Safety & Efficacy of a Robotic Hip Exoskeleton on Outpatient Stroke Rehabilitation

Medicine, Orthopedics, Neurology, Life Sciences, Bioengineering,
stroke rehabilitation   exoskeleton   gait training   outpatient   safety   efficacy  

Safety and Efficacy: The Impact of Robotic Hip Exoskeleton on Outpatient Stroke Rehabilitation Background Stroke is the leading cause of disability among adults in the United States, with up to 80% of stroke survivors experiencing gait impairments, such as reduced walking speed, endurance, and asymmetrical gait, thereby limiting their ability to wa...

Uncovering the Neural Mechanisms of Inter-Hemispheric Balance Restoration in Chronic Stroke through EMG-Driven Robot Hand Training: Insights from Dynamic Causal Modeling

Uncovering the Neural Mechanisms of Inter-Hemispheric Balance Restoration in Chronic Stroke through EMG-Driven Robot Hand Training: Insights from Dynamic Causal Modeling

Engineering, Electrical Engineering, Information Science, Automation, Medicine, Basic Medical Sciences, Neurology, Medical Imaging, Life Sciences, Bioengineering,
EMG-driven   robot hand training   stroke rehabilitation   neural networks   dynamic causal modeling   upper limb function recovery  

Revealing the Neuromechanism of Interhemispheric Balance Restoration in Chronic Stroke Patients through EMG-driven Robot Hand Training: Insights from Dynamic Causal Modeling Stroke is a common cause of disability, with most stroke survivors suffering from upper limb paralysis. The consequences of upper limb functional impairment can persist for ove...