Mobile-bearing knee prostheses have been designed in order to provide less constrained knee kinematics compared to fixed-bearing prosthesis. Currently, there is no evidence to confirm the superiority of either of the two implants with regard to walking performances. It has been shown that subjective outcome scores correlate poorly with real walking performance and it has been recommended to obtain an additional assessment of walking ability with objective gait analysis. We assessed recovery after total knee arthroplasty (TKA) with mobile- and fixed-bearing between patients during the first postoperative year, and at 5 years follow-up, using a new objective method to measure gait parameters in real life conditions.INTRODUCTION
OBJECTIVES
The FIRST knee prosthesis (Free Insert in Rotation Stabilized in Translation, Symbios SA) is a new ultra congruent, postero-stabilized total knee arthroplasty (TKA) with a mobile bearing expected to reduce significantly polyethylene wear, to improve the range of motion and the overall stability of the knee while ensuring a physiological ligament balance. We compared subjective and really objective results of this new TKA with two other widespread models of TKA. A clinical prospective monocentric cohort study of 100 consecutive patients (47–88 yrs) undergoing a FIRST TKA for primary osteoarthritis is currently being done. Pre- and post-operative follow-ups (6 weeks, 4,5 months and 1 year) are done with well-recognized subjective evaluations (EQ-5D and WOMAC scores) and semi-objective questionnaires (KSS score and radiography evaluation) as well as with a really objective evaluation using gait parameters from 6 walking trials, performed at different speeds with an ambulatory in field gait analysis system (Physilog®, BioAGM CH). The outcomes after one year of follow-up of 32 FIRST TKA are compared to 29 NexGen® postero-stabilized TKA (Zimmer Inc) with a fixed bearing and to 26 NexGen® TKA with a mobile bearing using the same methods. The gait cycle time of the FIRST TKA was statistically significantly shorter at normal speed of walk, as well as double-support periods, as compared to both standard models. The normal walking speed was significantly higher with faster swing speed and stride lengths for the new TKA. Significantly better coordination scores were observed at normal walking speed for the FIRST TKA as compared to the fixed-bearing TKAs. The FIRST TKA showed statistically significantly better really objective outcomes in terms of gait after one year of follow-up and similar subjective and semi-objective evaluations compared to two widespread TKA designs.