Critical Examination of Methods to Determine Tibiofemoral Kinematics and Tibial Contact Kinematics Based on Analysis of Fluoroscopic Images

Author:

Hull Maury L.123

Affiliation:

1. Department of Biomedical Engineering, University of California Davis , Davis, CA 95616 ; , Davis, CA 95616 ; , Davis, CA 95616

2. Department of Mechanical Engineering, University of California Davis , Davis, CA 95616 ; , Davis, CA 95616 ; , Davis, CA 95616

3. Department of Orthopaedic Surgery, University of California Davis , Davis, CA 95616 ; , Davis, CA 95616 ; , Davis, CA 95616

Abstract

Abstract Goals of knee replacement surgery are to restore function and maximize implant longevity. To determine how well these goals are satisfied, tibial femoral kinematics and tibial contact kinematics are of interest. Tibiofemoral kinematics, which characterize function, is movement between the tibia and femur whereas tibial contact kinematics, which is relevant to implant wear, is movement of the location of contact by the femoral implant on the tibial articular surface. The purposes of this review article are to describe and critique relevant methods to guide correct implementation. For tibiofemoral kinematics, methods are categorized as those which determine (1) relative planar motions and (2) relative three-dimensional (3D) motions. Planar motions are determined by first finding anterior–posterior (A–P) positions of each femoral condyle relative to the tibia and tracking these positions during flexion. Of the lowest point (LP) and flexion facet center (FFC) methods, which are common, the lowest point method is preferred and the reasoning is explained. 3D motions are determined using the joint coordinate system (JCS) of Grood and Suntay. Previous applications of this JCS have resulted in motions which are largely in error due to “kinematic crosstalk.” Requirements for minimizing kinematic crosstalk are outlined followed by an example, which demonstrates the method for identifying a JCS that minimizes kinematic crosstalk. Although kinematic crosstalk can be minimized, the need for a JCS to determine 3D motions is questionable based on anatomical constraints, which limit varus–valgus rotation and compression–distraction translation. Methods for analyzing tibial contact kinematics are summarized and validation of methods discussed.

Publisher

ASME International

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