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Muscle force distribution during forward and backward locomotion

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Backward walking (BW) is a common technique employed in the treatment of a variety of orthopedic and neurological diseases. BW training may offer some benefits especially in balance and motor control ability beyond those experienced through forward walking (FW). The purpose of this study was to determine whether BW represented a simple reversal of FW and, hence muscle force distribution is the same. The study involved one male healthy student of physical education (22 years, h = 185 cm, m = 80 kg). Measurements of spatial-temporal gait parameters were conducted using eight Vicon system cameras, and Kistler plates. Noraxon EMG was used to obtain muscles activity. OpenSim software was used to compute muscle force distribution during both types of gait. During FW and BW there is small difference for force curves produced by m. gluteus maximus (RMS = 0.04), m. biceps femoris short head (RMS = 0.19) and m. tibialis anterior (RMS = 0.16). Good validation by EMG signal was obtained for m. rectus femoris, m. biceps femoris short head, m. tibialis posterior during FW and BW. For m. iliacus, only during BW good validation was achived.
Rocznik
Strony
3--9
Opis fizyczny
Bibliogr. 17 poz., tab., wykr.
Twórcy
  • Józef Piłsudski University of Physical Education in Warsaw, Department of Physiotherapy, Warsaw, Poland
Bibliografia
  • [1] RUBENSTEIN L.Z., JOSEPHSON K.R., The epidemiology of falls and syncope, Clinics in Geriatric Medicine, 2002, Vol. 18(2), 141–158.
  • [2] WEI-YA H., YAN C., Backward walking training improves balance in school-aged boys. Sports Medicine, Arthroscopy, Rehabilitation, Therapy & Technology, 2011, Vol. 3(24), 2–7.
  • [3] WINTER D.A., PLUCK N., YANG J.F., Backward walking: a simple reversal of forward walking?, Journal of Motor Behavior, 1989, Vol. 21, 291–305.
  • [4] GRASSO R., BIANCHI L., LACQUANITI F., Motor Patterns for Human Gait: Backward Versus Forward Locomotion, Journal of Neurophysiology, 1998, Vol. 80, 1868–1885.
  • [5] VILENSKY J.A., GANKIEWICZ E., GEHLSEN G., A kinematic comparison of backward and forward walking in humans, Journal of Human Movement Studies, 1987, Vol. 13(1), 29–50.
  • [6] DELP S.L., ANDERSON F.C., ARNOLD A.S., LOAN P., HABIB A., JOHN C.T., GUENDELMAN E., THELEN D.G., Opensim: open-source software to create and analyze dynamic simulations of movement, IEEE Transactions on Biomedical Engineering, 2007, Vol. 54(11), 1940–1950.
  • [7] THELEN D.G., ANDERSON F.C., DELP S.L., Generating forward dynamic simulations of movement using computed muscle control, J. Biomech., 2003, Vol. 36(3), 321–328.
  • [8] STANISZ A., Accessible course of statistic using the STATISTICA PL on medical examples, statsoft Poland Editor, 1998, Kraków.
  • [9] BIANCHI L., ANGELINI D., ORANI G.P., LACQUANITI F., Kinematic Coordination in Human Gait: Relation to Mechanical Energy Cost, J. Neurophysiol., 1998, Vol. 79, 2155–2170.
  • [10] STEWART C., SHORTLAND A., The biomechanics of pathological gait – from muscle to movement, Acta of Bioengineering and Biomechanics, 2010, Vol. 12(3), 3–12.
  • [11] DE OLIVEIRA L., MENEGALDO L., Input error analysis of an EMG-driven muscle model of the plantar flexors, Acta of Bioengineering and Biomechanics, 2012, Vol. 14(3), 75–81.
  • [12] BŁAŻKIEWICZ M., WIT A., Comparison of sensitivity coefficients for joint angle trajectory between normal and pathological gait, Acta of Bioengineering and Biomechanics, 2012, Vol. 14(1), 83–91.
  • [13] PANDY M.G., ZAJAC F.E., SIM E., LEVINE W.S., An optimal control model for maximum-height human jumping, Journal of Biomechanics, 1990, Vol. 23(12), 1185–1198.
  • [14] BOGEY R., GITTER A., BARNES L., Determination of ankle muscle power in normal gait using an EMG-to-force processing approach, Journal of Electromyography and Kinesiology, 2010, Vol. 20(1), 46–54.
  • [15] HEINTZ S., GUTIERREZ-FAREWIK E., Static optimization of muscle forces during gait in comparison to EMG-to-force processing approach, Gait & Posture, 2007, Vol. 26, 279–288.
  • [16] DE VITA P., STIRLING J., Low extremity joint kinetics and energetics during backward running, Med. Sci. Sports Exerc., 1991, Vol. 23(5), 602–610.
  • [17] FLYNN T., CONNERY S.M., SMUTOK M.A., ZEBALLOS R.J., WEISMAN I.M., Comparison of cardiopulmonary responses to forward and backward walking and running, Med. Sci. Sports Exerc., 1994, Vol. 26(1), 89–94.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-92361ea1-9fc4-4f05-ba0f-795db269dd74
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