In order to more fully understand the mechanisms for injury in the Thoroughbred distal forelimb during the stance phase of gallop, a dynamic computer simulation of the musculoskeletal structures in the forelimb is being generated. The musculoskeletal modeling of the forelimb is done on SIMM\u00ae (Software for Interactive Musculoskeletal Modeling) and the dynamics are performed using SD-Fast\u00ae dynamics software. The model accounts for kinematics of the joints in the forelimb, active and passive muscle-tendon forces, passive ligament forces, inertia properties of the forelimb segments, and externally applied forces and motions (i.e. ground reaction force). A working simulation will provide valuable insights into possible measures for preventing equine lameness associated with distal forelimb injuries.<\/p>\n
Mike Swanstrom<\/p>\n","protected":false},"excerpt":{"rendered":"
Description In order to more fully understand the mechanisms for injury in the Thoroughbred distal forelimb during the stance phase of gallop, a dynamic computer simulation of the musculoskeletal structures in the forelimb is being generated. The musculoskeletal modeling of the forelimb is done on SIMM\u00ae (Software for Interactive Musculoskeletal \u2026 Continue reading