Clinical Correlation of TKA Alignment and Native Knee Anatomy
- Conditions
- Total Knee Arthroplasty (TKA)
- Interventions
- Radiation: 3D-reconstruction CT
- Registration Number
- NCT05435092
- Lead Sponsor
- University Hospital, Basel, Switzerland
- Brief Summary
Total knee arthroplasty (TKA) is still considered the treatment of choice for painful osteoarthritis. In the last decades neutral mechanical knee alignment in the coronal plane has been considered the gold standard. However, the optimal TKA alignment is still debated. Today, component rotation measurements on three-dimensional (3D) reconstructed computed tomography (CT) images are considered the gold standard for assessing native preoperative alignment and TKA component position. In this study pre-and postoperative radiographic measurements, functional scores, and biomechanical parameters of patients with knee osteoarthritis will be assessed with the aim to investigate the relationship between deviations of TKA alignment from native preoperative alignment and clinical, functional and biomechanical alignment.
- Detailed Description
Total knee arthroplasty (TKA) is still considered the treatment of choice for painful osteoarthritis resulting in pain and functional improvement. Despite the development of novel prosthetic design and improved outcome, about 20% of patients report persisting pain interfering with their daily activities.Total knee prostheses are aligned in the coronal, sagittal and axial planes during implantation. In the last decades, neutral mechanical knee alignment in the coronal plane has been considered the gold standard. The aim of mechanical alignment in TKA is to achieve a femorotibial joint line that is perpendicular to the mechanical axis of the long leg axis hence correcting any varus-valgus deformity via prosthesis placement with the goal of equally distributing the load between the medial and lateral prosthesis component. However, the optimal TKA alignment is still debated. Traditionally, knee alignment and total knee arthroplasty component position have been assessed using radiographs. However, this method has a low accuracy and reliability because of variation in limb rotation, knee extension deficit, patient positioning, or magnification factors. Component rotation measurements on three-dimensional (3D) reconstructed computed tomography (CT) images have replaced former methods and are now considered the gold standard for assessing native preoperative alignment and TKA component position. In this study pre-and postoperative radiographic measurements, functional scores, and biomechanical parameters of patients with knee osteoarthritis will be assessed with the aim to investigate the relationship between deviations of TKA alignment from native preoperative alignment and clinical, functional and biomechanical alignment.
Recruitment & Eligibility
- Status
- ACTIVE_NOT_RECRUITING
- Sex
- All
- Target Recruitment
- 75
- Age > 18 years
- Diagnosed osteoarthritis of the knee
- Planned primary total knee arthroplasty (cruciate retaining (CR) or posterior stabilizing (PS) designs)
- Inability to provide informed consent
- Inability to communicate in German, French, Italian or English
- Any previous ipsilateral bony knee procedure prior to TKA
- Planned partial knee arthroplasty, semi- or full-constrained knee prosthesis
- Patients unlikely to attend clinical follow-up (e.g., when living abroad)
- Pregnancy
- Female participants of childbearing potential, not using a medically reliable method of contraception, who do not wish to undergo a pregnancy test prior to exposure to i ionizing radiation
Study & Design
- Study Type
- OBSERVATIONAL
- Study Design
- Not specified
- Arm && Interventions
Group Intervention Description Patients scheduled for primary TKA 3D-reconstruction CT Adult Patients diagnosed with osteoarthritis of the knee and who are scheduled for a primary total knee arthroplasty
- Primary Outcome Measures
Name Time Method Deviation of TKA alignment from preoperative native knee alignment in the coronal plane 3 months Primary radiographic endpoints to assess alignment deviations in the coronal plane:
1. Whole limb mechanical axis (hip-knee-ankle (HKA) angle, preoperative)
2. Native femoral varus/valgus alignment (preoperative)
3. Native tibial varus/valgus alignment (preoperative)
4. Femoral component varus/valgus alignment
5. Tibial component varus/valgus alignment
- Secondary Outcome Measures
Name Time Method Evaluation of the Sagittal alignment 3 months Evaluation of the
* Flexion/extension alignment of the femur (preoperative)
* Native tibial posterior slope (preoperative)
* Flexion/extension alignment of the femoral component
* Tibial component posterior slopeEvaluation of the Axial alignment 3 months Evaluation of the
* Native femoral rotation (preoperative)
* Native tibial rotation (preoperative)
* Rotation of the femoral component
* Rotation of the tibial component
* Component mismatch rotationAssessment of Clinical, functional and biomechanical parameters 2 years Functional scores:
* Oxford Knee Score (OKS)
* Knee Osteoarthritis Outcome Score (KOOS)
* KSS (Knee Society Score)
* NPRS (numeric pain rating scale)
* EQ-5D-5L
Biomechanical parameters:
* Spatiotemporal parameters: walking speed, cadence, stride length, stride duration
* Sagittal plane kinematic parameters: difference in dynamic knee flexion range of motion stance, dynamic knee flexion range of motion gait cycle and dynamic hip flexion range of motion stance between affected and unaffected leg
* Ambulatory joint mechanics parameters: differences in 3-dimensional joint moments and medial and lateral compartment contact forces, tibia rotation, tibia translation and muscle activation patterns
* Muscle strength: Differences in isokinetic muscle strength in knee flexion and knee extension
Local adverse events: persistent or worsening pain; infection; any local event
Trial Locations
- Locations (1)
University Hospital Basel
🇨🇭Basel, Basel Stadt, Switzerland