Prosthetic Myoelectric Control Strategies: A Clinical Perspective

Roche, Aidan D.; Rehbaum, Hubertus; Farina, Dario; Aszmann, Oskar C.

doi:10.1007/s40137-013-0044-8

Cited by 216 publications

(180 citation statements)

References 81 publications

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“…6 The complexity of these control systems increases substantially to provide more functions for amputees. To ensure accurate control of these systems, and to reduce abandonment of new technologies, adequate training needs to be established.…”

Section: Introductionmentioning

confidence: 99%

A Structured Rehabilitation Protocol for Improved Multifunctional Prosthetic Control: A Case Study

Roche

Vujaklija

Amsüss

et al. 2015

JoVE

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Advances in robotic systems have resulted in prostheses for the upper limb that can produce multifunctional movements. However, these sophisticated systems require upper limb amputees to learn complex control schemes. Humans have the ability to learn new movements through imitation and other learning strategies. This protocol describes a structured rehabilitation method, which includes imitation, repetition, and reinforcement learning, and aims to assess if this method can improve multifunctional prosthetic control. A left below elbow amputee, with 4 years of experience in prosthetic use, took part in this case study. The prosthesis used was a Michelangelo hand with wrist rotation, and the added features of wrist flexion and extension, which allowed more combinations of hand movements. The participant's Southampton Hand Assessment Procedure score improved from 58 to 71 following structured training. This suggests that a structured training protocol of imitation, repetition and reinforcement may have a role in learning to control a new prosthetic hand. A larger clinical study is however required to support these findings. Video LinkThe video component of this article can be found at

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Section: Introductionmentioning

confidence: 99%

A Structured Rehabilitation Protocol for Improved Multifunctional Prosthetic Control: A Case Study

Roche

Vujaklija

Amsüss

et al. 2015

JoVE

Self Cite

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“…Unabhängig von der Signalextraktion wird die Verarbeitung der verschiedenen Muskelsignale mittels Mustererkennung eine noch intuitivere Prothesensteuerung ermöglichen, welche zusätzlich durch simple Feedbackmechanismen verfeinert werden wird [5,13].…”

Section: » Eine Bionischeunclassified

“…Die größten Fortschritte der letzten Jahre betrafen allerdings die Steuerungsmöglichkeiten und somit die Schnittstelle Mensch-Maschine [1,13,14].…”

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Prothetische Rekonstruktion der oberen Extremität

et al. 2016

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“…Therefore, the unnatural discrete non-proportional control scheme achieved by the pattern classification approach results in the lack of a successful clinical application of this technique. Nowadays, robust continuous proportional and simultaneous myoelectric control, in which multiple degrees of freedom (DOFs) can be controlled at the same time via EMG inputs, is a necessary requirement for commercial applications in robotic control, prostheses, and orthoses [7]- [10]. A simple control strategy is represented by two independent muscles controlling each single DOF [1], [11].…”

Section: Introductionmentioning

confidence: 99%

Robustness and Reliability of Synergy-Based Myocontrol of a Multiple Degree of Freedom Robotic Arm

Lunardini

Casellato

d’Avella

et al. 2016

IEEE Trans. Neural Syst. Rehabil. Eng.

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Abstract-In this study, we test the feasibility of the synergybased approach for application in the realistic and clinically oriented framework of multi-degree of freedom (DOF) robotic control. We developed and tested online ten able-bodied subjects in a semi-supervised method to achieve simultaneous, continuous control of two DOFs of a robotic arm, using muscle synergies extracted from upper limb muscles while performing flexion-extension movements of the elbow and shoulder joints in the horizontal plane. To validate the efficacy of the synergy-based approach in extracting reliable control signals, compared to the simple muscle-pair method typically used in commercial applications, we evaluated the repeatability of the algorithm over days, the effect of the arm dynamics on the control performance, and the robustness of the control scheme to the presence of co-contraction between pairs of antagonist muscles. Results showed that, without the need for a daily calibration, all subjects were able to intuitively and easily control the synergy-based myoelectric interface in different scenarios, using both dynamic and isometric muscle contractions. The proposed control scheme was shown to be robust to co-contraction between antagonist muscles, providing better performance compared to the traditional muscle-pair approach. The current study is a first step toward user-friendly application of synergy-based myocontrol of assistive robotic devices.

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Prosthetic Myoelectric Control Strategies: A Clinical Perspective

Cited by 216 publications

References 81 publications

A Structured Rehabilitation Protocol for Improved Multifunctional Prosthetic Control: A Case Study

A Structured Rehabilitation Protocol for Improved Multifunctional Prosthetic Control: A Case Study

Prothetische Rekonstruktion der oberen Extremität

Robustness and Reliability of Synergy-Based Myocontrol of a Multiple Degree of Freedom Robotic Arm

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