High tibial osteotomy (HTO) is a commonly used surgical technique for treating moderate osteoarthritis (OA) of the medial compartment of the knee by shifting the center of force towards the lateral compartment. The amount of alignment correction to be performed is usually calculated prior to surgery and it's based on the patient's lower limb alignment using long-leg radiographs. While the procedure is generally effective at relieving symptoms, an accurate estimation of change in intraarticular contact pressures and contact surface area has not been developed. Using electromyography (EMG), Meyer et al. attempted to predict intraarticular contact pressures during gait patterns in a patient who had received a cruciate retaining force-measuring tibial prosthesis. Lundberg et al. used data from the Third Grand Challenge Competition to improve contact force predictions in total knee replacement. Mina et al. performed high tibial osteotomy on eight human cadaveric knees with osteochondral defects in the medial compartment. They determined that complete unloading of the medial compartment occurred at between 6° and 10° of valgus, and that contact pressure was similarly distributed between the medial and lateral compartments at alignments of 0° to 4° of valgus. In the current study, we hypothesised that it would be possible to predict the change in intra-articular pressures based on extra-articular data acquisition. Seven cadavers underwent an HTO procedure with sequential 5º valgus realignment of the leg up to 15º of correction. A previously developed stainless-steel device with integrated load cell was used to axially load the leg. Pressure-sensitive sensors were used to measure intra-articular contact pressures. Intraoperative changes in alignment were monitored in real time using computer navigation. An axial loading force was applied to the leg in the caudal-craneal direction and gradually ramped up from 0 to 550 N. Intra-articular contact pressure (kg) and contact area (mm2) data were collected. Generalised linear models were constructed to estimate the change in contact pressure based on extra-articular force and alignment data.Introduction
Methods
Knee arthrodesis is a potential salvage procedure
for limb preservation after failure of total knee arthroplasty (TKA) due
to infection. In this study, we evaluated the outcome of single-stage
knee arthrodesis using an intramedullary cemented coupled nail without
bone-on-bone fusion after failed and infected TKA with extensor
mechanism deficiency. Between 2002 and 2012, 27 patients (ten female,
17 male; mean age 68.8 years; 52 to 87) were treated with septic
single-stage exchange. Mean follow-up duration was 67.1months (24
to 143, n = 27) (minimum follow-up 24 months) and for patients with
a minimum follow-up of five years 104.9 (65 to 143,; n = 13). A
subjective patient evaluation (Short Form (SF)-36) was obtained,
in addition to the Visual Analogue Scale (VAS). The mean VAS score was
1.44 (SD 1.48). At final follow-up, four patients had recurrent
infections after arthrodesis (14.8%). Of these, three patients were
treated with a one-stage arthrodesis nail exchange; one of the three
patients had an aseptic loosening with a third single-stage exchange,
and one patient underwent knee amputation for uncontrolled sepsis at
108 months. All patients, including the amputee, indicated that
they would choose arthrodesis again. Data indicate that a single-stage
knee arthrodesis offers an acceptable salvage procedure after failed
and infected TKA. Cite this article: