EMG power spectrum as a measure of muscular fatigue at different levels of contraction

Abstract

The shift in the power spectrum resulting from a 5–7 min fatigue-inducing effort followed by a 1–2 min recovery period of two elbow flexors, the biceps brachii (BB) and the brachio-radialis (BR), was assessed using two variables, the mean frequency F_m and the median or central frequency F_md. These two variables were calculated in pre- and post-fatigue conditions and following a brief recovery, at four levels, namely 20, 40, 60 and 80 per cent of maximum voluntary contraction (MVC). These were taken from a ramped isometric effort that is from 0 to 100 per cent MVC. The EMG activity of the two flexors was recorded with bipolar surface electrodes from a group of ten volunteers. Following muscle fatigue, induced with a maintained 60 per cent MVC isometric contraction, a statistically significant (pm and F_md for both muscles. Following a brief recovery, a shift towards the pre-fatigue higher frequencies was statistically significant (p<0·05). These two synergists responded to muscle fatigue and recovery similarly, as they both demonstrated parallel shifts in power spectrum. The power spectrum is consequently a reliable measure of muscular fatigue. It is also complementary to the net articular moment results.