Citations (18)
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Cameron Mitchell, Sarah McDonnell, Karina Oganezova, David Mockler & Neil Fleming. (2023) The effect of surface compliance on overground running biomechanics. A systematic review and meta-analysis. Sports Biomechanics 0:0, pages 1-25.
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Kelly R. Sheerin, Thor F. Besier & Duncan Reid. (2020) The influence of running velocity on resultant tibial acceleration in runners. Sports Biomechanics 19:6, pages 750-760.
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Hannelore Boey, Jeroen Aeles, Kurt Schütte & Benedicte Vanwanseele. (2017) The effect of three surface conditions, speed and running experience on vertical acceleration of the tibia during running. Sports Biomechanics 16:2, pages 166-176.
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Articles from other publishers (15)
Amelia Ferro-Sánchez, Adrián Martín-Castellanos, Alfonso de la Rubia, Abraham García-Aliaga, Mónica Hontoria-Galán & Moisés Marquina. (2023) An Analysis of Running Impact on Different Surfaces for Injury Prevention. International Journal of Environmental Research and Public Health 20:14, pages 6405.
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Rachel Mason, Liam T. Pearson, Gillian Barry, Fraser Young, Oisin Lennon, Alan Godfrey & Samuel Stuart. (2022) Wearables for Running Gait Analysis: A Systematic Review. Sports Medicine 53:1, pages 241-268.
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Meghan Keast, Jason Bonacci & Aaron Fox. (2022) Acute Effects of Gait Interventions on Tibial Loads During Running: A Systematic Review and Meta-analysis. Sports Medicine 52:10, pages 2483-2509.
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Ezio Preatoni, Elena Bergamini, Silvia Fantozzi, Lucie I. Giraud, Amaranta S. Orejel Bustos, Giuseppe Vannozzi & Valentina Camomilla. (2022) The Use of Wearable Sensors for Preventing, Assessing, and Informing Recovery from Sport-Related Musculoskeletal Injuries: A Systematic Scoping Review. Sensors 22:9, pages 3225.
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Micah C. Garcia, Gianna Gust & David M. Bazett-Jones. (2021) Tibial acceleration and shock attenuation while running over different surfaces in a trail environment. Journal of Science and Medicine in Sport 24:11, pages 1161-1165.
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Alberto Encarnación-Martínez, Ignacio Catalá-Vilaplana, Rafael Berenguer-Vidal, Roberto Sanchis-Sanchis, Borja Ochoa-Puig & Pedro Pérez-Soriano. (2021) Treadmill and Running Speed Effects on Acceleration Impacts: Curved Non-Motorized Treadmill vs. Conventional Motorized Treadmill. International Journal of Environmental Research and Public Health 18:10, pages 5475.
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Nathan Waite, John Goetschius & Jakob D. Lauver. (2021) Effect of Grade and Surface Type on Peak Tibial Acceleration in Trained Distance Runners. Journal of Applied Biomechanics 37:1, pages 2-5.
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CLARE E. MILNER, JILLIAN L. HAWKINS & KEVIN G. AUBOL. (2020) Tibial Acceleration during Running Is Higher in Field Testing Than Indoor Testing. Medicine & Science in Sports & Exercise 52:6, pages 1361-1366.
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Shuo Li, Jing-jing Xue, Ping Hong, Chao Song & Zi-hong He. (2020) Comparison of energy expenditure and substrate metabolism during overground and motorized treadmill running in Chinese middle-aged women. Scientific Reports 10:1.
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Tom Hughes, Richard K. Jones, Chelsea Starbuck, Jamie C. Sergeant & Michael J. Callaghan. (2019) The value of tibial mounted inertial measurement units to quantify running kinetics in elite football (soccer) players. A reliability and agreement study using a research orientated and a clinically orientated system. Journal of Electromyography and Kinesiology 44, pages 156-164.
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Kelly R. Sheerin, Duncan Reid & Thor F. Besier. (2019) The measurement of tibial acceleration in runners—A review of the factors that can affect tibial acceleration during running and evidence-based guidelines for its use. Gait & Posture 67, pages 12-24.
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A. Tsouknidas, M. Pantazopoulos, D. Sagris, D. Fasnakis, S. Maropoulos, F. Arabatzi & N. Michailidis. (2017) The Effect of Body Mass on the Shoe-Athlete Interaction. Applied Bionics and Biomechanics 2017, pages 1-9.
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Weijie Fu, Ying Fang, David Ming Shuo Liu, Lin Wang, Sicong Ren & Yu Liu. (2015) Surface effects on in-shoe plantar pressure and tibial impact during running. Journal of Sport and Health Science 4:4, pages 384-390.
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J. Sinclair, C. Franks, J.F. Goodwin, R. Naemi & N. Chockalingam. (2014) Influence of footwear designed to boost energy return on the kinetics and kinematics of running compared to conventional running shoes. Comparative Exercise Physiology 10:3, pages 199-206.
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J. Sinclair, P.J. Taylor & S. Andrews. (2013) Influence of barefoot, barefoot inspired and conventional shoes on tibial accelerations and loading kinetics during running in natural rearfoot strikers. Comparative Exercise Physiology 9:3-4, pages 161-167.
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