37–42.
• [31] ZHANG Z., LI S., WAN B., VISENTIN P., JIANG Q., DYCK M., LI H., SHAN G., The influence of X-factor (trunk rotation) and experience on the quality of the badminton forehand smash, J. Hum. Kinet., 2016, 53 (1), 9–22.