How gravity and muscle action control mediolateral center of mass excursion during slow walking: a simulation study.
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Ilse Jonkers | Jacques Duysens | Friedl De Groote | J. Duysens | I. Jonkers | F. De Groote | K. Jansen | Karen Jansen
[1] J. Duysens,et al. Gait recovery is not associated with changes in the temporal patterning of muscle activity during treadmill walking in patients with post-stroke hemiparesis , 2006, Clinical Neurophysiology.
[2] Noah J Rosenblatt,et al. Measures of frontal plane stability during treadmill and overground walking. , 2010, Gait & posture.
[3] Marcus G Pandy,et al. Muscle coordination of mediolateral balance in normal walking. , 2010, Journal of biomechanics.
[4] J. Duysens,et al. Speed related changes in muscle activity from normal to very slow walking speeds. , 2004, Gait & posture.
[5] P. Beek,et al. Is slow walking more stable? , 2009, Journal of biomechanics.
[6] Ajay Seth,et al. Muscle contributions to propulsion and support during running. , 2010, Journal of biomechanics.
[7] Darryl G Thelen,et al. Effect of age on center of mass motion during human walking. , 2009, Gait & posture.
[8] Astrid Bergland,et al. Predictors of falls in the elderly by location , 2003, Aging clinical and experimental research.
[9] Jeffrey M. Hausdorff. Gait variability: methods, modeling and meaning , 2005, Journal of NeuroEngineering and Rehabilitation.
[10] May Q. Liu,et al. Muscle contributions to support and progression over a range of walking speeds. , 2008, Journal of biomechanics.
[11] M. Pandy,et al. Individual muscle contributions to support in normal walking. , 2003, Gait & posture.
[12] Ayman Habib,et al. OpenSim: Open-Source Software to Create and Analyze Dynamic Simulations of Movement , 2007, IEEE Transactions on Biomedical Engineering.
[13] J. Duysens,et al. Control of roll and pitch motion during multi-directional balance perturbations , 2009, Experimental Brain Research.
[14] Christine C. Raasch,et al. Responses to multi-directional surface translations involve redistribution of proximal versus distal strategies to maintain upright posture , 2008, Experimental Brain Research.
[15] J. Hidler,et al. Biomechanics of overground vs. treadmill walking in healthy individuals. , 2008, Journal of applied physiology.
[16] Jill S Higginson,et al. Kinematic comparison of split-belt and single-belt treadmill walking and the effects of accommodation. , 2012, Gait & posture.
[17] F. Lacquaniti,et al. Five basic muscle activation patterns account for muscle activity during human locomotion , 2004, The Journal of physiology.
[18] Chand T. John,et al. Contributions of muscles to mediolateral ground reaction force over a range of walking speeds. , 2012, Journal of biomechanics.
[19] A. Kuo,et al. Active control of lateral balance in human walking. , 2000, Journal of biomechanics.
[20] D. Winter,et al. Unified theory regarding A/P and M/L balance in quiet stance. , 1996, Journal of neurophysiology.
[21] A. Hof,et al. Speed dependence of averaged EMG profiles in walking. , 2002, Gait & posture.
[22] Richard R Neptune,et al. Modular control of human walking: a simulation study. , 2009, Journal of biomechanics.
[23] I Jonkers,et al. Kalman smoothing improves the estimation of joint kinematics and kinetics in marker-based human gait analysis. , 2008, Journal of biomechanics.
[24] May Q. Liu,et al. Muscles that support the body also modulate forward progression during walking. , 2006, Journal of biomechanics.
[25] Richard R Neptune,et al. The effect of walking speed on muscle function and mechanical energetics. , 2008, Gait & posture.
[26] Ilse Jonkers,et al. Similar muscles contribute to horizontal and vertical acceleration of center of mass in forward and backward walking: implications for neural control. , 2012, Journal of neurophysiology.
[27] C. Silke,et al. Community-based health efforts for the prevention of falls in the elderly , 2010, Clinical interventions in aging.
[28] M. Orendurff,et al. The effect of walking speed on center of mass displacement. , 2004, Journal of rehabilitation research and development.
[29] Richard R Neptune,et al. Three-dimensional modular control of human walking. , 2012, Journal of biomechanics.