Biomechanical models of the knee joint allow the development of accurate procedures as well as novel devices to restore the joint natural motion. They are also used within musculoskeletal models to perform clinical gait analysis on patients. Among relevant knee models in the literature, the anatomy-based spatial parallel mechanisms represent the joint motion using rigid links for the ligaments' isometric fibres and point contacts for the articular surfaces. To customize analyses, therapies and devices, there is the need to define subject-specific models, but relevant procedures and their accuracy are still questioned. A procedure is here proposed and validated to define a customized knee model based on a spatial parallel mechanism. Computed...
peer reviewedToday neuromuscular simulations are used in sev- eral fields, such as diagnostics and p...
Human knee kinematics has been widely studied, but data collected so far is fragmented. In vivo data...
Three-dimensional mathematical models of the tibio-femoral joint require input of the geometry of ar...
Biomechanical models of the knee joint allow the development of accurate procedures as well as novel...
Kinematic models of the knee are useful for the applications aimed at replicating or restoring the n...
Kinematic models of the knee are useful for applications aimed at replicating or restoring the natu...
The knee is one of the most complex and studied joint of the musculoskeletal system provided its gre...
none4noThe capability to model human joint motion is a fundamental step towards the definition of ef...
Purpose: We aim to quantitatively characterise the knee joint function in vivo under body-weight-bea...
Subject-specific musculoskeletal (MSK) computer models can estimate muscle and joint articular force...
none3noOBJECTIVE: The knowledge of individual joint motion may help to understand the articular phys...
none7siMusculoskeletal models typically use generic 2D models for the tibiofemoral (TFJ) and patello...
Today neuromuscular simulations are used in several fields, such as diagnostics and planing of surge...
none3noThe capability to model human joint motion is a fundamental step towards the definition of e...
peer reviewedToday neuromuscular simulations are used in sev- eral fields, such as diagnostics and p...
Human knee kinematics has been widely studied, but data collected so far is fragmented. In vivo data...
Three-dimensional mathematical models of the tibio-femoral joint require input of the geometry of ar...
Biomechanical models of the knee joint allow the development of accurate procedures as well as novel...
Kinematic models of the knee are useful for the applications aimed at replicating or restoring the n...
Kinematic models of the knee are useful for applications aimed at replicating or restoring the natu...
The knee is one of the most complex and studied joint of the musculoskeletal system provided its gre...
none4noThe capability to model human joint motion is a fundamental step towards the definition of ef...
Purpose: We aim to quantitatively characterise the knee joint function in vivo under body-weight-bea...
Subject-specific musculoskeletal (MSK) computer models can estimate muscle and joint articular force...
none3noOBJECTIVE: The knowledge of individual joint motion may help to understand the articular phys...
none7siMusculoskeletal models typically use generic 2D models for the tibiofemoral (TFJ) and patello...
Today neuromuscular simulations are used in several fields, such as diagnostics and planing of surge...
none3noThe capability to model human joint motion is a fundamental step towards the definition of e...
peer reviewedToday neuromuscular simulations are used in sev- eral fields, such as diagnostics and p...
Human knee kinematics has been widely studied, but data collected so far is fragmented. In vivo data...
Three-dimensional mathematical models of the tibio-femoral joint require input of the geometry of ar...