Musculo-tendon forces and joint reaction forces are typically estimated using a two-step method, computing first the musculo-tendon forces by a static optimization procedure and then deducing the joint reaction forces from the force equilibrium. However, this method does not allow studying the interactions between musculo-tendon forces and joint reaction forces in establishing this equilibrium and the joint reaction forces are usually overestimated. This study introduces a new 3D lower limb musculoskeletal model based on a one-step static optimization procedure allowing simultaneous musculo-tendon, joint contact, ligament and bone forces estimation during gait. It is postulated that this approach, by giving access to the forces transmitted ...
Main topics: Musculoskeletal modelling; Mathematical simulation in human movement science; Orthopaed...
Musculoskeletal model is a useful tool to evaluate complex biomechanical problems, simulate and eval...
Segment-based musculoskeletal models allow the prediction of muscle, ligament and joint forces witho...
The generation of subject-specific musculoskeletal models of the lower limb has become a feasible ta...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...
Musculoskeletal models are widely used in biomechanics today to better understand muscle and joint f...
The aim of the present thesis was to investigate the influence of lower-limb joint models on musculo...
Musculoskeletal models generally solve the muscular redundancy by numerical optimisation. They have ...
The musculoskeletal model plays an important role in the investigation of human lower limb diseases....
The goal of this research work was to introduce the whole process of developing and validating a 3D ...
Recent musculoskeletal models allow the investigation of the contribution of individual mu...
International audienceIntroductionThe estimation of the knee joint medial and lateral contact forces...
Neuromusculoskeletal models used to predict muscle and joint contact forces for a specific individua...
The generation of subject-specific musculoskeletal models of the lower limb has become a feasible ta...
Musculoskeletal models provide non-invasive and subject-specific biomechanical investigations of the...
Main topics: Musculoskeletal modelling; Mathematical simulation in human movement science; Orthopaed...
Musculoskeletal model is a useful tool to evaluate complex biomechanical problems, simulate and eval...
Segment-based musculoskeletal models allow the prediction of muscle, ligament and joint forces witho...
The generation of subject-specific musculoskeletal models of the lower limb has become a feasible ta...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...
Musculoskeletal models are widely used in biomechanics today to better understand muscle and joint f...
The aim of the present thesis was to investigate the influence of lower-limb joint models on musculo...
Musculoskeletal models generally solve the muscular redundancy by numerical optimisation. They have ...
The musculoskeletal model plays an important role in the investigation of human lower limb diseases....
The goal of this research work was to introduce the whole process of developing and validating a 3D ...
Recent musculoskeletal models allow the investigation of the contribution of individual mu...
International audienceIntroductionThe estimation of the knee joint medial and lateral contact forces...
Neuromusculoskeletal models used to predict muscle and joint contact forces for a specific individua...
The generation of subject-specific musculoskeletal models of the lower limb has become a feasible ta...
Musculoskeletal models provide non-invasive and subject-specific biomechanical investigations of the...
Main topics: Musculoskeletal modelling; Mathematical simulation in human movement science; Orthopaed...
Musculoskeletal model is a useful tool to evaluate complex biomechanical problems, simulate and eval...
Segment-based musculoskeletal models allow the prediction of muscle, ligament and joint forces witho...