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 0 Trials 
2 Trials

   

 
Trial + Data / EventsStatusPhNRegionInterventionsSponsorConditionsPrimary complStudy compl
Sharma, Nitin
NCT04453943: Modeling, Optimization, and Control Methods for a Personalized Hybrid Walking Exoskeleton

Not yet recruiting
N/A
30
US
Exoskeleton Walking - with or without FES, Exoskeleton Sitting to Standing - with or without FES
North Carolina State University, U.S. National Science Foundation, University of North Carolina, Chapel Hill
Spinal Cord Injuries, Paraplegia, Spinal, Paraplegia, Incomplete
01/23
01/23
NCT05249595: Ultrasound Imaging Based Sensing of Human Ankle Motion Intent and Control Strategies for Ankle Assistance

Recruiting
N/A
25
US
Surface electromypgraphy-based interface to predict human ankle joint motion intent and use in ankle assistive devices, Ultrasound imaging-based interface to predict human ankle joint motion intent and use in ankle assistive devices, Surface electromypgraphy and ultrasound imaging-based interface to predict human ankle joint motion intent and use in ankle assistive devices
North Carolina State University, University of North Carolina, Chapel Hill, U.S. National Science Foundation
Incomplete Spinal Cord Injury, Transverse Myelitis
12/23
12/23
Trial + Data / EventsStatusPhNRegionInterventionsSponsorConditionsPrimary complStudy compl
Sharma, Nitin
NCT04453943: Modeling, Optimization, and Control Methods for a Personalized Hybrid Walking Exoskeleton

Not yet recruiting
N/A
30
US
Exoskeleton Walking - with or without FES, Exoskeleton Sitting to Standing - with or without FES
North Carolina State University, U.S. National Science Foundation, University of North Carolina, Chapel Hill
Spinal Cord Injuries, Paraplegia, Spinal, Paraplegia, Incomplete
01/23
01/23
NCT05249595: Ultrasound Imaging Based Sensing of Human Ankle Motion Intent and Control Strategies for Ankle Assistance

Recruiting
N/A
25
US
Surface electromypgraphy-based interface to predict human ankle joint motion intent and use in ankle assistive devices, Ultrasound imaging-based interface to predict human ankle joint motion intent and use in ankle assistive devices, Surface electromypgraphy and ultrasound imaging-based interface to predict human ankle joint motion intent and use in ankle assistive devices
North Carolina State University, University of North Carolina, Chapel Hill, U.S. National Science Foundation
Incomplete Spinal Cord Injury, Transverse Myelitis
12/23
12/23

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