Foot kinematics and loading of professional athletes in American football-specific tasks.

The purpose of this study was to describe stance foot and ankle kinematics and the associated ground reaction forces at the upper end of human performance in professional football players during commonly performed football-specific tasks. Nine participants were recruited from the spring training squad of a professional football team. In a motion analysis laboratory setting, participants performed three activities used at the NFL Scouting Combine to assess player speed and agility: the 3-cone drill, the shuttle run, and the standing high jump. The talocrural and first metatarsophalangial joint dorsiflexion, subtalar joint inversion, and the ground reaction forces were determined for the load bearing portions of each activity. We documented load-bearing foot and ankle kinematics of elite football players performing competition-simulating activities, and confirmed our hypothesis that the talocrural, subtalar, and metatarsophalangeal joint ranges of motion for the activities studied approached or exceeded reported physiological limits.

[1]  A. J. van den Bogert,et al.  Tibiocalcaneal kinematics of barefoot versus shod running. , 2000, Journal of biomechanics.

[2]  A. J. van den Bogert,et al.  Tibiocalcaneal motion during running, measured with external and bone markers. , 1997, Clinical biomechanics.

[3]  J. L. Walle,et al.  Medicine & Science in sports & Exercise , 2010 .

[4]  Bryan Buchholz,et al.  ISB recommendation on definitions of joint coordinate systems of various joints for the reporting of human joint motion--Part II: shoulder, elbow, wrist and hand. , 2005, Journal of biomechanics.

[5]  Ayman Habib,et al.  OpenSim: Open-Source Software to Create and Analyze Dynamic Simulations of Movement , 2007, IEEE Transactions on Biomedical Engineering.

[6]  T. Jenkyn,et al.  A comparison of subtalar joint motion during anticipated medial cutting turns and level walking using a multi-segment foot model. , 2010, Gait & posture.

[7]  J J O'Connor,et al.  Bone position estimation from skin marker co-ordinates using global optimisation with joint constraints. , 1999, Journal of biomechanics.

[8]  Robert J. Crutcher,et al.  The role of deliberate practice in the acquisition of expert performance. , 1993 .

[9]  Angelique Guste,et al.  National football league. , 2012, Journal of safety research.

[10]  A. J. van den Bogert,et al.  In vivo determination of the anatomical axes of the ankle joint complex: an optimization approach. , 1994, Journal of biomechanics.

[11]  Michael Günther,et al.  Dynamics of longitudinal arch support in relation to walking speed: contribution of the plantar aponeurosis , 2010, Journal of anatomy.

[12]  J. Delee,et al.  Incidence of injury in Texas high school football , 1992, The American journal of sports medicine.

[13]  Kevin R Ford,et al.  Gender differences in the kinematics of unanticipated cutting in young athletes. , 2005, Medicine and science in sports and exercise.

[14]  A. J. van den Bogert,et al.  Movement Coupling at the Ankle During the Stance Phase of Running , 2000, Foot & ankle international.

[15]  H. Menz,et al.  A comparison of foot kinematics in people with normal- and flat-arched feet using the Oxford Foot Model. , 2010, Gait & posture.

[16]  Robert B. Anderson,et al.  Management of Common Sports‐related Injuries About the Foot and Ankle , 2010, The Journal of the American Academy of Orthopaedic Surgeons.

[17]  P. Wylleman,et al.  A lifespan perspective on the career of talented and elite athletes: Perspectives on high‐intensity sports , 2010, Scandinavian journal of medicine & science in sports.

[18]  Sherry I. Backus,et al.  Electromyographic Analysis and Phase Definition of the Overhead Football Throw * , 2002, The American journal of sports medicine.

[19]  U. Croce,et al.  A kinematic and kinetic comparison of overground and treadmill walking in healthy subjects. , 2007, Gait & posture.

[20]  John B Cronin,et al.  STRENGTH AND POWER PREDICTORS OF SPORTS SPEED , 2005, Journal of strength and conditioning research.

[21]  J. Y. Goulermas,et al.  A dynamic model of the windlass mechanism of the foot: evidence for early stance phase preloading of the plantar aponeurosis , 2009, Journal of Experimental Biology.

[22]  S. Piazza Mechanics of the subtalar joint and its function during walking. , 2005, Foot and ankle clinics.

[23]  D. Kerrigan,et al.  A kinematics and kinetic comparison of overground and treadmill running. , 2008, Medicine and science in sports and exercise.

[24]  C. Reinschmidt,et al.  Lateral stability in sideward cutting movements. , 1996, Medicine and science in sports and exercise.

[25]  N. Smith,et al.  Contributions of the inside and outside leg to maintenance of curvilinear motion on a natural turf surface. , 2006, Gait & posture.

[26]  Susanne W. Lipfert,et al.  Effect of gender and defensive opponent on the biomechanics of sidestep cutting. , 2004, Medicine and science in sports and exercise.

[27]  J R Engsberg,et al.  Right to left differences in the ankle joint complex range of motion. , 1994, Medicine and science in sports and exercise.

[28]  Hartmut Witte,et al.  ISB recommendation on definitions of joint coordinate system of various joints for the reporting of human joint motion--part I: ankle, hip, and spine. International Society of Biomechanics. , 2002, Journal of biomechanics.

[29]  Sonia Duprey,et al.  Influence of joint constraints on lower limb kinematics estimation from skin markers using global optimization. , 2010, Journal of biomechanics.

[30]  J. Joseph,et al.  Range of movement of the great toe in men , 1954 .

[31]  Jaco F Schutte,et al.  Determination of patient-specific multi-joint kinematic models through two-level optimization. , 2005, Journal of biomechanics.