Despite several decades of research, electrically powered hand and arm prostheses are still controlled with very simple algorithms that process the surface electromyogram (EMG) of remnant muscles to achieve control of one prosthetic function at a time. More advanced machine learning methods have shown promising results under laboratory conditions. However, limited robustness has largely prevented the transfer of these laboratory advances to clinical applications. In this paper, we introduce a novel percutaneous EMG electrode to be implanted chronically with the aim of improving the reliability of EMG detection in myoelectric control. The proposed electrode requires a minimally invasive procedure for its implantation, similar to a cosmetic m...
Comunicació presentada a: World Congress on Medical Physics and Biomedical Engineering 2018, celebra...
We present the development and evaluation of a gel liner system for upper limb prosthesis users that...
OBJECTIVE: A significant challenge in rehabilitating upper-limb amputees with sophisticated, electri...
Despite several decades of research, electrically powered hand and arm prostheses are still controll...
Commercial myoelectric prostheses are costly to purchase and maintain, making their provision challe...
Electromyography (EMG) is the resulting electrical signal from muscle activity, commonly used as a p...
Electricalmyography or myoelectric signal is used to voluntarily control current commercial electric...
It has been hypothesized that, due to the potential to both provide a larger number of independent c...
Myoelectric prostheses help amputees to regain independence and a higher quality of life. Such prost...
The loss of an extremity, for instance an arm, is a dramatic event resulting in a significant handic...
In upper-extremity myoelectric prostheses, hard surface electromyography (sEMG) electrodes are typic...
The use of implantable electrodes has been long thought as the solution for a more natural control o...
<div><p>We present the development and evaluation of a gel liner system for upper limb prosthesis us...
We are developing a multi-channel/multifunction prosthetic hand/arm controller system capable of rec...
Permanent implantation of electrodes for prosthetic control is now possible using an osseointegrated...
Comunicació presentada a: World Congress on Medical Physics and Biomedical Engineering 2018, celebra...
We present the development and evaluation of a gel liner system for upper limb prosthesis users that...
OBJECTIVE: A significant challenge in rehabilitating upper-limb amputees with sophisticated, electri...
Despite several decades of research, electrically powered hand and arm prostheses are still controll...
Commercial myoelectric prostheses are costly to purchase and maintain, making their provision challe...
Electromyography (EMG) is the resulting electrical signal from muscle activity, commonly used as a p...
Electricalmyography or myoelectric signal is used to voluntarily control current commercial electric...
It has been hypothesized that, due to the potential to both provide a larger number of independent c...
Myoelectric prostheses help amputees to regain independence and a higher quality of life. Such prost...
The loss of an extremity, for instance an arm, is a dramatic event resulting in a significant handic...
In upper-extremity myoelectric prostheses, hard surface electromyography (sEMG) electrodes are typic...
The use of implantable electrodes has been long thought as the solution for a more natural control o...
<div><p>We present the development and evaluation of a gel liner system for upper limb prosthesis us...
We are developing a multi-channel/multifunction prosthetic hand/arm controller system capable of rec...
Permanent implantation of electrodes for prosthetic control is now possible using an osseointegrated...
Comunicació presentada a: World Congress on Medical Physics and Biomedical Engineering 2018, celebra...
We present the development and evaluation of a gel liner system for upper limb prosthesis users that...
OBJECTIVE: A significant challenge in rehabilitating upper-limb amputees with sophisticated, electri...