Journal of biomechanics
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Journal of biomechanics · Jun 2012
Effect of subtalar arthroereisis on the tibiotalar contact characteristics in a cadaveric flatfoot model.
Previous studies reported the effect of flatfoot deformity on tibiotalar joint contact characteristics. The lateral shift of the load which occurred in flatfeet may be responsible for degenerative changes in the ankle joint. The purpose was to assess the pattern of joint contact stress of the tibiotalar joint in intact, flat, and corrected specimens with subtalar arthroereisis. ⋯ After subtalar arthroereisis with the Kalix implant for correction of the flatfoot deformity a maximum contact pressure of 1323.3±497.5 kPa was observed in the middle-lateral region. In a cadaver model, subtalar arthroereisis with Kalix implant failed to restore a normal intraarticular ankle joint pressure pattern. Further interventions should be considered to restore a normal pressure pattern.
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Journal of biomechanics · Jun 2012
Mechanical interaction of center of pressure and force direction in the upright human.
Humans maintain upright bipedal posture by producing appropriate force against the environment through the interaction of neural controlled muscle force with the mechanics of the skeletal system. Characterizing these mechanics facilitates understanding of the neural control. We used a mechanical model of an upright human to analyze how the mechanical linkage aspects of the human body affect the force between the feet and the ground (F). ⋯ The Π was located above the center of mass when the hip and knee joints were modeled as rigid and was located near the knee when the hip and knee torques were held constant. Limb posture and the knee torque affected the location of Π. This Π behavior quantifies the purely mechanical effect of anterior-posterior center of pressure shifts on the direction of F, which has consequences for the control of whole body posture.