Clinical significance of dynamical network indices of surface electromyography for reticular neuromuscular control assessment

Clinical significance of dynamical network indices of surface electromyography for reticular neuromuscular control assessment

There is currently no objective and accurate clinical assessment of reticular neuromuscular control in healthy subjects or patients with upper motor neuron injury. As a result, clinical dysfunctions of neuromuscular control could just be semi-quantified, efficacies and mechanisms of various therapie...

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Bibliographic Details
Published in:Journal of neuroengineering and rehabilitation Vol. 20; no. 1; p. 170
Main Authors: Li, Jinping, Kang, Xianglian, Li, Ke, Xu, Ying, Wang, Zhengfei, Zhang, Xinzhi, Guo, Qingjia, Ji, Runing, Hou, Ying
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 20-12-2023
BioMed Central
BMC
Subjects:
Algorithms
Analysis
Clinical Relevance
Codes
Constraint modelling
Coordination
Electromyography
Gait
Gusu Constraint Standing Training
Humans
Lattice theory
Leg
Limbs
Lower Extremity - physiology
Lower limbs
Medical research
Medicine, Experimental
Methodology
Motor model
Motor neurons
Multiplex recurrence network
Muscle, Skeletal - physiology
Muscles
Neuromuscular system
Object recognition (Computers)
Pattern recognition
Reticular neuromuscular control
Surface electromyography
Thigh
Time series
China
United States > US
Gusu Constraint Standing Training
Motor model
Lower limbs
Surface electromyography
Reticular neuromuscular control
Multiplex recurrence network
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Summary:There is currently no objective and accurate clinical assessment of reticular neuromuscular control in healthy subjects or patients with upper motor neuron injury. As a result, clinical dysfunctions of neuromuscular control could just be semi-quantified, efficacies and mechanisms of various therapies for neuromuscular control improving are difficult to verify. Fourteen healthy participants were required to maintain standing balance in the kinetostatics model of Gusu Constraint Standing Training (GCST). A backward and upward constraint force was applied to their trunk at 0°, 20° and 25°, respectively. The multiplex recurrence network (MRN) was applied to analyze the surface electromyography signals of 16 muscles of bilateral lower limbs during the tests. Different levels of MRN network indices were utilized to assess reticular neuromuscular control. Compared with the 0° test, the MRN indices related to muscle coordination of bilateral lower limbs, of unilateral lower limb and of inter limbs showed significant increase when participants stood in 20° and 25° tests (P < 0.05). The indices related to muscle contribution of gluteal, anterior thigh and calf muscles significantly increased when participants stood in 20° and 25° tests (P < 0.05). This study applied the dynamical network indices of MRN to analyze the changes of neuromuscular control of lower limbs of healthy participants in the kinetostatics model of GCST. Results showed that the overall coordination of lower limb muscles would be significantly enhanced during performing GCST, partly by the enhancement of neuromuscular control of single lower limb, and partly by the enhancement of joint control across lower limbs. In particular, the muscles in buttocks, anterior thighs and calves played a more important role in the overall coordination, and their involvement was significantly increased. The MRN could provide details of control at the bilateral lower limbs, unilateral lower limb, inter limbs, and single muscle levels, and has the potential to be a new tool for assessing the reticular neuromuscular control. Trial registration ChiCTR2100055090.
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ISSN:1743-0003
1743-0003
DOI:10.1186/s12984-023-01297-3