When Less Is More – Discrete Tactile Feedback Dominates Continuous Audio Biofeedback in the Integrated Percept While Controlling a Myoelectric Prosthetic Hand

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When Less Is More – Discrete Tactile Feedback Dominates Continuous Audio Biofeedback in the Integrated Percept While Controlling a Myoelectric Prosthetic Hand

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Engels Leonard F. / Shehata Ahmed W. / Scheme Erik J. / Sensinger Jonathon W. / Cipriani Christian

State of the art myoelectric hand prostheses can restore some feedforward motor function to their users, but they cannot yet restore sensory feedback. It has been shown, using psychophysical tests, that multi-modal sensory feedback is readily used in the formation of the users’ representation of the control task in their central nervous system—their internal model. Hence, to fully describe the effect of providing feedback to prosthesis users, not only should functional outcomes be assessed, but so should the internal model. In this study, we compare the complex interactions between two different feedback types, as well as a combination of the two, on the internal model and the functional performance of naïve participants without limb difference. We show that adding complementary audio biofeedback to visual feedback enables the development of a significantly stronger internal model for controlling a myoelectric hand compared to visual feedback alone, but adding discrete vibrotactile feedback to vision does not. Both types of feedback, however, improved the functional grasping abilities to a similar degree. Contrary to our expectations, when both types of feedback are combined, the discrete vibrotactile feedback seems to dominate the continuous audio feedback. This finding indicates that simply adding sensory information may not necessarily enhance the formation of the internal model in the short term. In fact, it could even degrade it. These results support our argument that assessment of the internal model is crucial to understanding the effects of any type of feedback, although we cannot be sure that the metrics used here describe the internal model exhaustively. Furthermore, all the feedback types tested herein have been proven to provide significant functional benefits to the participants using a myoelectrically controlled robotic hand. This article, therefore, proposes a crucial conceptual and methodological addition to the evaluation of sensory feedback for upper limb prostheses—the internal model—as well ...

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Title :

When Less Is More – Discrete Tactile Feedback Dominates Continuous Audio Biofeedback in the Integrated Percept While Controlling a Myoelectric Prosthetic Hand

Contributors:

Engels Leonard F. (author) / Shehata Ahmed W. (author) / Scheme Erik J. (author) / Sensinger Jonathon W. (author) / Cipriani Christian (author) / Engels Leonard, F. / Shehata Ahmed, W. / Scheme Erik, J. / Sensinger Jonathon, W. / Cipriani, Christian

Publication date :

2019-01-01

DOI :

https://doi.org/10.3389/fnins.2019.00578

Type of media :

Article (Journal)

Type of material :

Electronic Resource

Language :

English

Keywords :

Electromyogarphy , Psychophysic , Sensory feedback , internal model , motor learning , prosthetic , sensory feedback combination