4.6 Article

Motor Unit Number Estimation in Spastic Biceps Brachii Muscles of Chronic Stroke Survivors Before and After BoNT Injection

期刊

IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING
卷 70, 期 3, 页码 1045-1052

出版社

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TBME.2022.3208078

关键词

Muscles; Electrodes; Force; Estimation; Electromyography; Electrical stimulation; Elbow; Botulinum neurotoxin; decomposition; high-density surface electromyography; motor unit number estimation; spasticity; stroke

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The study investigates the loss of motor units in spastic biceps brachii muscles of chronic stroke survivors before and after botulinum neurotoxin injection. High-density weighted average motor unit number estimation technique was used to estimate the number of functioning motor units in the muscles. The results showed lower motor unit number estimation in spastic muscles compared to non-spastic muscles, but a surprisingly higher estimation after botulinum neurotoxin injection. The findings suggest the potential of the technique to detect motor unit loss in spastic muscles after stroke, but caution is needed due to inter-subject variability after injection.
Objective: The study aims to characterize the motor unit (MU) loss in spastic biceps brachii muscle (BBM) of chronic stroke survivors before and after botulinum neurotoxin (BoNT) injection. Methods: High-density weighted average (HDWA) motor unit number estimation (MUNE) was employed to estimate the number of functioning motor units of BBMs of eight chronic stroke survivors 1-week before (1st visit) and 3-week after (2nd visit) BoNT injection based on the surface electromyography (sEMG) signals recorded during voluntary contraction and supramaximal electrical stimulation. Result: Significant lower MUNE was estimated from the spastic BBMs compared to the non-spastic MUNEs during two visits. A surprisingly higher MUNE was obtained from the spastic side during the 2nd visit after BoNT injection. Conclusions: The HDWA MUNE technique can be employed to characterize the motor unit loss in spastic muscle caused by upper motor neuro lesions at contraction level up to 30% MVC, but may fail to detect the MU loss caused by the chemodenervation effect of BoNT due to the non-uniform denervation of small and large size MUs. Significance: This study presents the first effort to evaluate the applicability of HDWA MUNE technique to characterize the MU loss in the spastic muscle following stroke and the subsequent BoNT injection for the treatment of post-stroke spasticity. The finding of this study suggests that HDWA MUNE can be a sensitive approach to detect the MU loss in spastic muscles after stroke, but the large inter-subject MUNE variability after the BoNT injection should be interpreted with caution.

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