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The objective of the work was to determine biomechanical parameters influencing loads affecting the musculoskeletal system and shock absorption during the landing phase in Grand Jeté, Entrelacé and Ballonné. Methods: Motion kinematics measurements of the landing phase in GrandJeté, Entrelacé and Ballonné were carried out using the optical APAS system, and measurements of the GRF components – using Kistler platform. The research was carried out for three professional dancers. Kinematic and kinetic parameters of the landing were analysed. Results: The mean maximum GRF value in relation to the classical dancer amounted to 8.16 ± 1.37 N/BW. During landing, the joints of the lower limb are affected by external force moments of high values (ankle – 3.04 ± 0.54 [Nm/BW], knee – 7.56 ± 5.53 [Nm/BW], hip – 10.97 ± 6.80 [Nm/BW]). The maximum value of the external force moments in the joint were strongly negatively correlated with the value of the angle in the hip joint at the moment of the first contact with the ground. It was noticed that the obtainment of maxGRF was preceded by a decrease in kinetic energy of approximately 50%. Conclusions: Factors affecting loads present in the musculoskeletal system during the shock absorption of a leap are: GRF values, the values of external force generated inside the joints and a change in the value of kinetic energy. The safe shock absorption after landing is influenced by properly positioned limb at the moment of the first contact, a greater range of movements in the joints and longer time from the moment of the first contact to the obtainment of maxGRF.
Czasopismo
Rocznik
Tom
Strony
111--121
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
- Department of Biomechanics, Chair of Theory and Methodology of Sport, Faculty of Sport Sciences, Poznań University of Physical Education, Poznań, Poland
autor
- Department of Biomechatronics, Faculty of Biomedical Engineering, Silesian University of Technology, Zabrze, Poland
- Department of Biomechatronics, Faculty of Biomedical Engineering, Silesian University of Technology, Zabrze, Poland
autor
- Department of Biomechatronics, Faculty of Biomedical Engineering, Silesian University of Technology, Zabrze, Poland
- Department of Biomechatronics, Faculty of Biomedical Engineering, Silesian University of Technology, Zabrze, Poland
Bibliografia
- [1] ALLEN N., NEVILL A., BROOKS J., KOUTEDAKIS Y., WYON M., Ballet injuries: Injury incidence and severity over 1 year, J. Orthop. Sport Phys., 2012, 42(9), 781–790.
- [2] DWORAK L.B., GORWA J., KMIECIK K., MĄCZYŃSKI J., A study characterizing dynamic overloads of professional dancers, Biomechanical approach, Acta Bioeng. Biomech., 2005, 7 (1), 77–84.
- [3] FIETZER A., CHANG L., JEN Y., KULIG K., Dancers with patellar tendinopathy exhibit higher vertical and braking ground reaction forces during landing, J. Sport Sci., 2012, 30 (11), 1157–1163.
- [4] GORWA J., DWORAK L.B., MICHNIK R., JURKOJĆ J., Kinematic analysis of modern dance movement "stag jump" within the context of impact loads, injury to the locomotor system and its prevention, Med. Sci. Monit., 2014, 20, 1082–1089.
- [5] GORWA J., FRYZOWICZ A., MICHNIK R., JURKOJĆ J., KABACIŃSKI J., JOCHYMCZYK-WOŹNIAK K., DWORAK L.B., Can we learn from professional dancers safe landing? Kinematic and dynamic analysis of the ‘grand pas de chat’ performed by female and male dancer, [in:] Innovation in biomedical engineering, [in:] M. Gzik, E. Tkacz, Z. Paszenda, E. Piętka (Eds.), Cham: Springer International Publishing Advances in Intelligent System and Computing, 2019 (accepted for publication).
- [6] GORWA J., KABACIŃSKI J., MURAWA M., MĄCZYŃSKI J., DWORAK L.B., Vertical jump parameters and lower extremities muscles torques of professional dancers (in Polish: Parametry wyskoku pionowego a wartości momentów siły mięśniowej kończyn dolnych tancerzy zawodowych), Aktualne Problemy Biomechaniki, 2017, 13, 21–28.
- [7] GORWA J., ZIELIŃSKI J., WOLAŃSKI W., MICHNIK R., LARYSZ D., DWORAK L.B., KUSY K., Decreased Bone Mineral Density in Forearm vs Loaded Skeletal Sites in Professional Ballet Dancers, Med. Probl. Perform. Art., 2019, 34 (1), 25–32.
