1. Experimental evaluation of an elastic foundation model to predict contact pressures in knee replacements.
- Author
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Fregly BJ, Bei Y, and Sylvester ME
- Subjects
- Compressive Strength, Elasticity, Humans, Nonlinear Dynamics, Pressure, Reproducibility of Results, Sensitivity and Specificity, Surface Properties, Equipment Failure Analysis methods, Knee Joint physiopathology, Knee Joint surgery, Knee Prosthesis, Materials Testing methods, Models, Biological, Weight-Bearing
- Abstract
Computational wear prediction is an attractive concept for evaluating new total knee replacement designs prior to physical testing and implementation. An important hurdle to such technology is the lack of in vivo contact pressure predictions. To address this issue, this study evaluates a computationally efficient simulation approach that combines the advantages of rigid and deformable body modeling. The hybrid method uses rigid body dynamics to predict body positions and orientations and elastic foundation theory to predict contact pressures between general three-dimensional surfaces. To evaluate the method, we performed static pressure experiments with a commercial knee implant in neutral alignment using flexion angles of 0, 30, 60, and 90 degrees and loads of 750, 1500, 2250, and 3000N. Using manufacturer CAD geometry for the same implant, an elastic foundation model with linear or nonlinear polyethylene material properties was implemented within a commercial multibody dynamics software program. The model's ability to predict experimental peak and average contact pressures simultaneously was evaluated by performing dynamic simulations to find the static configuration. Both the linear and nonlinear material models predicted the average contact pressure data well, while only the linear material model could simultaneously predict the trends in the peak contact pressure data. This novel modeling approach is sufficiently fast and accurate to be used in design sensitivity and optimization studies of knee implant mechanics and ultimately wear.
- Published
- 2003
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