Fatigue alters the biomechanical contribution of lower extremity joints during a stretch-shortening cycle task

• Autorzy: Sun Xiaole , Xia Rui , Zhang Ximi , Zhen Luo , Fu Weijie

Identyfikatory

DOI

10.5277/ABB-01332-2019-02

• Języki publikacji: EN

Abstrakty

EN

This study aimed to explore the effect of fatigue on the biomechanical contribution of the lower extremity joints during a typical stretch-shortening cycle (SSC) task. Methods: 15 male athletes completed drop jump (DJ) under pre- and post-fatigue. Vicon motion capture system and 3D Kistler force plates were used to collect kinematics and ground reaction force data simultaneously. Results: Under fatigue condition, 1) the DJ height decreased; the touchdown angle of knee and ankle reduced and the range of motion increased; 2) the maximum push-off moment and power of knee was reduced; 3) the stiffness of knee, ankle, and legs was reduced; 4) the energy generation and the net energy of the ankle decreased; 5) the energy contribution of knee decreased during the eccentric phase. Conclusions: Fatigue altered biomechanical contribution of the lower extremity joints by changing the movement pattern during DJ. The control ability of the knee and ankle were decreased. Eventually, the jump performance was reduced. In addition, the decrease of stiffness as well as the energy contribution of these joints can be used as sensitive indices to evaluate the performance of DJ after fatigue.

Słowa kluczowe

EN

stretch-shortening cycle; drop jump; fatigue; stiffness; joint work

PL

skoki; zmęczenie; sztywność

• Wydawca: Oficyna Wydawnicza Politechniki Wrocławskiej
• Czasopismo: Acta of Bioengineering and Biomechanics
• Rocznik: 2019
• Tom: Vol. 21, no. 2
• Strony: 11--19
• Opis fizyczny: Bibliogr. 30 poz., rys., tab., wykr.

Twórcy

autor

Sun Xiaole

• School of Kinesiology, Shanghai University of Sport, Shanghai, China

autor

Xia Rui

• School of Physical Education and Sport Training, Shanghai University of Sport, Shanghai, China

autor

Zhang Ximi

• School of Kinesiology, Shanghai University of Sport, Shanghai, China

autor

Zhen Luo

• School of Kinesiology, Shanghai University of Sport, Shanghai, China

autor

Fu Weijie

• School of Kinesiology, Shanghai University of Sport, Shanghai, China
• Key Laboratory of Exercise and Health Sciences of Ministry of Education, Shanghai University of Sport, Shanghai, China

