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Transradial Amputation
Clinical trial pipeline · Data from ClinicalTrials.gov
See which Transradial Amputation trials you may qualify forClinical trial pipeline · Data from ClinicalTrials.gov
See which Transradial Amputation trials you may qualify forDifferent ways of controlling an upper-limb prosthesis can affect how easy it is to use and how helpful it is in everyday activities. One common method, called…
The purpose of this research study is to see how well a new type of myoelectric prosthesis works. A myoelectric prosthesis is a robotic limb for amputees that i…
This single-center, prospective, comparative study aims to compare hand function, quality of life, patient satisfaction, task completion time, fatigue, and comp…
The purpose of this study is to evaluate the motor imagery ability in transradial amputees using myoelectric prosthesis, compare it with the control group and i…
The goal of this clinical trial is to systematically evaluate whether or not two commonly held fundamental assumptions for pattern recognition control translate…
This research and development will improve upon and investigate the potential validity of an innovative new transradial socket and harness design (the KSH syste…
The purpose of this research is to create an intelligent robotic hand for people who have lost a limb below their elbow. By using artificial intelligence to ada…
This study tests how well the Phantom X prosthesis control system works. The system helps control a prosthetic hand using muscle signals from the arm. You'll we…
The CYBORG Study is a first-in-human clinical investigation evaluating the safety and performance of the Phantom X System, an implantable electromyography (EMG)…