Add to ORKGPosterior drawer forces of up to 400 N. Design. A nonlinear three-dimensional finite element model of the entire human tibiofemoral joint consisting of bony structures, their articular cartilage layers, menisci, and four principal ligaments was utilized. Background. The mechanics of the knee joint, specially under drawer forces, have extensively been investigated. Despite all these works, the detailed joint biomechanics, specially the role of boundary conditions, load transmission through menisci/ articular cartilage layers, and coupling between menisci and cruciate ligaments are not yet quantified. Method. Nonlinear elastostatic analyses were carried out considering the tibiofemoral joint at full extension under anterior and posterior load...
Poster P4238 presented at the 8th World Congress of BiomechanicsA three-dimensional FE model of a kn...
The meniscus, composed of fibrocartilage, is a very important part of the human knee joint that beha...
Meniscal root attachments function to anchor the menisci to the tibia and prevent meniscal extrusion...
Posterior drawer forces of up to 400 N. Design. A nonlinear three-dimensional finite element model o...
Objective. The overall response, load transmission, role of ligaments, and state of stress in variou...
Abstract—Studying the mechanics of the knee joint has direct implications in understanding the state...
As a step towards developing a finite element model of the knee that can be used to study how the va...
Evaluation of the biomechanical interaction between meniscus and cartilage in medial compartment kne...
along with a finite element package program were used to investigate the non-linear elastostatic res...
In this study, the load bearing function was analyzed in both the standing posture and low-flexion u...
A finite element model of the tibio-femoral joint in thehuman knee was created using a new technique...
Articular cartilage covers the articulating ends of diarthrodial joints. It plays a vital role in th...
With a finite element model a parameter study on an axisymmetric model of the knee joint is performe...
Partial posterior cruciate ligament (PCL) injuries often occur in athletes: however, limited informa...
The aim of the present study was to estimate biomechanical weakening of human knee joint assuming th...
Poster P4238 presented at the 8th World Congress of BiomechanicsA three-dimensional FE model of a kn...
The meniscus, composed of fibrocartilage, is a very important part of the human knee joint that beha...
Meniscal root attachments function to anchor the menisci to the tibia and prevent meniscal extrusion...
Posterior drawer forces of up to 400 N. Design. A nonlinear three-dimensional finite element model o...
Objective. The overall response, load transmission, role of ligaments, and state of stress in variou...
Abstract—Studying the mechanics of the knee joint has direct implications in understanding the state...
As a step towards developing a finite element model of the knee that can be used to study how the va...
Evaluation of the biomechanical interaction between meniscus and cartilage in medial compartment kne...
along with a finite element package program were used to investigate the non-linear elastostatic res...
In this study, the load bearing function was analyzed in both the standing posture and low-flexion u...
A finite element model of the tibio-femoral joint in thehuman knee was created using a new technique...
Articular cartilage covers the articulating ends of diarthrodial joints. It plays a vital role in th...
With a finite element model a parameter study on an axisymmetric model of the knee joint is performe...
Partial posterior cruciate ligament (PCL) injuries often occur in athletes: however, limited informa...
The aim of the present study was to estimate biomechanical weakening of human knee joint assuming th...
Poster P4238 presented at the 8th World Congress of BiomechanicsA three-dimensional FE model of a kn...
The meniscus, composed of fibrocartilage, is a very important part of the human knee joint that beha...
Meniscal root attachments function to anchor the menisci to the tibia and prevent meniscal extrusion...