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Behling A.V., Manz S., von Tscharner V., Nigg B.M., Pronation or foot movement – what is important, J. Sci. Med. Sport, 2020, 23 (4), 366–371.Search in Google Scholar
Behling A.V., Nigg B.M., Relationships between the foot posture index and static as well as dynamic rear foot and arch variables, J. Biomech., 2020, 98, 109448.Search in Google Scholar
Cohen J., Statistical Power Analysis for the Behavioral Sciences, 2nd ed., Routledge, 2013.Search in Google Scholar
Colapietro M., Fraser J.J., Resch J.E., Hertel J., Running mechanics during 1600 meter track runs in young adults with and without chronic ankle instability, Phys. Ther. Sport, 2020, 42, 16–25.Search in Google Scholar
Cowley E., Marsden J., The effects of prolonged running on foot posture: a repeated measures study of half marathon runners using the foot posture index and navicular height, J. Foot Ankle Res., 2013, 6 (20), DOI: 10.1186/1757-1146-6-20.Search in Google Scholar
Dingwell J.B., Cusumano J.P., Cavanagh P.R., Sternad D., Local dynamic stability versus kinematic variability of continuous overground and treadmill walking, J. Biomech. Eng., 2001, 123, 27–32.Search in Google Scholar
dos Santos J.O.L., Gomes A.L.R., Lima A.B., de Paiva Vieira E., Bezerra E.D.S., Rossato M., Effect of linear running velocity on the increase on foot pronation, Foot, 2019, 41, 74–78.Search in Google Scholar
Ekizos A., Santuz A., Arampatzis A., Transition from shod to barefoot alters dynamic stability during running, Gait Posture, 2017, 56, 31–36.Search in Google Scholar
Frank N.S., Prentice S.D., Callaghan J.P., Local dynamic stability of the lower extremity in novice and trained runners while running in traditional and minimal footwear, Gait Posture, 2019, 68, 50–54.Search in Google Scholar
Fraser A.M., Swinney H.L., Independent coordinates for strange attractors from mutual information, Phys. Rev. A., 1986, 33, 1137–1140.Search in Google Scholar
Glassbrook D.J., Fuller J.T., Alderson J.A., Doyle T.L.A., Foot accelerations are larger than tibia accelerations during sprinting when measured with inertial measurement units, J. Sports Sci., 2020, 38 (3), 248–255.Search in Google Scholar
Hintermann B., Nigg B.M., Pronation in runners, Sport. Med., 1998, 26 (3), 169–176.Search in Google Scholar
Hoenig T., Hamacher D., Braumann K.M., Zech A., Hollander K., Analysis of running stability during 5000 m running, Eur. J. Sport Sci., 2019, 19 (4), 413–421.Search in Google Scholar
Hollander K., Hamacher D., Zech A., Running barefoot leads to lower running stability compared to shod running – results from a randomized controlled study, Sci. Rep., 2021, 11, 4376.Search in Google Scholar
Horwood A.M., Chockalingam N., Defining excessive, over, or hyper-pronation: a quandary, Foot, 2017, 31, 49–55.Search in Google Scholar
Jandová S., Volf P., Vaverka F., The influence of minimalist and conventional sports shoes and lower limbs dominance on running gait, Acta Bioeng. Biomech., 2018, 20 (3), 3–9.Search in Google Scholar
Kennel M.B., Brown R., Abarbanel H.D.I., Determining embedding dimension for phase-space reconstruction using a geometrical construction, Phys. Rev. A., 1992, 45 (6), 3403–3411.Search in Google Scholar
Lai C.H.Y., Li-Tsang C.W.P., Validation of the Pliance X System in measuring interface pressure generated by pressure garment, Burns, 2009, 35, 845–851.Search in Google Scholar
Malisoux L., Chambon N., Delattre N., Gueguen N., Urhausen, A., Theisen D., Injury risk in runners using standard or motion control shoes: a randomised controlled trial with participant and assessor blinding, Br. J. Sports Med., 2016, 50 (8), 481–487.Search in Google Scholar
Mehdizadeh S., The largest lyapunov exponent of gait in young and elderly individuals: a systematic review, Gait Posture, 2018, 60, 241–250.Search in Google Scholar
Mei Q., Gu Y., Xiang L., Baker J.S., Fernandez J., Foot pronation contributes to altered lower extremity loading after long distance running, Front. Physiol., 2019, 10, 573.Search in Google Scholar
Mizrahi J., Verbitsky O., Isakov E., Fatigue-related loading imbalance on the shank in running: a possible factor in stress fractures, Ann. Biomed. Eng., 2000, 28 (4), 463–469.Search in Google Scholar
