A prosthetic arm that decodes phantom limb movements

About 75 per cent of amputees exhibit mobility of their phantom limb. Using this information, in collaboration with physicians*, researchers from CNRS and Aix-Marseille University have developed a prototype capable of detecting these movements and activating a prosthetic arm. 

The prosthesis does not require any surgery and patients do not need training. The results have been published on 29 November 2018 in Frontiers in Bioengineering and Biotechnology.
Most amputees feel sensations where their missing limb used to be, hence the name "phantom limb." In a previous study**, researchers had shown that more than 75 per cent of amputees can voluntarily move their phantom limb. The execution of these "phantom" movements, such as for instance finger pinching, the hand making a fist, or the wrist rotating or flexing, are always associated with specific muscle contractions in the stump. 
In people with an upper arm amputation, these contractions concern muscle groups that are not connected with the joints used before the amputation, as if muscle reinnervation had spontaneously occurred, without surgery.
The team of researchers has developed a natural approach of prosthesis control that exploits this phenomenon. For the prototype, the researchers created algorithms capable of recognising muscle activity generated by mobilisation of the phantom limb and reproduction of the detected movement by the prosthesis: intuitive control, without training or surgery.
In the tests, two trans-humeral amputees used this type of control to act with a prosthesis not worn but placed near their arm stump. The results were very encouraging. They showed that the participants could control the prosthesis and achieve the task after only a few minutes of familiarisation with the system, despite long action periods. This research is very promising, since arm amputees often have difficulty in controlling their prostheses effectively, to a point that many give it up.
The researchers are continuing their work by moving on to tests on prostheses being worn, while also contributing to increasing knowledge about the phenomenon of the phantom limb, whose mechanisms are not yet properly understood. These scientists have also shown the need to reconsider the phenomenon of phantom limbs, generally taboo, often attributed to mourning the lost limb, and mainly considered from the angle of pain.