Despite previous studies on the restoration of tactile sensation to the fingers and the hand, there are no examples of use of the routed sensory information to finely control a prosthestic hand in complex grasp and manipulation tasks. Here, it is shown that force and slippage sensations can be elicited in an amputee by means of biologically inspired slippage detection and encoding algorithms, supported by a stick-slip model of the performed grasp. A combination of cuff and intraneural electrodes was implanted for 11 weeks in a young woman with hand amputation and was shown to provide close-to-natural force and slippage sensations, paramount for substantially improving manipulative skills with the prosthesis. Evidence is provided about the i...
International audienceThe present review focusses on how tactile somatosensory afference is encoded ...
To effortlessly complete an intentional movement, the brain needs feedback from the body regarding t...
Amputation of the hand implies the loss of the ability to grasp and the ability to "feel". The grasp...
OBJECTIVE: Tactile afferents in the human hand provide fundamental information about hand-environmen...
Conventional prosthetic arms suffer from poor controllability and lack of sensory feedback. Owing to...
Hand loss is a highly disabling event thatmarkedly affects the quality of life. To achieve a close t...
Tactile feedback is of great significance for amputees to improve the controllability of prosthetic ...
Hand loss is a highly disabling event that markedly affects the quality of life. To achieve a close ...
Hand loss is a highly disabling event that markedly affects the quality of life. To achieve a close ...
In the case of a hand amputation, the affected can use myoelectric prostheses to substitute the miss...
AbstractState-of-the-art prosthetic hands nearly match the dexterity of the human hand, and sophisti...
Recent experiments have shown that neural stimulation can successfully restore sensory feedback in u...
Existing prosthetic limbs do not provide amputees with cutaneous feedback. Tactile feedback is essen...
Current prosthetic limbs are limited by a lack of tactile feedback. Slip feedback is particularly im...
International audienceThe present review focusses on how tactile somatosensory afference is encoded ...
To effortlessly complete an intentional movement, the brain needs feedback from the body regarding t...
Amputation of the hand implies the loss of the ability to grasp and the ability to "feel". The grasp...
OBJECTIVE: Tactile afferents in the human hand provide fundamental information about hand-environmen...
Conventional prosthetic arms suffer from poor controllability and lack of sensory feedback. Owing to...
Hand loss is a highly disabling event thatmarkedly affects the quality of life. To achieve a close t...
Tactile feedback is of great significance for amputees to improve the controllability of prosthetic ...
Hand loss is a highly disabling event that markedly affects the quality of life. To achieve a close ...
Hand loss is a highly disabling event that markedly affects the quality of life. To achieve a close ...
In the case of a hand amputation, the affected can use myoelectric prostheses to substitute the miss...
AbstractState-of-the-art prosthetic hands nearly match the dexterity of the human hand, and sophisti...
Recent experiments have shown that neural stimulation can successfully restore sensory feedback in u...
Existing prosthetic limbs do not provide amputees with cutaneous feedback. Tactile feedback is essen...
Current prosthetic limbs are limited by a lack of tactile feedback. Slip feedback is particularly im...
International audienceThe present review focusses on how tactile somatosensory afference is encoded ...
To effortlessly complete an intentional movement, the brain needs feedback from the body regarding t...
Amputation of the hand implies the loss of the ability to grasp and the ability to "feel". The grasp...