Abstract
An anatomically valid musculoskeletal model might contribute to uncovering the biomechanical cause. We previously developed and validated a spine model capable of simulating scoliosis deformities, with joint definition compatible with anatomical joint properties. Further, we improved the muscle anatomy of the ribcage and the ribcage-scapula contact model.
In this study, we developed a semi-automated process to simulate scoliosis patients using all visible geometrical parameters retrieved from bi-planar radiographs, which improves the kinematics and, thus, the kinetic model.
In this study, we developed a semi-automated process to simulate scoliosis patients using all visible geometrical parameters retrieved from bi-planar radiographs, which improves the kinematics and, thus, the kinetic model.
Original language | English |
---|---|
Publication date | 12 Nov 2021 |
Number of pages | 1 |
Publication status | Published - 12 Nov 2021 |
Event | 13th Annual Meeting of the Danish Society of Biomechanics - Technical University of Denmark, Kgs. Lyngby, Denmark Duration: 12 Nov 2021 → 12 Nov 2021 https://www.danskbiomekaniskselskab.dk/kopi-af-om-dbs |
Conference
Conference | 13th Annual Meeting of the Danish Society of Biomechanics |
---|---|
Location | Technical University of Denmark |
Country/Territory | Denmark |
City | Kgs. Lyngby |
Period | 12/11/2021 → 12/11/2021 |
Internet address |
Keywords
- Musculoskeletal Modeling
- Scoliosis
- Kinematics
- Radiographs
- Aetiology