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Medical and Biomechanical Risk Factors for Incident Bone Stress Injury in Collegiate Runners: Can Plantar Pressure Predict Injury? Orthopaedic journal of sports medicine Wilzman, A.In summary, when adopting a FPA modification that reduced the knee adduction moment, participants, on average, did not increase surrogate measures of hip loading. Additionally, 74% of individuals reduced their total hip moment at time of peak hip contact force with a modified FPA.
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Modifying the FPA reduced the early-stance hip abduction moment, at the time of peak hip contact force, by 4.3% ± 1.3% for 10° toe-in gait (p = 0.005, d = 0.49) and by 4.6% ± 1.1% for 10° toe-out gait (p 0.15).
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In this group, participants reduced the first peak of the knee adduction moment by 7.6% with 10° toe-in gait and reduced the second peak by 11.0% with 10° toe-out gait. Fifty participants were selected from a larger study who reduced their peak knee adduction moment with a modified FPA. A musculoskeletal modeling package was used to compute joint moments from the experimental data. Individuals with knee osteoarthritis walked on an instrumented treadmill with their baseline gait, 10° toe-in gait, and 10° toe-out gait. This study examined how altering the FPA affects hip moments. It is unknown, however, whether changes in the FPA increase hip moments, a surrogate measure of hip loading, which will increase the mechanical demand on the joint. People with knee osteoarthritis who adopt a modified foot progression angle (FPA) during gait often benefit from a reduction in the knee adduction moment. Teaching Experience ME 491 (Aut, Win, Spr, Sum) Research Rotation ME 398 (Aut, Win, Spr, Sum) Medical Scholars Research BIOMEDIN 370 (Win, Spr).Honors Research ME 191H (Aut, Win, Spr, Sum).Experimental Investigation of Engineering Problems ME 392 (Aut, Win, Spr, Sum).Engineering Problems and Experimental Investigation ME 191 (Aut, Win, Spr, Sum).
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Software tools developed in his lab, including OpenSim and, have become the basis of an international collaboration involving thousands of students and scientists who exchange simulations of human movement. Scott is focused on developing technologies to advance movement science and human health. Delp is also the Director of the Restore Center, an NIH national center focused on measuring real world rehabilitation outcomes, and Director of the Mobilize Center, a NIH National Center of Excellence focused on Big Data and Mobile Health. He is the Founding Chairman of the Department of Bioengineering at Stanford, and Director of the Wu Tsai Human Performance Alliance at Stanford, a university-wide research initiative focused on discovering biological principles to optimize human performance and catalyze innovations in human health for all. Clark Professor of Bioengineering, Mechanical Engineering, and Orthopaedic Surgery at Stanford University.