Evidence of Proactive Forefoot Control During Landings on Inclined Surfaces

The notion of proactive control of landings is generally accepted, and some underlying mechanisms have already been described. Only little is known on adjustments at the foot level, however. The authors therefore investigated the foot and ankle behavior of 24 participants as they landed on differently inclined surfaces. A 4-segment model of the foot and ankle provided 3-dimensional kinematics. They also analyzed activation patterns from several muscles and the ground reaction force. Participants anticipated the different surfaces, as shown by the forefoot kinematics and the activation patterns before touch down. Anticipation of the surface inclination led to adjustments in forefoot orientation and probably also in joint stiffness. The authors suggest that those adjustments tend to enhance the self-stabilizing potential of the mechanical system. The enhancement of that potential would ease the subsequent stabilization, reducing the demands on the neural system.

[1]  Adamantios Arampatzis,et al.  A three-dimensional shank-foot model to determine the foot motion during landings. , 2002, Medicine and science in sports and exercise.

[2]  J Mizrahi,et al.  Analysis of parameters affecting impact force attenuation during landing in human vertical free fall. , 1982, Engineering in medicine.

[3]  J. Dufek,et al.  The evaluation and prediction of impact forces during landings. , 1990, Medicine and science in sports and exercise.

[4]  Maarten F. Bobbert,et al.  The contribution of muscle properties in the control of explosive movements , 1993, Biological Cybernetics.

[5]  J. Duysens,et al.  Reflex Responses in the Lower Leg following Landing Impact on an Inverting and Non‐Inverting Platform , 2003, The Journal of physiology.

[6]  Chet T Moritz,et al.  Passive dynamics change leg mechanics for an unexpected surface during human hopping. , 2004, Journal of applied physiology.

[7]  Gerald E. Loeb,et al.  Control implications of musculoskeletal mechanics , 1995, Proceedings of 17th International Conference of the Engineering in Medicine and Biology Society.

[8]  L. Konradsen Factors Contributing to Chronic Ankle Instability: Kinesthesia and Joint Position Sense. , 2002, Journal of athletic training.

[9]  Eli Isakov,et al.  Response of the Peroneal Muscles to Sudden Inversion of the Ankle during Standing , 1986 .

[10]  P. Devita,et al.  Effect of landing stiffness on joint kinetics and energetics in the lower extremity. , 1992, Medicine and science in sports and exercise.

[11]  Marco Santello,et al.  Review of motor control mechanisms underlying impact absorption from falls. , 2005, Gait & posture.

[12]  H W Thompson,et al.  Landing from a jump: the role of vision when landing from known and unknown heights. , 1995, Neuroreport.

[13]  Adamantios Arampatzis,et al.  The effect of falling height on muscle activity and foot motion during landings. , 2003, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[14]  E B Simonsen,et al.  Dynamic control of muscle stiffness and H reflex modulation during hopping and jumping in man. , 1991, The Journal of physiology.

[15]  Joseph Hamill,et al.  The role of selected extrinsic foot muscles during running. , 2004, Clinical biomechanics.

[16]  A. J. van den Bogert,et al.  The influence of foot positioning on ankle sprains. , 2000, Journal of biomechanics.

[17]  F. Lacquaniti,et al.  The role of preparation in tuning anticipatory and reflex responses during catching , 1989, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[18]  A. Arampatzis,et al.  Joint Stabilizing Response to Expected and Unexpected Tilts , 2005, Foot & ankle international.

[19]  M J McDonagh,et al.  Stretch reflex distinguished from pre‐programmed muscle activations following landing impacts in man , 2000, The Journal of physiology.

[20]  Antonio Pedotti,et al.  Motor strategies in landing from a jump: the role of skill in task execution , 2004, Experimental Brain Research.

[21]  M Santello,et al.  The control of timing and amplitude of EMG activity in landing movements in humans , 1998, Experimental physiology.

[22]  A. Arampatzis,et al.  Joint stabilising response to lateral and medial tilts. , 2005, Clinical biomechanics.

[23]  Reinhard Blickhan,et al.  Stabilizing function of antagonistic neuromusculoskeletal systems: an analytical investigation , 2003, Biological Cybernetics.

[24]  R. Johansson,et al.  Prediction Precedes Control in Motor Learning , 2003, Current Biology.

[25]  B T Bates,et al.  The assessment of mechanical and neuromuscular response strategies during landing. , 1995, Medicine and science in sports and exercise.