- [8] HACKNEY J., BRUMMEL S., BECKER D., SELBO A., KOONS S., STEWART M., Effect of Sprung (Suspended) Floor on Lower Extremity Stiffness during a Force-returning Ballet Jump, Med. Probl. Perform. Art, 2011, 26 (4), 195–199.
- [9] HAIGHT H.J., Morphologic, physiologic, and functional interactions in elite female ballet dancers, Med. Probl. Perform. Art, 1998, 13 (1), 4‒13.
- [10] JARVIS D.N., KULIG K., Kinematic and Kinetic Analyses of the Toes in Dance Movements, J. Sport Sci., 2016, 34 (17), 1612–1618.
- [11] JARVIS D.N., KULIG K., Lower Extremity Biomechanical Demands During Saut de Chat Leaps, Med. Probl. Perform. Art, 2016, 31 (4), 211–217.
- [12] JARVIS D.N., KULIG K., Pointing the foot without sicling. An examination of ankle movement during jumping, Med. Probl. Perform. Art, 2015, 30 (1), 61–65.
- [13] JURKOJĆ J., MICHNIK R., PAUK J., Identification of muscle forces acting in lower limbs with the use of planar and spatial mathematical model, J. Vibroengineering, 2009, 11 (3), 566–570.
- [14] KALICHOVA M., Biomechanical analysis of the basic classical dance jump – the grand jete, Int. J. Biol. Life Sci., 2011, 59, 422–426.
- [15] KULIG K., OKI K., CHANG Y-J., BASHFORD G.R., Achilles and patellar tendon morphology in dancers with and without tendinopathy, Med. Probl. Perform. Art, 2014, 29 (4), 221–228.
- [16] LAWS K., Physics and the potential for dance injury, Med. Probl. Perform. Art, 1986, 1 (3), 73–79.
- [17] LIEDERBACH M., RICHARDSON M., RODRIGUEZ M., COMPAGNO J., DILGEN F.E., ROSE D.J., Jump exposures in the dance training environment: a measure of ergonomic demand, J. Athl. Train, 2006, 41, S85.
- [18] MICHNIK R., NOWAKOWSKA K., JURKOJĆ J., JOCHYMCZYK-WOŹNIAK K., KOPYTA I., Motor functions assessment method based on energy changes in gait cycle, Acta Bioeng. Biomech., 2017, 19 (4), 63–75.
- [19] MOITA J.P., NUNES A., ESTEVES J., OLIVEIRA L., XAREZ L., The Relationship Between Muscular Strength and Dance Injuries. A Systematic Review, Med. Probl. Perform. Art, 2017, 32 (1), 40–50.
- [20] NOWAKOWSKA K., GZIK M., MICHNIK R., MYŚLIWIEC A., JURKOJĆ J., SUCHOŃ S., BURKACKI M., The loads acting on lumbar spine during sitting down and standing up, [in:] M. Gzik, E. Tkacz, Z. Paszenda, E. Piętka (eds.), Innovation in biomedical engineering, Cham: Springer International Publishing, Advances in Intelligent System and Computing, 2017, 526, 169–176.
- [21] ORTEGA D.R., RODRÍGUEZ BÍES E.C., BERRAL DE LA ROSA F.J., Analysis of the vertical ground reaction forces and temporal factors in the landing phase of a countermovement jump, J. Sport Sci. Med., 2010, 9 (2), 282–287.
- [22] RAASCH C.C., ZAJAC F.E., MA B., LEVINE W.S., Muscle coordination of maximum-speed pedaling, J. Biomech., 1997, 30 (6), 595–602.
- [23] THOMAS T., MURRAY J., STANLEY L., GALLER P., ROBERTSON D.G.E., Analysis of the aerial and landing phases of grand jete, Presented at ISBS Conference, Ottawa, Canada, 2004.
- [24] VAGANOVA A., Basic principles of classical ballet; Russian ballet technique, Dover Publications, New York 2006.
- [25] WYON M.A., TWITCHETT E., ANGIOI M., CLARKE F., METSIOS G., KOUTEDAKIS Y., Time Motion and Video Analysis of Classical Ballet and Contemporary Dance Performance, Int. J. Sports Med., 2011, 32(11), 851–855.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b887ca34-825c-42bb-b29b-3025872879bc