Mo S., Chow D.H.K., Accuracy of three methods in gait event detection during overground running, Gait Posture, 2018, 59, 93–98.Search in Google Scholar
Neal B.S., Griffiths I.B., Dowling G.J., Murley G.S., Munteanu S.E., Franettovich Smith M.M., Collins N.J., Barton C.J., Foot posture as a risk factor for lower limb overuse injury: a systematic review and meta-analysis, J. Foot Ankle Res., 2014, 7(55), DOI: 10.1186/s13047-014-0053-6.Search in Google Scholar
Nielsen R.O., Buist I., Parner E.T., Nohr E.A., Sørensen H., Lind M., Rasmussen S., Foot pronation is not associated with increased injury risk in novice runners wearing a neutral shoe: a 1-year prospective cohort study, Br. J. Sports Med., 2014, 48, 440–447.Search in Google Scholar
Nigg B., Behling A., Hamill J., Foot pronation, Footwear Sci., 2019, 11 (3), 131–134.Search in Google Scholar
Nigg B.M., Baltich J., Hoerzer S., Enders H., Running shoes and running injuries: mythbusting and a proposal for two new paradigms:“preferred movement path”and “comfort filter”, Br. J. Sports Med., 2015, 49 (20), 1290–1294.Search in Google Scholar
Novacheck T.F., The biomechanics of running, Gait Posture, 1998, 7, 77–95.Search in Google Scholar
Paterson K.L., Clark R.A., Mullins A., Bryant A.L., Mentiplay B.F., Predicting dynamic foot function from static foot posture: comparison between visual assessment, motion analysis, and a commercially available depth camera, J. Orthop. Sport. Phys. Ther., 2015, 45 (10), 789–798.Search in Google Scholar
Rabiei M., Eslami M., Movaghar A.F., The assessment of three-dimensional foot pronation using a principal component analysis method in the stance phase of running, Foot, 2016, 29, 11–17.Search in Google Scholar
Redmond A.C., Crane Y.Z., Menz H.B., Normative values for the foot posture index, J. Foot Ankle Res., 2008, 1 (1), DOI: 10.1186/1757-1146-1-6.Search in Google Scholar
Redmond A.C., Crosbie J., Ouvrier R.A., Development and validation of a novel rating system for scoring standing foot posture: the foot posture index, Clin. Biomech., 2006, 21, 89–98.Search in Google Scholar
Resende R.A., Pinheiro L.S.P., Ocarino J.M., Effects of foot pronation on the lower limb sagittal plane biomechanics during gait, Gait Posture, 2019, 68, 130–135.Search in Google Scholar
Rosenstein M.T., Collins J.J., De Luca C.J., A practical method for calculating largest lyapunov exponents from small data sets, Phys. D Nonlinear Phenom., 1993, 65, 117–134.Search in Google Scholar
Schütte K.H., Seerden S., Venter R., Vanwanseele B., Influence of outdoor running fatigue and medial tibial stress syndrome on accelerometer-based loading and stability, Gait Posture, 2018, 59, 222–228.Search in Google Scholar
Sheerin K.R., Besier T.F., Reid D., The influence of running velocity on resultant tibial acceleration in runners, Sport. Biomech., 2018, DOI: 10.1080/14763141.2018.1546890.Search in Google Scholar
Sinclair J., Fau-Goodwin J., Richards J., Shore H., The influence of minimalist and maximalist footwear on patellofemoral kinetics during running, J. Appl. Biomech., 2016, 32 (4), 359–364.Search in Google Scholar
Stenum J., Bruijn S.M., Jensen B.R., The effect of walking speed on local dynamic stability is sensitive to calculation methods, J. Biomech., 2014, 47, 3776–3779.Search in Google Scholar
Tansey P.A., Briggs P.J., Active and passive mechanisms in the control of heel supination, Foot ankle Surg., 2001, 7 (3), 131–136.Search in Google Scholar
Tenforde A.S., Hayano T., Jamison S.T., Outerleys J., Davis I.S., Tibial acceleration measured from wearable sensors is associated with loading rates in injured runners, PM R, 2020, 12 (7), 679–684.Search in Google Scholar
Varghese M.A., Saha P.N., Atreya N., A rapid appraisal of occupational workload from a modified scale of perceived exertion, Ergonomics, 1994, 37 (3), 485–491.Search in Google Scholar
Xiang L., Gu Y., Rong M., Gao Z., Yang T., Wang A., Shim V., Fernandez J., Shock acceleration and attenuation during running with minimalist and maximalist shoes: a timeand frequency-domain analysis of tibial acceleration, Bioengineering, 2022, 9, 322.Search in Google Scholar
Xiang L., Wang A., Gu Y., Zhao L., Shim V., Fernandez J., Recent machine learning progress in lower limb running biomechanics with wearable technology: a systematic review, Front. Neurorobot., 2022, 16, 913052.Search in Google Scholar
