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Mohsen Razeghi, Samaneh Ebrahimi, Farzaneh Yazdani and Behdad Tahayori

mechanism when par­tially weight-bearing. Bone Joint J., 89: 911-914. 14. Kim J.A., Lim O.B., Yi C.H. (2015) Difference in static and dynamic stability between flexible flatfeet and neu­tral feet. Gait Posture, 41(2): 546-550. 15. Leung A., Mak A., Evans J. (1998) Biomechanical gait evaluation of the immediate effect of orthotic treatment for flexible flat foot. Prosthet. Orthot. Int., 22(1): 25-34. 16. Nordin M., Frankel V. (2001) Basic biomechanics of the musculoskeletal system, Philadelphia, Lippincott Wil­liams & Wilkins

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Michał Wychowański, Ryszard Biernat and Agnieszka Witke

References 1.Mataczyński K., Samulak P., Witek E. (2009). Three-plane pattern of the physiological gait. Studenckie Naukowe Czasopismo Internetowe TH!NK 1, 39-50. [in Polish] 2.Jurkojć J., Michnik R. (2011). Gait biomechanics. In D. Tejszerska, E. Świtoński, M. Gzik (Eds.), Biomechanics of human musculoskeletal system (pp. 476-531). Radom: Wydawnictwo Naukowe Instytutu Technologii Eksploatacji. [in Polish] 3.Michnik R., Jurkojć J. (2003). Analysis of kinematic and dynamic parameters during normal and

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Michalina Błażkiewicz, Ida Wiszomirska, Katarzyna Kaczmarczyk, Grażyna Brzuszkiewicz-Kuźmicka and Andrzej Wit

References 1. Agarwal-Harding K.J., M.H. Schwartz, S.L. Delp (2010) Variation of hamstrings lengths and velocities with walking speed. J. Biomech., 43(8): 1522-1526. DOI: 2. Barton C.J., P. Levinger, H.B. Menz, K.E. Webster (2009) Kinematic gait characteristics associated with patellofemoral pain syndrome: a systematic review. Gait Posture, 30(4): 405-16. DOI: 10.1016/j.gaitpost.2009.07.109. 3. Biomechanics, I.S.o., Signal Processing Software. 2016, International Society of Biomechanics

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J. Fiołka and Z. Kidoń

References [1] D.A. Winter, “Human balance and posture control during standing and walking”, Gait and Posture 3, 193-214 (1995). [2] Z. Kidoń, “Digital signal processing of stabilographic signals” (“Cyfrowe przetwarzanie sygnałow stabilograficznych”), PhD Thesis , Silesian University of Technology, Gliwice, 2003, (in Polish). [3] D.A. Winter, Biomechanics and Motor Control of Human Movement , Wiley, London, 2009. [4] FB. Horak, “Clinical assessment of balance disorders”, Gait and

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Françoise Natta, Alexandre Boisnoir and Didier Cholet

(ed). Progress in motor control: Structurefunction, relations in voluntary movements (pp. 25-52). Human Kinetics. Breniere, Y., & Do, M. C. (1986). When and how does steady state gait movement induced from upright posture begin? Journal of Biomechanics, 19 , 1035-1040. Breniere, Y., & Do, M. C. (1991). Control of gait initiation. Journal of motor behaviour, 24 , 235-240. Crenna, P., & Frigo, C. (1991). A motor programme for the initiation of forwardoriented movements in humans

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James Hawkins, Siamak Noroozi, Mihai Dupac and Philip Sewell

tool for characterization and evaluation of prosthetic feet. American Academy of Orthotists and Prosthetists , 16 (2), 41-45. [19] Hunter, J., Marshall, R., McNair, P. (2005). Relationships between ground reaction force impulse and kinematics of sprint-running acceleration. Journal of Applied Biomechanics , 21 (1), 31-43. [20] Yu, H., Alaqtash, M., Spier, E., Sarkodie-Gyan, T. (2010). Analysis of muscle activity during gait cycle using fuzzy rule-based reasoning. Measurement , 43, 1106-1114. [21] Windolf, M., Götzen, N., Morlock, M. (2008

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Ewa Szczerbik, Małgorzata Kalinowska, Krzysztof Graff, Dorota Olczak-Kowalczyk, Anna Dąbrowska-Gontarczyk, Elżbieta Jelonek and Małgorzata Syczewska

References 1. Burke D. (1988) Spasticity as an adaptation to pyramidal tract injury. Advances in Neurology, 47: 401-422. 2. Frigo C., Crenna P. (2009) Multichannel SEMG in clinical gait analysis: A review and state-of-the-art. Clin. Biomech., 24: 236-245. 3. Haas B.M., Crow J.L. (1995) Towards a clinical measurement od spasticity? Physiotherapy, 81: 474-479. 4. Haugh A.B., Pandyan A.D., Johnson G.R. (2006) A systematic review of the Tardieu scale for the measurement of spasticity. Disability and Rehabilitation, 28: 899-907. 5

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Krzysztof Maćkała, Ryszard Michalski and Milan Ćoh

's 200 meters. Int J Sport Biomech, 1985, 1: 151-162. Peters M. Footedness: asymmetries in foot preference and skill and neuro-psychological assessment of foot movement. Psychol Bull, 1988, 103(2):179-92. Sadeghi H, Allard P, Prince F. Labelle H. Symmetry and limb dominance in able-bodied gait: a review. Gait Posture, 2000; 12: 34-45. Susanka P, Moravec P, Dostale, Ruzicka J, Barac F, Vezlak J. Kodejs M, Nosek M, Jurdik M. Fundamental motor abilities and a selected biomechanical; variables

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Emmanuel S. da Rocha, Álvaro S. Machado, Pedro S. Franco, Eliane C. Guadagnin and Felipe P. Carpes

References 1. Hegeman J., Weerdesteyn V., van den Bemt B., Nienhuis B., van Limbeek J., Duysens J., Dual-tasking interferes with obstacle avoidance reactions in healthy seniors. Gait Posture , 2012, 36 (2), 236-240, doi: 10.1016/j.gaitpost. 2012.02.024. 2. Galna B., Peters A., Murphy A.T., Morris M.E., Obstacle crossing deficits in older adults: A systematic review. Gait Posture , 2009, 30 (3), 270-275, doi: 10.1016/j.gaitpost. 2009.05.022. 3. Chen H.L., Lu T.W., Wanga T.M., Huang S.C., Biomechanical

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Marcelo Pereira and Mauro Gonçalves

: 10.1111/j.1748-1716.2006.01522.x. Lockhart T. E., Woldstad J. C., Smith J. L., Effects of age-related gait changes on the biomechanics of slips and falls. Ergonomics , 2004, 46 (12), 1136-1160, doi: 10.1080/0014013031000139491. Watelain E., Barbier F., Allard P., Thevenon A., Angué J. C., Gait pattern classification of healthy elderly men based on biomechanical data. Arch Phys Med Rehabil , 2000, 81 (5), 579-586, doi: 10.1016/S0003-9993 (00)90038-8. Aagaard P., Simonsen E. B., Andersen