Abstract
This paper presents the experimental results of photoelasticity for determining the magnitude and distribution of stresses on the polyethylene insert of the knee prostheses designed for high/deep knee flexion. The prostheses used in our experiment were a conventional posterior stabiliser knee, Scorpio NRG (Non-Restricted Geometry, Stryker Co., USA) and CFK (Complete Flexion Knee, Japan Medical Material Co., Japan), which we have developed to enable the patient to make a complete knee flexion (i.e. seiza in Japanese). Prior to the photoelastic experiment, we had introduced the forces exerted on the knee joint during ascending from deep knee flexion. Here we took squatting as an example of deep knee flexion instead of seiza because ascending from seiza contains complex modalities. The introduced data in terms of knee angles and joint forces were applied to the photoelastic models. The results demonstrated that after the knee angle became larger than 90°, the shear stresses on the post and cam of NRG were higher than those on the ball and socket of CFK. We conclude that the design and the configuration of CFK is acceptable at deep knee flexion from a load-bearing viewpoint.
Highlights
The objective of this study is to determine the magnitude and distribution of stresses on the polyethylene insert of knee prostheses designed for high/deep knee flexion
A new type of knee prosthesis, designated CFK (Complete Flexion Knee, Japan Medical Material Co., Japan) (Lawi et al 2009), has been developed by our research group to address a better range of motion and durability so as to enable the patient to make a complete knee flexion, in which the maximum knee flexion angle reaches above 150◦
The mid-posterior area was selected mainly to assess the stress on the post at high/deep knee flexion, while the medial and lateral areas were selected to assess the stress on the femoral condylar articulating surface of the insert at low/middle knee flexion
Summary
The objective of this study is to determine the magnitude and distribution of stresses on the polyethylene insert of knee prostheses designed for high/deep knee flexion. Even for the Western people, attaining high/deep knee flexion [Figures 1(b) and 1(c)] is necessary when they do gardening, put on socks or clip their toenails. A new type of knee prosthesis, designated CFK (Complete Flexion Knee, Japan Medical Material Co., Japan) (Lawi et al 2009), has been developed by our research group to address a better range of motion and durability so as to enable the patient to make a complete knee flexion, in which the maximum knee flexion angle reaches above 150◦
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