The Neurophysiology of Sensorimotor Prosthetic Control

Sherif M Elbasiouny

doi:10.1186/s42490-024-00084-y

The Neurophysiology of Sensorimotor Prosthetic Control

Research output: Contribution to journal › Review article › peer-review

Abstract

Movement is a central behavior of daily living; thus lost or compromised movement due to disease, injury, or amputation causes enormous loss of productivity and quality of life. While prosthetics have evolved enormously over the years, restoring natural sensorimotor (SM) control via a prosthesis is a difficult problem which neuroengineering has yet to solve. With a focus on upper limb prosthetics, this perspective article discusses the neurophysiology of motor control under healthy conditions and after amputation, the development of upper limb prostheses from early generations to current state-of-the art sensorimotor neuroprostheses, and how postinjury changes could complicate prosthetic control. Current challenges and future development of smart sensorimotor neuroprostheses are also discussed.

Original language	English
Pages (from-to)	9
Journal	BMC biomedical engineering
Volume	6
Issue number	1
DOIs	https://doi.org/10.1186/s42490-024-00084-y
State	Published - Oct 1 2024

Keywords

Prostheses
Closed-loop
Sensorimotor control
Bidirectional

Disciplines

Neuroscience and Neurobiology

Access to Document

10.1186/s42490-024-00084-y

s42490-024-00084-yFinal published version, 1.42 MBLicense: CC BY

Cite this

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title = "The Neurophysiology of Sensorimotor Prosthetic Control",

abstract = "Movement is a central behavior of daily living; thus lost or compromised movement due to disease, injury, or amputation causes enormous loss of productivity and quality of life. While prosthetics have evolved enormously over the years, restoring natural sensorimotor (SM) control via a prosthesis is a difficult problem which neuroengineering has yet to solve. With a focus on upper limb prosthetics, this perspective article discusses the neurophysiology of motor control under healthy conditions and after amputation, the development of upper limb prostheses from early generations to current state-of-the art sensorimotor neuroprostheses, and how postinjury changes could complicate prosthetic control. Current challenges and future development of smart sensorimotor neuroprostheses are also discussed.",

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AB - Movement is a central behavior of daily living; thus lost or compromised movement due to disease, injury, or amputation causes enormous loss of productivity and quality of life. While prosthetics have evolved enormously over the years, restoring natural sensorimotor (SM) control via a prosthesis is a difficult problem which neuroengineering has yet to solve. With a focus on upper limb prosthetics, this perspective article discusses the neurophysiology of motor control under healthy conditions and after amputation, the development of upper limb prostheses from early generations to current state-of-the art sensorimotor neuroprostheses, and how postinjury changes could complicate prosthetic control. Current challenges and future development of smart sensorimotor neuroprostheses are also discussed.

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KW - Closed-loop

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KW - Bidirectional

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