The peripheral origin of tap-induced muscle contraction revealed by multi-electrode surface electromyography in human vastus medialis

Alberto Botter,Tommaso Geri,Silvestro Roatta,Taian M Vieira

doi:10.1038/s41598-020-59122-z

Alberto Botter, Tommaso Geri + Show 2 more

Open Access

https://doi.org/10.1038/s41598-020-59122-z

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Abstract

It is well established that muscle percussion may lead to the excitation of muscle fibres. It is still debated, however, whether the excitation arises directly at the percussion site or reflexively, at the end plates. Here we sampled surface electromyograms (EMGs) from multiple locations along human vastus medialis fibres to address this issue. In five healthy subjects, contractions were elicited by percussing the distal fibre endings at different intensities (5–50 N), and the patellar tendon. EMGs were detected with two 32-electrode arrays, positioned longitudinally and transversally to the percussed fibres, to detect the origin and the propagation of action potentials and their spatial distribution across vastus medialis. During muscle percussion, compound action potentials were first observed at the electrode closest to the tapping site with latency smaller than 5 ms, and spatial extension confined to the percussed strip. Conversely, during tendon tap (and voluntary contractions), action potentials were first detected by electrodes closest to end plates and at a greater latency (mean ± s.d., 28.2 ± 1.7 ms, p < 0.001). No evidence of reflex responses to muscle tap was observed. Multi-electrode surface EMGs allowed for the first time to unequivocally and quantitatively describe the non-reflex nature of the response evoked by a muscle tap.

Highlights

It is well established that muscle percussion may lead to the excitation of muscle fibres
Potentials induced by muscle tap and by tendon tap originated in different regions of vastus medialis (VM)
Action potentials observed during voluntary contractions and tendon tap propagate bi-directionally from the innervation zone to the tendon regions, while the propagation of muscle tap (MT) potentials was mono-directional, from the electrode close to the percussion site to the proximal electrode

Summary

Introduction

It is well established that muscle percussion may lead to the excitation of muscle fibres. Convincing evidence of the existence of an idiomuscular component in the tap-evoked contraction was provided by both Meadows[3] and Brody and Rozear[2], who showed that the EMG response was not abolished following the interruption of the reflex arc by (i) proximal anaesthetic[3] or ischemic blockade of the motor nerve in healthy subjects[2,3], (ii) spinal anaesthesia, in patients undergoing surgical interventions[2] or (iii) curarization in rabbits[2], supporting the concept that muscle www.nature.com/scientificreports fibres could be directly excited at the percussion site. The two components are too close in time to be discriminated on the basis of force and kinematic recordings and their electrical manifestations cannot be discriminated based on single channel EMG recordings

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