Total Knee Arthroplasty Clinical Trial
Official title:
Influence of Patellar Geometry on Kinematics, Quadriceps Function, and Patient Outcome in Subjects With the Attune PS RP
The overall purpose is to compare the kinematics and mechanics of medialized dome and
anatomic resurfacing through measurement and simulation, and to correlate these findings with
patient satisfaction and performance.
Aim 1: Comparison of patellofemoral kinematics between dome and anatomic implant designs
using stereo radiography and correlation with patient function as measured by Knee injury and
Osteoarthritis Outcome score, Knee Society score, and strength.
Hypothesis: the anatomic patellar implant will have significantly greater sagittal flexion
than the dome implant.
Aim 2: Comparison of dome and anatomic moment arm, quadriceps efficiency, patellar contact
mechanics and loading through the use of subject-specific simulation.
Hypothesis: quadriceps efficiency and moment arm will be greater for the anatomic patellar
implant, while loading between the patellar and femoral components will be reduced.
Successful function and outcome following total knee arthroplasty (TKA) is partly determined
by the restoration of patellofemoral (PF) function and recovery of the quadriceps mechanism
of the knee. Patients with TKA often exhibit adaptations in their movement patterns during
functional activity that have been attributed to quadriceps strength reduction and activation
deficits that may be linked to the mechanics of the reconstructed knee. Changes in the
articular geometry with patella resurfacing also affect patellofemoral kinematics, contact
mechanics and loading on the patellar bone. While movement adaptations persist in patients
with TKA long after knee repair, measurement of the 6 degree-of-freedom (DOF) kinematics of
the patellofemoral joint are difficult with traditional motion capture methods. High-speed
stereo radiography (HSSR), an advancement of biplane fluoroscopy, enables measurement of bone
and implant motion during activity with sub-mm accuracy. The ability to measure and model the
kinematics of the knee with this precision can improve understanding of implanted knee
mechanics. What's more, acquiring HSSR in synchrony with whole-body measurements (body
segment video motion capture, muscle electromyography (EMG), and ground forces) establishes
connections between joint-level and whole-body function, and enables creation of
subject-specific models of the knee and lower extremity. Integration with modeling is
important because it reveals the biomechanical consequences of differences in patellofemoral
kinematics.
Previous measurement and modeling comparisons of PF kinematics between dome and anatomic
resurfacing designs have revealed differences in patellar sagittal plane flexion that have
implications for quadriceps efficiency and patient satisfaction. Quadriceps efficiency is a
measure of the effective moment arm of the quadriceps muscles; greater efficiency allows the
quadriceps to produce knee extensor torque with less force. Patellar flexion can alter
quadriceps efficiency by changing the moment arm of the patellar tendon and the way the
patella transmits quadriceps force due to changes in patellofemoral contact. Patient
satisfaction may be affected by changes in quadriceps efficiency through increased extensor
mechanism strain and changes in load transfer that may be linked to anterior knee pain. While
HSSR measurements can elucidate differences in dome and anatomic kinematics, computational
modeling is required to determine how kinematic differences affect joint and muscle forces
and overall limb functionality.
Aim 1: Comparison of patellofemoral kinematics between dome and anatomic implant designs
using stereo radiography and correlation with patient function as measured by Knee injury and
Osteoarthritis Outcome score, Knee Society score, and strength. Laboratory measurements will
be collected from 22 TKA patients with medialized dome and 22 TKA patients with medialized
anatomic patellae. Equal numbers of men and women will be recruited for the study. The angle
of the patellar component relative to the femoral component will be measured and compared to
reported values in healthy subjects. Correlations will be made with patient outcome scores.
Aim 2: Comparison of dome and anatomic moment arm, quadriceps efficiency, patellar contact
mechanics and loading through the use of subject-specific simulation. Moment arm will be
measured in millimeters as the distance from the patellar tendon to the knee joint center of
rotation, and compared to values reported for the healthy knee. Quadriceps efficiency will be
calculated as the ratio of quadriceps force to patellar tendon force. Patellar contact
mechanics are defined as the force and location of force between the patellar and femoral
components.
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