Kinematic Analysis of a PS, FB Primary Total Knee Arthroplasty (ATTUNE Knee System) Using Dynamic RSA (Attune-RSA)

The main goal of this study is to investigate the effect of a new implant design on the postoperative active knee kinematics on mid-flexion instability of the joint. Data will be collected during the surgery with a Computer Assisted Surgery system and in the post operative follow up phase using the dynamic RSA focusing. A prospective study will be performed on a new implant: the DePuy ATTUNETM fixed-bearing (FB) posterior-stabilized (PS) knee prosthesis.

Kinematic tests will be performed to analyze femoral rotation patterns and translation patterns of the medial and femoral condyle respect to the tibial plateau during different daily life motor tasks.

Despite reportedly good implant survival rates, not all patients are fully satisfied after total knee arthroplasty (TKA). One of the most debated topics in TKA is the effectiveness of the prosthesis to reproduce physiological kinematics at the replaced knee, usually expressed in terms of patterns of joint rotation in the three anatomical planes, of the functional axis, and of the tibio-femoral contact points on the medial and lateral condyles, that is, femoral roll-back.

Implant design can influence final kinematic results. The mid-flexion instability may be the cause of joint instability, paradoxical femoral rollback, surgical variation.

Recently an improved implant design of fixed bearing PS DePuy implant has been anticipated to early users. This implant has been claimed to reduce midflexion instability and improve joint kinematics, because of a particular multiradius shape of the condylar surface.

For intra-operative kinematic acquisition, a commercial navigation system (BLUIGS, Orthokey Italia srl, Firenze, Italy) with a dedicated software for kinematic tests will be used.

In the present study, the investigators will use a postoperative bi-planar imaging method in weight-bearing motor tasks with active muscle contraction , to determine the in vivo contact areas on the tibial articulating surface of a PS TKA during flexion of the knee.

The objective of the present study is to determine the contact areas and their movement through a 0-140° arc of motion in both the anteroposterior (AP) and ML directions. The cohort will also be compared with data of normal knee kinematics, as reported in current literature.

At 6 months follow-up, dynamic fluoroscopy will be used to analyze implant kinematics (i.e. stair descent, level-walking and non weight-bearing maximum knee flexion) and a simultaneous, real-time collection of ground reaction forces with a force platform will be performed. Clinical scores will be collected at that time and compared with all the data registered before surgery and during the follow up routinely made at 1 and 3 months after surgery.

A specifically developed device installed at the Rizzoli Orthopaedic Institute will be used to assess the kinematic of the knee at 9 months after surgery. This equipment is unique worldwide: it was specifically designed, built and certified for dynamic and static RSA evaluation of TKA. The purpose of this study is to investigate the effect of a new implant design on the post-operative active knee kinematics, focusing on mid-flexion instability of the joint. A prospective randomized study will be performed on a new implant: the DePuy ATTUNETM fixed-bearing (FB) posterior-stabilized (PS) knee prosthesis.