none7siSubject-specific musculoskeletal (MSK) computer models can estimate muscle and joint articular forces, enabling the identification of mechanical factors causing joint injury or disease. MSK models include models of skeletal anatomy and joint kinematics that can be created in OpenSim [1]. These models are generic and undergo simple linear scaling to a subject using markers from motion analysis. However, generic scaled MSK models produce less accurate estimates of measured knee articular forces compared to those that are subject-specific [2]. Thus, methods are needed to readily create subject-specific models. Passive tibiofemoral (TFJ), patellofemoral (PFJ) and talocrural (TAJ) kinematics measured in cadavers are well predicted using 3...
Musculoskeletal(MS) models are useful to gain information on in vivo biomechanics that would be othe...
Musculoskeletal (MS) models should be able to integrate patient-specific MS architecture and undergo...
Computational models of the knee provide us with a better understanding of ligament and joint contac...
Subject-specific musculoskeletal (MSK) computer models can estimate muscle and joint articular force...
none7siMusculoskeletal models typically use generic 2D models for the tibiofemoral (TFJ) and patello...
Background: OpenSim models are typically based on cadaver findings that are generalized to represent...
Purpose: We aim to quantitatively characterise the knee joint function in vivo under body-weight-bea...
Biomechanical models of the knee joint allow the development of accurate procedures as well as novel...
Computational knee models that replicate the joint motion are important tools to discern difficult-t...
Generic OpenSim models such as the Rajagopal model [1] have questionable biofidelity as they are com...
Computational modelling is an invaluable tool for investigating features of human locomotion and mot...
none6siMusculoskeletal muscle and joint contact forces during activity are used in research and clin...
none3noOBJECTIVE: The knowledge of individual joint motion may help to understand the articular phys...
Kinematic models of the knee are useful for the applications aimed at replicating or restoring the n...
The use of multi-body optimisation (MBO) to estimate joint kinematics from stereophotogrammetric dat...
Musculoskeletal(MS) models are useful to gain information on in vivo biomechanics that would be othe...
Musculoskeletal (MS) models should be able to integrate patient-specific MS architecture and undergo...
Computational models of the knee provide us with a better understanding of ligament and joint contac...
Subject-specific musculoskeletal (MSK) computer models can estimate muscle and joint articular force...
none7siMusculoskeletal models typically use generic 2D models for the tibiofemoral (TFJ) and patello...
Background: OpenSim models are typically based on cadaver findings that are generalized to represent...
Purpose: We aim to quantitatively characterise the knee joint function in vivo under body-weight-bea...
Biomechanical models of the knee joint allow the development of accurate procedures as well as novel...
Computational knee models that replicate the joint motion are important tools to discern difficult-t...
Generic OpenSim models such as the Rajagopal model [1] have questionable biofidelity as they are com...
Computational modelling is an invaluable tool for investigating features of human locomotion and mot...
none6siMusculoskeletal muscle and joint contact forces during activity are used in research and clin...
none3noOBJECTIVE: The knowledge of individual joint motion may help to understand the articular phys...
Kinematic models of the knee are useful for the applications aimed at replicating or restoring the n...
The use of multi-body optimisation (MBO) to estimate joint kinematics from stereophotogrammetric dat...
Musculoskeletal(MS) models are useful to gain information on in vivo biomechanics that would be othe...
Musculoskeletal (MS) models should be able to integrate patient-specific MS architecture and undergo...
Computational models of the knee provide us with a better understanding of ligament and joint contac...