Musculoskeletal Modeling and Simulation Framework to Identify and Treat Subject-Specific Gait Deficits via Wearable Robotic Assistance

Description

This wearable robotic assistance device has the potential to revolutionize the rehabilitation of patients with neuromuscular deficiencies in free-living environments. The device uses a method of musculoskeletal modeling and a simulation framework to identify and treat specific gait deficits. Using musculoskeletal simulation, a method was developed to inform the design and prescription of assistive devices to target individual-specific gait deficits. The type of computer-generated musculoskeletal model is based on the individual’s results obtained from biomechanical, gait, and neuromuscular assessments. An individual’s gait deficits and the contributing mechanisms are determined by comparing the results of the individualized musculoskeletal simulations to healthy individuals’ simulations. Predictive simulations are created, reducing the individual’s customization time. The predictive simulations provide optimized design parameters to implement in the individualized robotic wearable device.

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