Objective: The aim of this study was to explore how neurological injured levels of spinal cord affect the performance of patients walking with different un-powered exoskeletons.
Study design: Case series observational study.
Setting: Gait and Motion Analysis Laboratory at the National Research Center Rehabilitation Technical Aids.
Methods: Electromyography and motion data from two subjects with complete spinal cord injury at T10 and T8 walking with un-powered exoskeletons were collected simultaneously.
Outcome measures: Surface electromyography of trunk muscles and motion data including joint angle and center of mass (COM).
Results: Compared to T10 subject, T8 subject activated trunk muscles in higher levels walking with all tested un-powered exoskeletons and had greater pelvic obliquity walking with reciprocating gait orthosis (RGO) and energy-stored exoskeleton (ES-EXO). ES-EXO can redistribute muscle forces, recruit trunk muscles evenly, increase walking speed and improve COM trajectory in frontal plane.
Conclusion: This study revealed differences in kinematics and muscle activities in walking with three un-powered exoskeletons between two patients with different neurological injured levels. ES-EXO had advantages over conventional un-powered exoskeletons on recruiting muscles evenly and improving walking speed, step length and COM trajectory.
Keywords: Electromyography; Motion; Orthotic devices; Spinal cord injuries; Walking.