Many biomedical, orthopaedic, and industrial applications are emerging that will benefit from
personalized neuromusculoskeletal models. Applications include refined diagnostics …

Subject-specific musculoskeletal modeling can be applied to study musculoskeletal
disorders, allowing inclusion of personalized anatomy and properties. Independent of the …

Background Musculoskeletal modelling is used to assess musculoskeletal loading during
gait. Linear scaling methods are used to personalize generic models to each participant's …

Biomechanical assessments of muscle function are often performed using a generic
musculoskeletal model created from anatomical measurements obtained from cadavers …

Excessive loads at lower limb joints can lead to pain and degenerative diseases. Altering
joint loads with muscle coordination retraining might help to treat or prevent clinical …

Advanced biomechanical analysis of muscle function during gait relies on the use of a
musculoskeletal model. In clinical practice, personalization of the model is usually limited to …

Biomechanical analysis of gait relies on the use of lower-limb musculoskeletal models. Most
models are based on a generic model which takes into account the subject's skeletal …

The lack of an efficient modelling-simulation-analysis workflow for creating and utilising
detailed subject-specific computational models is one of the key reasons why simulation …

Medical images are not typically included in protocol of motion laboratories. Thus, accurate
scaling of musculoskeletal models from optoelectronic data are important for any …

Rescaling generic models is the most frequently applied approach in generating
biomechanical models for inverse kinematics. Nevertheless it is well known that this …