External femoral rotation of 2 degrees is associated with the lowest stuffing rates around the femur in functionally aligned TKA.

PURPOSE: Modifying femoral morphology after total knee arthroplasty (TKA) poses a potential risk for ligament-imbalances and patella mal-tracking. The purpose of this study was primarily to quantify TKA-induced stuffing around the femur and secondarily assess the effect of femoral rotation (FR) on trochlear and condylar anatomy-changes. METHODS: Knee anatomy-modification was quantified in 69 robotic-assisted TKAs utilising tibia-based functional alignment (FA). Caliper-measurements were performed on the medial (Med), central (Ctr), and lateral (Lat) sides of the following resection planes: anterior trochlea (AT), oblique trochlea (OT), distal condyles (DC), posterior condyles (PC) and tibia (TIB). The same caliper-measurements were performed on the femoral components used to calculate bone-implant differences and analyse possible patterns of postoperative trochlear anatomy-modifications (TAM) and condylar anatomy-modifications (CAM). Over- or understuffing analysis for different FRs and regression analysis were conducted to assess the effect of FR on CAM and TAM. RESULTS: TAM results were Lat-AT -3.2 mm ([95% confidence interval [CI]: -3.71 to -2.63], p  2 mm in 60.9%, 39.1%, and 39.1%, respectively. CAM results were Med-DC -3.6 mm ([95%CI: -4.14 to -3.05], p  0.001) with stuffing > 2 mm in 78.3% and 63.8%. FR (3.8 ± 2.6°, range: -1.6° to 8.5°) affected mostly the anterior (r = -0.40, p  2 mm and ≥ 4 mm. CONCLUSIONS: FA-typical modification-pattern was a TAM with lateral facet understuffing, and CAM with medial distal understuffing and lateral posterior overstuffing. Trochlear groove height was non-significantly affected by FR. FA with the current off-the-shelf implant induces the lowest stuffing rates when set in 2° external femoral rotation. LEVEL OF EVIDENCE: Level II.