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The effect of femoral component malrotation on patellar biomechanics.

Authors :
Kessler O
Patil S
Colwell CW Jr
D'Lima DD
Source :
Journal of biomechanics [J Biomech] 2008 Dec 05; Vol. 41 (16), pp. 3332-9. Date of Electronic Publication: 2008 Nov 18.
Publication Year :
2008

Abstract

Patellofemoral complications are among the important reasons for revision knee arthroplasty. Femoral component malposition has been implicated in patellofemoral maltracking, which is associated with anterior knee pain, subluxation, fracture, wear, and aseptic loosening. Rotating-platform mobile bearings compensate for malrotation between the tibial and femoral components and may, therefore, reduce any associated patellofemoral maltracking. To test this hypothesis, we developed a dynamic model of quadriceps-driven open-kinetic-chain extension in a knee implanted with arthroplasty components. The model was validated using tibiofemoral and patellofemoral kinematics and forces measured in cadaver knees. Knee kinematics and patellofemoral forces were measured after simulating malrotation (+/-3 degrees ) of the femoral component. Rotational alignment of the femoral component affected tibial rotation near full extension and tibial adduction at higher flexion angles. External rotation of the femoral component increased patellofemoral lateral tilt, lateral shift, and lateral shear forces. Up to 21 degrees of bearing rotation relative to the tibia was noted in the rotating-bearing condition. However, the rotating bearing had minimal effect in reducing the patellofemoral maltracking or shear induced by femoral component rotation. The rotating platform does not appear to be forgiving of malalignment of the extensor mechanism resulting from femoral component malrotation. These results support the value of improving existing methodologies for accurate femoral component alignment in total knee arthroplasty.

Details

Language :
English
ISSN :
0021-9290
Volume :
41
Issue :
16
Database :
MEDLINE
Journal :
Journal of biomechanics
Publication Type :
Academic Journal
Accession number :
19019376
Full Text :
https://doi.org/10.1016/j.jbiomech.2008.09.032