References
- 1. Andersen M., Benoit D., Damsgaard M., Ramsey D., Rasmussen J. (2009) Do kinematic models reduce the effects of soft tissue artefacts in skin marker-based motion analysis? An in vivo study of knee kinematics, J. Biomech., 43: 268-273.
- 2. Bohm H., Senner V. (2008) Effect of ski boot settings on tibio-femoral abduction and rotation during standing and simulated skiing, J. Biomech., 41(3): 498-505.10.1016/j.jbiomech.2007.10.019
- 3. Burtscher M., Gatterer H., Flatz M., Sommersacher R., Woldrich T., Ruedl G., Hotter B., Lee A., Nachbauer W. (2008) Effects of modern ski equipment on the overall injury rate and the pattern of injury location in Alpine skiing, Clin. J. Sport Med., 18(4): 355-357.
- 4. Chaudhari A., Andriacchi T. (2006) The mechanical consequences of dynamic frontal plane limb alignment for non-contact ACL injury, J. Biomech., 39(2): 330-338.10.1016/j.jbiomech.2004.11.013
- 5. Colbeck S. (1994) A review of the friction of snow skis, J. Sports Sci., 12(3): 285-295.10.1080/02640419408732174
- 6. Davey A., Endres N., Johnson R., Shealy J. (2019) Alpine Skiing Injuries, Sports Health, 11(1): 18-26.10.1177/1941738118813051
- 7. Gulgin H., Hall K., Luzadre A., Kayfish E. (2018) 3D gait analysis with and without an orthopedic walking boot, Gait Posture, 59: 76-82.10.1016/j.gaitpost.2017.09.024
- 8. Hauser W., Schaff P., Sole B. (1987) Ski Boots: Biomechanical issues Regarding Skiing Safety and Performance, Int. J. Sport Biomech., 3: 326-344.
- 9. Huang T., Shorter K., Adamczyk P., Kuo A. (2015) Mechanical and energetic consequences of reduced ankle plantar-flexion in human walking, J. Exp. Biol., 218(Pt 22): 3541-3550.
- 10. Hydren J., Volek J., Maresh C., Comstock B., Kraemer W. (2013) Review of Strength and Conditioning for Alpine Ski Racing, J. Strength Cond., 35(1): 10-28.10.1519/SSC.0b013e31828238be
- 11. Klein Horsman M., Koopman H., van der Helm F., Prose L., Veeger H. (2007) Morphological muscle and joint parameters for musculoskeletal modelling of the lower extremity, Clin. Biomech., (Bristol, Avon), 22(2): 239-247.10.1016/j.clinbiomech.2006.10.003
- 12. Lin C., Moseley A., Herbert R., Refshauge K. (2009) Pain and dorsiflexion range of motion predict short – and medium-term activity limitation in people receiving physiotherapy intervention after ankle fracture: an observational study, Aust. J. Physiother., 55(1): 31-37.10.1016/S0004-9514(09)70058-3
- 13. Noe F., Garcia-Masso X., Delaygue P., Melon A., Paillard T. (2020) The influence of wearing ski-boots with different rigidity characteristics on postural control, Sports Biomech., 19(2): 157-167.
- 14. Ota S., Ueda M., Aimoto K., Suzuki Y., Sigward S. (2014) Acute influence of restricted ankle dorsiflexion angle on knee joint mechanics during gait, Knee, 21(3): 669-675.10.1016/j.knee.2014.01.006
- 15. Pollo F., Gowling T., J ackson R. (1999) Walking boot design: a gait analysis study, Orthopedics, 22(5): 503-507.
- 16. Rasmussen J., Damsgaard M., Voigt M. (2001) Muscle recruitment by the min/max criterion – a comparative numerical study, J. Biomech., 34(3): 409-415.10.1016/S0021-9290(00)00191-3
- 17. Tchorzewski D., Bujas P., Jankowicz-Szymanska A. (2013) Body posture stability in ski boots under conditions of unstable supporting surface, J. Hum. Kinet., 38: 33-44.
- 18. Thomee R., Augustsson J., Karlsson J. (1999) Patellofemoral pain syndrome: a review of current issues, Sports Med., 28(4): 245-262.
- 19. Vanderpool M., Collins S., Kuo A. (2008) Ankle fixation need not increase the energetic cost of human walking, Gait Posture, 28(3): 427-433.10.1016/j.gaitpost.2008.01.016270345918359634
- 20. Youdas J., McLean T., Krause D., Hollman J. (2009) Changes in active ankle dorsiflexion range of motion after acute inversion ankle sprain, J. Sport Rehabil., 18(3): 358-374.10.1123/jsr.18.3.35819827500
- 21. Zhang S., Clowers K., Powell D. (2006) Ground reaction force and 3D biomechanical characteristics of walking in short-leg walkers, Gait Posture, 24(4): 487-492.10.1016/j.gaitpost.2005.12.00316414263