Authors have been using kinematic computer navigation for a total knee replacement surgery since 2003. A contribution and advantage of computer navigation is well recognized. Exact guidance of both tibial and femoral osteotomy along with precise soft tissue balance respecting individual anatomic constitution is achieved by exact collection and computer evaluation of data by a use of special sensors and probes. Use of kinematic navigation in experienced hands minimizes deviation from physiological mechanical Mikulicz axis. This is considered the most important step to achieve a good long term outcome after total knee arthroplasty. We have been recently using Brain Lab kinematic navigation system in both primary and revision knee arthroplasties. 200 primary and 20 revision knee arthroplasties are included in the retrospective 3 year follow up study. A navigated revision surgery is recently performed only in cases where the axial deformity does not exceed 10 degrees and where no significant bone loss is presented (bone defects less that ½ cm). Standard cemented components are used in both primary and revision cases. A primary navigated knee arthroplasty had no exclusion criteria in the above study.
No need for conversion to a revision knee system using stem and wedges was noticed in the above series. Following the above inclusion criteria standard cemented implants were used only. We conclude that the use of navigation in cases of relatively uncomplicated knee revision arthroplasty guaranties good mid term outcome, good soft tissue balance, saves money on expensive knee revision systems and guaranties an alternative of second stage revision surgery with a use of extensive revision systems. Standard implant selection does not apply for those with deep bone defects and axial deformation higher than 10 degrees.