A knee model in the sagittal plane is established in this study. Specifically, the model is used to study the effects of inertia, articular surfaces of the knee joint, and patella on the behaviors of a knee joint. These behaviors include the joint surface contact point, ligament forces, instantaneous center and slide/roll ratio between the femur and tibia. Model results are compared to experimental cadaver studies available in the literature, as well as between the quasistatic and dynamic models. We found that inertia increases the sliding tendency in the latter part of flexion, and lengthens the cruciate ligaments. Decreasing the curvature of the femur surface geometry tends to reduce the ligament forces and moves the contact points toward...
Obtaining tibio-femoral (TF) contact forces, ligament deformations and loads during daily life motor...
Three-dimensional mathematical models of the tibio-femoral joint require input of the geometry of ar...
This paper represents a short summary of the human knee joint modeling. The Biomechanical Team of th...
The aim of this study is to define a new kinetostatic model of the knee, in order to analyze the joi...
Separating the study of kinematic geometry of the human knee from the study of its behaviour under l...
The development of a good quantitative concept, a model of passive human knee-joint behavior is the ...
Considers the freedom of motion characteristics of the human knee joints. The problem is defined and...
A musculoskeletal model was developed to analyze the tensions of the knee joint ligaments during wal...
The management of knee instability is a complex problem in orthopedic surgery. To comprehensively as...
The purpose of this work is to develop a mathematical model for the knee joint under the framework o...
In virtually unloaded conditions, the tibiofemoral (knee) and tibiotalar (ankle) joints behave as si...
The main purpose of this work was to study how the contact model influences the dynamic response of ...
The aim of this work is to develop a dynamic model for the biological human knee joint. The model is...
Recent literature in biomechanics has demonstrated that motion of the human knee joint in virtually ...
The modeling approach is the only possible way to estimate the biomechanic function of the different...
Obtaining tibio-femoral (TF) contact forces, ligament deformations and loads during daily life motor...
Three-dimensional mathematical models of the tibio-femoral joint require input of the geometry of ar...
This paper represents a short summary of the human knee joint modeling. The Biomechanical Team of th...
The aim of this study is to define a new kinetostatic model of the knee, in order to analyze the joi...
Separating the study of kinematic geometry of the human knee from the study of its behaviour under l...
The development of a good quantitative concept, a model of passive human knee-joint behavior is the ...
Considers the freedom of motion characteristics of the human knee joints. The problem is defined and...
A musculoskeletal model was developed to analyze the tensions of the knee joint ligaments during wal...
The management of knee instability is a complex problem in orthopedic surgery. To comprehensively as...
The purpose of this work is to develop a mathematical model for the knee joint under the framework o...
In virtually unloaded conditions, the tibiofemoral (knee) and tibiotalar (ankle) joints behave as si...
The main purpose of this work was to study how the contact model influences the dynamic response of ...
The aim of this work is to develop a dynamic model for the biological human knee joint. The model is...
Recent literature in biomechanics has demonstrated that motion of the human knee joint in virtually ...
The modeling approach is the only possible way to estimate the biomechanic function of the different...
Obtaining tibio-femoral (TF) contact forces, ligament deformations and loads during daily life motor...
Three-dimensional mathematical models of the tibio-femoral joint require input of the geometry of ar...
This paper represents a short summary of the human knee joint modeling. The Biomechanical Team of th...