Traditional finite element (FE) analysis is computationally demanding. The computational
time becomes prohibitively long when multiple loading and boundary conditions need to be …

The estimation of the origin and insertion of the four knee ligaments is crucial for
individualised dynamic modelling of the knee. Commonly this information is obtained ex vivo …

Abnormal knee kinematics and meniscus injury resulting from anterior cruciate ligament
(ACL) deficiency are often implicated in joint degeneration even though changes in tibio …

Joint-level rigid body dynamics simulations, when coupled with tissue-level finite element
analyses, can simultaneously provide movement and tissue deformation metrics to …

The prediction of musculo-tendon forces developed during daily living tasks is essential to
assess movement control and joint reaction forces, and then provide insight to improve …

In vivo knee ligament forces are important to consider for informing rehabilitation or clinical
interventions. However, they are difficult to directly measure during functional activities …

Background Medial patellofemoral ligament reconstruction and tibial tuberosity
anteromedialization are common treatment options for recurrent lateral patellar instability …

Knee articular cartilage is characterized by a complex mechanical behavior, posing a
challenge to develop an efficient and precise model. We argue that the cartilage damage, in …

Computational multibody musculoskeletal models of the elbow joint that are capable of
simultaneous and accurate predictions of muscle and ligament forces, along with cartilage …

For golf swing, the soft tissue structure resisting joint compression and internal rotation of the
knee at low flexion angle may be susceptible for a lead knee injury. Therefore, anterior …