The influence of contraction amplitude and firing history on spike‐triggered averaged trapezius motor unit potentials

The spike‐triggered averaged (STA) technique was used to examine trapezius motor unit potentials and their dependence on contraction amplitude and firing history. Individual motor unit firings were identified by a fine‐wire intramuscular electrode, while STA‐derived potentials were extracted from the simultaneously recorded surface electromyographic (SEMG) signal. Amplitude‐controlled contractions and contractions with typing tasks and mental stress were carried out. STA potentials were mostly derived from 20 s intervals of firing. Motor unit synchrony was estimated by peristimulus time histograms (PSTHs). An association between SEMG amplitude and STA‐derived motor unit potentials was found: motor unit area showed a four‐fold increase when SEMG amplitude increased from 1.5 to 10.5% of the root mean square‐detected SEMG signal at maximal voluntary contraction (%EMG max ). Low‐ and higher threshold motor unit potentials, all with recruitment thresholds <10% EMG max , had similar area at the same contraction amplitude. A significant increase in the STA‐derived potentials was observed after 3 min of constant‐amplitude contractions; however, this difference was reduced after 10 min and no longer present after 30 min of contraction. Motor unit synchrony accounted for, on average, 2.8% additional firings within 2 ms of the triggering motor unit. We conclude that the increase in STA‐derived potentials with contraction amplitude is, to a major extent, due to motor unit synchrony, limiting the applicability of this method in postural muscles presenting wide motor unit potentials. The similar area of motor units at same SEMG amplitude may indicate that trapezius motor units recruited below 10% EMG max are of similar size and thus not organized according to the Henneman size principle.