Abstract
According to amputees, sensory feedback is amongst the most important features lacking from commercial prostheses. Although restoration of touch by means of implantable neural interfaces has been achieved, these approaches require surgical interventions, and their long-term usability still needs to be fully investigated. Here, we developed a non-invasive alternative which maintains some of the advantages of invasive approaches, such as a somatotopic sensory restitution scheme. We used transcutaneous electrical nerve stimulation (TENS) to induce referred sensations to the phantom hand of amputees. These sensations were characterized in four amputees over two weeks. Although the induced sensation was often paresthesia, the location corresponded to parts of the innervation regions of the median and ulnar nerves, and electroencephalographic (EEG) recordings confirmed the presence of appropriate responses in relevant cortical areas. Using these sensations as feedback during bidirectional prosthesis control, the patients were able to perform several functional tasks that would not be possible otherwise, such as applying one of three levels of force on an external sensor. Performance during these tasks was high, suggesting that this approach could be a viable alternative to the more invasive solutions, offering a trade-off between the quality of the sensation, and the invasiveness of the intervention.
Highlights
Myoelectric prosthetic hands allow upper limb amputees to regain the ability to perform several tasks involved in everyday living, representing a significant functional gain
We first performed an in-depth characterization of the elicited sensation in all four subjects by exploring the stimulation parameter space and recording the intensity, location and quality of the sensations
Pulse width modulation with transcutaneous electrical nerve stimulation (TENS) is a suitable candidate for prosthesis sensory feedback
Summary
Myoelectric prosthetic hands allow upper limb amputees to regain the ability to perform several tasks involved in everyday living, representing a significant functional gain. This high level of performance indicated that the sensations elicited through stimulation of the ulnar or the median nerves were distinguishable for all subjects. All three subjects could generate three statistically different levels of force using three types of grasping patterns (ulnar, median and power grasps), as reported, with the only exception being the median grasp ( referred to as pinch grasp) when using the B1 setup.
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