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Extracting Individual Muscle Drive and Activity From High-Density Surface Electromyography Signals Based on the Center of Gravity of Motor Unit

Miaojuan Xia, Chen Chen, Yang Xu, Yang Li, Xinjun Sheng, Han Ding

2023IEEE Transactions on Biomedical Engineering20 citationsDOI

Abstract

Neural interfacing has played an essential role in advancing our understanding of fundamental movement neurophysiology and the development of human-machine interface. However, direct neural interfaces from brain and nerve recording are currently limited in clinical areas for their invasiveness and high selectivity. Here, we applied the surface electromyogram (EMG) in studying the neural control of movement and proposed a new non-invasive way of extracting neural drive to individual muscles. Sixteen subjects performed isometric contractions to complete six hand tasks. High-density surface EMG signals (256 channels in total) recorded from the forearm muscles were decomposed into motor unit firing trains. The location of each decomposed motor unit was represented by its center of gravity and was put into clustering for distinct muscle regions. All the motor units in the same cluster served as a muscle-specific motor pool from which individual muscle drive could be extracted directly. Moreover, we cross-validated the self-clustered muscle regions by magnetic resonance imaging (MRI) recorded from the subjects' forearms. All motor units that fall within the MRI region are considered correctly clustered. We achieved a clustering accuracy of 95.72% ± 4.01% for all subjects. We provided a new framework for collecting experimental muscle-specific drives and generalized the way of surface electrode placement without prior knowledge of the targeting muscle architecture.

Topics & Concepts

Motor unitElectromyographyIsometric exerciseNeurophysiologyMotor unit recruitmentCluster analysisComputer scienceArtificial neural networkBrain–computer interfaceNeuroscienceInterfacingArtificial intelligencePattern recognition (psychology)Biomedical engineeringPsychologyEngineeringElectroencephalographyMedicineComputer hardwarePhysical therapyMuscle activation and electromyography studiesEEG and Brain-Computer InterfacesNeuroscience and Neural Engineering