Abstract
BackgroundAchieving proper rotational alignment of the femoral component in total knee arthroplasty (TKA) for valgus knee is challenging because of lateral condylar hypoplasia and lateral cartilage erosion. Gap-based navigation-assisted TKA enables surgeons to determine the angle of femoral component rotation (FCR) based on the posterior condylar axis. This study evaluated the possible factors that affect the rotational alignment of the femoral component based on the posterior condylar axis.Materials and methodsBetween 2008 and 2016, 28 knees were enrolled. The dependent variable for this study was FCR based on the posterior condylar axis, which was obtained from the navigation system archives. Multiple regression analysis was conducted to identify factors that might predict FCR, including body mass index (BMI), Kellgren-Lawrence grade (K-L grade), lateral distal femoral angles obtained from the navigation system and radiographs (NaviLDFA, XrayLDFA), hip-knee-ankle (HKA) axis, lateral gap under varus stress (LGVS), medial gap under valgus stress (MGVS), and side-to-side difference (STSD, MGVS − LGVS).ResultsThe mean FCR was 6.1° ± 2.0°. Of all the potentially predictive factors evaluated in this study, only NaviLDFA (β = −0.668) and XrayLDFA (β = −0.714) predicted significantly FCR.ConclusionsThe LDFAs, as determined using radiographs and the navigation system, were both predictive of the rotational alignment of the femoral component based on the posterior condylar axis in gap-based TKA for valgus knee. A 1° increment with NaviLDFA led to a 0.668° decrement in FCR, and a 1° increment with XrayLDFA led to a 0.714° decrement. This suggests that symmetrical lateral condylar hypoplasia of the posterior and distal side occurs in lateral compartment end-stage osteoarthritis with valgus deformity.
Highlights
Valgus knee deformity has several challenges, including lateral condylar hypoplasia, lateral cartilage erosion, and tightening of the lateral structures
Multiple regression analysis was conducted to identify factors that might predict femoral component rotation (FCR), including body mass index (BMI), Kellgren-Lawrence grade (K-L grade), lateral distal femoral angles obtained from the navigation system and radiographs (NaviLDFA, XrayLDFA), hip-knee-ankle (HKA) axis, lateral gap under varus stress (LGVS), medial gap under valgus stress (MGVS), and side-to-side difference (STSD, MGVS − LGVS)
Of all the potentially predictive factors evaluated in this study, only NaviLDFA (β = −0.668) and XrayLDFA (β = −0.714) predicted significantly FCR
Summary
Valgus knee deformity has several challenges, including lateral condylar hypoplasia, lateral cartilage erosion, and tightening of the lateral structures (lateral collateral ligament, posterolateral capsule, popliteus tendon, and iliotibial band). For these reasons, total knee arthroplasty (TKA) for valgus knee deformity is challenging [1, 2]. Use of a gap technique-based navigation system allows surgeons to quantify femoral component rotation based on the posterior condylar axis (Fig 1) [4, 5]. Achieving proper rotational alignment of the femoral component in total knee arthroplasty (TKA) for valgus knee is challenging because of lateral condylar hypoplasia and lateral cartilage erosion. This study evaluated the possible factors that affect the rotational alignment of the femoral component based on the posterior condylar axis
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