Bibliografia

• [1] ARAMPATZIS A., SCHADE F., WALSH M., BRÜGGEMANN G.P., Influence of leg stiffness and its effect on myodynamic jumping performance, J. Electromyogr. Kinesiol., 2001, 11 (5), 355–364.
• [2] BOBBERT M.F., MM V.D.K., VAN D. H., DE RUITER C.J., Effects of fatigue of plantarflexors on control and performance in vertical jumping, Med. Sci. Sport Exerc., 2011, 43 (3), 673–684.
• [3] BRAZEN D.M., TODD M.K., AMBEGAONKAR J.P., WUNDERLICH R., PETERSON C., The effect of fatigue on landing biomechanics in single-leg drop landings, Clin. J. Sport Med., 2010, 20 (4), 286–292.
• [4] BUTLER R.J., CROWELL H.P., DAVIS I.M., Lower extremity stiffness: implications for performance and injury, Clin. Biomech., 2003, 18(6), 511–517.
• [5] CHAPPELL J.D., HERMAN D.C., KNIGHT B.S., KIRKENDALL D.T., GARRETT W.E., YU B., Effect of fatigue on knee kinetics and kinematics in stop-jump tasks, Am. J. Sport Med., 2005, 33 (7), 1022.
• [6] CHRISTINA K.A., WHITE S.C., GILCHRIST L.A., Effect of localized muscle fatigue on vertical ground reaction forces and ankle joint motion during running, Hum. Mov. Sci., 2001, 20 (3), 257–276.
• [7] DICKIN D.C., JOHANN E., WANG H., POPP J. K., Combined effects of drop height and fatigue on landing mechanics in active females, J. Appl. Biomech., 2015, 31(4), 237–243.
• [8] ENOKA R.M., Muscle fatigue – from motor units to clinical symptoms, J. Appl. Biomech., 2012, 45(3), 427–433.
• [9] FARLEY C.T., HOUDIJK H.H., VAN S.C., LOUIE M., Mechanism of leg stiffness adjustment for hopping on surfaces of different stiffnesses, J. Appl. Physiol., 1998, 85(3), 1044–1055.
• [10] FARLEY C.T., MORGENROTH D.C., Leg stiffness primarily depends on ankle stiffness during human hopping, J. Biomech., 1999, 32 (3), 267–273.
• [11] FU W.J., FANG Y., GU Y.D., HUANG L.Y., LI L., LIU Y., Shoe cushioning reduces impact and muscle activation during landings from unexpected, but not self-initiated, drops, J. Sci. Med. Sport, 2017, 20(10), 915–920.
• [12] GANDEVIA S.C., Spinal and supraspinal factors in human muscle fatigue, Physiol. Rev., 2001, 81(4), 1725–1789.
• [13] GRANATA K.P., PADUA D.A., WILSON S.E., Gender differences in active musculoskeletal stiffness. Part II. Quantification of leg stiffness during functional hopping tasks, J. Electromyogr. Kinesiol., 2002, 12 (2), 119–126.
• [14] HAHN D., Stretching the limits of maximal voluntary eccentric force production in vivo, J. Sport Health Sci., 2018, 7 (3), 275–281.
• [15] HORITA T., KOMI P.V., NICOL C., KYRÖLÄINEN H., Stretch shortening cycle fatigue: interactions among joint stiffness, reflex, and muscle mechanical performance in the drop jump, Eur. J. Appl. Physiol., 1996, 73 (5), 393–403.
• [16] HOUK J.C., Regulation of stiffness by skeletomotor reflexes, Annu. Rev. Physiol., 1979, 41, 99–114.
• [17] JORDAN M.J., AAGAARD P., HERZOG W., A comparison of lower limb stiffness and mechanical muscle function in ACL-reconstructed, elite, and adolescent alpine ski racers/ski cross athletes, J. Sport Health Sci., 2018, 7 (4), 416–424.
• [18] LIU Y., PENG C.H., WEI S.H., CHI J.C., TSAI F.R., CHEN J.Y., Active leg stiffness and energy stored in the muscles during maximal counter movement jump in the aged, J. Electromyogr. Kinesiol., 2011, 16 (4), 342–351.
• [19] NIU W.X., WANG Y., HE Y., FAN Y., ZHAO Q.J., Kinematics, kinetics, and electromyogram of ankle during drop landing: a comparison between dominant and non-dominant limb, Hum. Mov. Sci., 2011, 30 (3), 614–623.
• [20] ORISHIMO K.F., LIEDERBACH M., KREMENIC I.J., HAGINS M., PAPPAS E., Comparison of landing biomechanics between male and female dancers and athletes, part 1: Influence of sex on risk of anterior cruciate ligament injury, Am. J. Sport Med., 2014, 37 (11), 1082–1088.
• [21] PADUA D.A., ARNOLD B.L., PERRIN D.H., GANSNEDER B.M., CARCIA C.R., GRANATA K.P., Fatigue, vertical leg stiffness, and stiffness control strategies in males and females, J. Athl. Training, 2006, 41 (3), 294–304.
• [22] PRIESKE O., MUEHLBAUER T., MUELLER S., KRUEGER T., KIBELE A., BEHM D.G., GRANACHER U.J., Effects of surface instability on neuromuscular performance during drop jumps and landings, Eur. J. Appl. Physiol., 2013, 113 (12), 2943–2951.
• [23] ROWLEY K.M. RICHARDS J.G., Increasing plantar flexion angle during landing reduces vertical ground reaction forces, loading rates and the hip’s contribution to support moment within participants, J. Sports Sci., 2015, 33 (18), 1922–1931.
• [24] SCHMITZ R.J., SHULTZ S.J., Contribution of knee flexor and extensor strength on sex-specific energy absorption and torsional joint stiffness during drop jumping, J. Athl. Training, 2010, 45 (5), 445–452.
• [25] SHULTZ S.J., SCHMITZ R.J., ANH-DUNG N., LEVINE B.J., Joint laxity is related to lower extremity energetics during a drop jump landing, Med. Sci. Sport Exerc., 2010, 42 (4), 771–780.
• [26] STEFANYSHYN D.J., NIGG B.M., Contribution of the lower extremity joints to mechanical energy in running vertical jumps and running long jumps, J. Sports Sci., 1998, 16 (2), 177–186.
• [27] TOUMI H., POUMARAT G., BEST T.M., FAIRCLOUGH J., BENJAMIN M., Fatigue and muscle-tendon stiffness after stretch-shortening cycle and isometric exercise, Appl. Physiol. Nutr. Metab., 2006, 31 (5), 565–572.
• [28] TSAI L. C., SIGWARD S.M., POLLARD C.D., FLETCHER M.J., POWERS C.M., Effects of fatigue and recovery on knee mechanics during side-step cutting, Med. Sci. Sport Exerc., 2009, 41 (10), 1952–1957.
• [29] WEINHANDL J.T., SMITH J.D., DUGAN E.L., The effects of repetitive drop jumps on impact phase joint kinematics and kinetics, J. Appl. Biomech., 2011, 27 (2), 108–115.
• [30] ZHOU X.F., CHEN M.S., Effect of fatigue on the biomechanics characteristics in drop-jumps, Journal of Physical Education, 2009, 16, 89–92.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).