![]() ![]() Moro-Oka TA, Hamai S, Miura H, Shimoto T, Higaki H, Fregly BJ, Iwamoto Y, Banks SA. A study of weight bearing and non-weight bearing knee kinematics using ‘interventional’ MRI. Tibio-femoral movement in the living knee. Johal P, Williams A, Wragg P, Hunt D, Gedroyc W. ![]() Tibiofemoral movement: full flexion in the living knee studied by MRI. Nakagawa S, Kadoya Y, Todo S, Kobayashi A, Sakamoto H, Freeman MAR, Yamano Y. Tibiofemoral movement: changes of axial rotation caused by forced rotation at the weight bearing knee studied by RSA. Dynamic activity dependence of in vivo normal knee kinematics. Moro-Oka T, Hamai S, Miura H, Shimoto T, Higaki H, Fregly BJ, Iwamoto Y, Banks SA. In vivo fluoroscopic analysis of the normal human knee. Accurate measurement of three-dimensional knee replacement kinematics using single-plane fluoroscopy. Difference between the epicondylar and cylindrical axis of the knee. Tibiofemoral movement 1: the shapes and relative movements of the femur and the tibia in the unloaded cadaver knee. A joint coordinate system for the clinical description of three-dimensional motions: application to the knee. Biomechanics as determined by analysis of the instant centers of motion. 703–63.įrankel VH, Burstein AH, Brooks DB. Die aktive flexion im unbelasteten Kniegelenk: Züricher Habil Schr. Translated by Maquet P and Furlong R Berlin etc: Sprin(Original Publication: Mechanik der menschlichen Gehwerkzeuge. Mechanics of the human walking apparatus. In the present chapter, the different approaches for knee kinematics investigation have been analyzed and described in the native joint, in knees with medial osteoarthritis and with unicompartmental arthroplasty. Differences have been reported relative to the kinematic behavior of the native, osteoarthritic, and implanted knee, in particular for what concern patterns of anterior-posterior displacement of the femoral condyles relative to the tibia and axial rotation. Different methods have been applied in order to study the functional kinematics of the human knee, taking into account how muscle activation, movement, and loading condition in different activities affect joint motion and bones’ relative positions. The importance of the insight in replaced-knee kinematics in loading and unloading conditions has been demonstrated with the relation between joint motion and postoperative knee functioning. Various theories as to how the tibia, the femur, and the patella articulate with respect to each other have developed as a result of researches involving cadavers and living subjects. The biomechanics of the human knee joint has been a subject of speculation since the past century. ![]()
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