Add to ORKGThe purposes of this study were to develop a cruciate-retaining total knee arthroplasty musculoskeletal model, which enables the adjustment of ligament length and implant alignment; validate the model; and evaluate the effects of varus/valgus alignment adjustment and unbalanced medial/lateral ligament laxity during gait. A cruciate-retaining total knee arthroplasty musculoskeletal model was constructed and validated against the in vivo contact forces. This model was transformed to 2 degrees varus/valgus alignment of femoral or tibial replacement models and 2 degrees medial/lateral laxity models. The contact forces and ligament tensions of the adjusted models were calculated. The contact forces in the model showed good agreement with the in ...
Recent advances in imaging technology and additive manufacturing have led to the introduction of cus...
Soft-tissue balancing for total knee arthroplasty (TKA) remains subjective and highly dependent on s...
Posterolateral corner (PLC) structures of the knee joint comprise complex anatomical soft tissues th...
Introduction Musculoskeletal models are emerging as potential tools for the use in many clinical app...
Initial stability of the knee joint is essential if long-term survivorship is to be achieved. At the...
BACKGROUND: Deviations in knee joint geometry and alignment were previously related to an increased ...
Kinematic alignment (KA), which co-aligns the rotational axes of the components with three kinematic...
Valgus or varus malpositioning of the tibial component of a total knee implant may cause increased p...
Introduction: Balanced soft tissues are important to total knee arthroplasty (TKA) outcomes. Surgica...
Purpose: The aims of this study were to investigate the biomechanical effects of the deficiency of t...
Objective Unicompartmental knee arthroplasty (UKA) has indicated a higher rate of revision than tota...
Background: Lateral compartmental osteoarthritis (LCOA), a major complication after medial mobile-be...
BACKGROUND: Medial unicompartmental tibial components are not always positioned following neutral me...
Background Medial unicompartmental tibial components are not always positioned following neutral mec...
Modeling complex knee biomechanics is a continual challenge, which has resulted in many models of va...
Recent advances in imaging technology and additive manufacturing have led to the introduction of cus...
Soft-tissue balancing for total knee arthroplasty (TKA) remains subjective and highly dependent on s...
Posterolateral corner (PLC) structures of the knee joint comprise complex anatomical soft tissues th...
Introduction Musculoskeletal models are emerging as potential tools for the use in many clinical app...
Initial stability of the knee joint is essential if long-term survivorship is to be achieved. At the...
BACKGROUND: Deviations in knee joint geometry and alignment were previously related to an increased ...
Kinematic alignment (KA), which co-aligns the rotational axes of the components with three kinematic...
Valgus or varus malpositioning of the tibial component of a total knee implant may cause increased p...
Introduction: Balanced soft tissues are important to total knee arthroplasty (TKA) outcomes. Surgica...
Purpose: The aims of this study were to investigate the biomechanical effects of the deficiency of t...
Objective Unicompartmental knee arthroplasty (UKA) has indicated a higher rate of revision than tota...
Background: Lateral compartmental osteoarthritis (LCOA), a major complication after medial mobile-be...
BACKGROUND: Medial unicompartmental tibial components are not always positioned following neutral me...
Background Medial unicompartmental tibial components are not always positioned following neutral mec...
Modeling complex knee biomechanics is a continual challenge, which has resulted in many models of va...
Recent advances in imaging technology and additive manufacturing have led to the introduction of cus...
Soft-tissue balancing for total knee arthroplasty (TKA) remains subjective and highly dependent on s...
Posterolateral corner (PLC) structures of the knee joint comprise complex anatomical soft tissues th...