Equivalent spatial mechanisms already proved to replicate the passive motion of the knee, i.e. the relative motion of the femur and tibia in virtually unloaded conditions, with a high accuracy. These models are defined by a direct representation of the anatomical structures that, according to experimental evidence, guide the passive motion, namely the articular surfaces and the isometric ligaments (anterior cruciate, posterior cruciate and medial collateral ligaments). This paper is addressed to understand the role that the other ligaments of the knee have during passive motion. These ligaments do not contrast the passive motion, but at the same time it is quite improbable that they are all slack, since their main function (i.e. resisting e...
none3noThe study of the knee natural motion, namely the unresisted motion that the knee exhibits in ...
On the basis of earlier reported data on the in vitro kinematics of passive knee-joint motions of fo...
Separating the study of kinematic geometry of the human knee from the study of its behaviour under l...
Equivalent spatial mechanisms already proved to replicate the passive motion of the knee, i.e. the r...
Passive knee-joint motion and 'stability' characteristics depend on the interrelation between joint ...
Recent literature demonstrated that the three-dimensional motion of the human knee joint in virtuall...
Recent literature in biomechanics has demonstrated that motion of the human knee joint in virtually ...
none5In-depth comprehension of human joint function requires complex mathematical models, which are ...
In virtually unloaded conditions, the tibiofemoral (knee) and tibiotalar (ankle) joints behave as si...
The development of a mathematical model of the knee ligaments in the sagittal plane is presented. Es...
The role of the passive structures of the human knee in loaded and unloaded motion has been deeply i...
In this review, the methods and outcomes of cadaveric experiments that have measured anter...
Knowledge on how ligaments and articular surfaces guide passive motion at the human ankle joint comp...
none6noIn virtually unloaded conditions, the tibiofemoral (knee) and tibiotalar (ankle) joints behav...
In virtually unloaded conditions, the tibiofemoral (knee) and tibiotalar (ankle) joints behave as si...
none3noThe study of the knee natural motion, namely the unresisted motion that the knee exhibits in ...
On the basis of earlier reported data on the in vitro kinematics of passive knee-joint motions of fo...
Separating the study of kinematic geometry of the human knee from the study of its behaviour under l...
Equivalent spatial mechanisms already proved to replicate the passive motion of the knee, i.e. the r...
Passive knee-joint motion and 'stability' characteristics depend on the interrelation between joint ...
Recent literature demonstrated that the three-dimensional motion of the human knee joint in virtuall...
Recent literature in biomechanics has demonstrated that motion of the human knee joint in virtually ...
none5In-depth comprehension of human joint function requires complex mathematical models, which are ...
In virtually unloaded conditions, the tibiofemoral (knee) and tibiotalar (ankle) joints behave as si...
The development of a mathematical model of the knee ligaments in the sagittal plane is presented. Es...
The role of the passive structures of the human knee in loaded and unloaded motion has been deeply i...
In this review, the methods and outcomes of cadaveric experiments that have measured anter...
Knowledge on how ligaments and articular surfaces guide passive motion at the human ankle joint comp...
none6noIn virtually unloaded conditions, the tibiofemoral (knee) and tibiotalar (ankle) joints behav...
In virtually unloaded conditions, the tibiofemoral (knee) and tibiotalar (ankle) joints behave as si...
none3noThe study of the knee natural motion, namely the unresisted motion that the knee exhibits in ...
On the basis of earlier reported data on the in vitro kinematics of passive knee-joint motions of fo...
Separating the study of kinematic geometry of the human knee from the study of its behaviour under l...