Eccentric exercise-induced muscle weakness abolishes sex differences in fatigability during sustained submaximal isometric contractions

Background: Females are typically less fatigable than males during sustained isometric contractions at lower isometric contraction intensities. This sex difference in fatigability becomes more variable during higher intensity isometric and dynamic contractions. While less fatiguing than isometric or concentric contractions, eccentric contractions induce greater and longer lasting impairments in force production. However, it is not clear how muscle weakness influences fatigability in males and females during sustained isometric contractions.Methods: We investigated the effects of eccentric exercise-induced muscle weakness on time to task failure (TTF) during a sustained submax-imal isometric contraction in young (18-30 years) healthy males (n = 9) and females (n = 10). Participants performed a sustained isometric contraction of the dorsiflexors at 35 plantar flexion by matching a 30% maximal voluntary contraction (MVC) torque target until task failure (i.e., falling below 5% of their target torque for >2 s). The same sustained isometric contraction was repeated 30 min after 150 maximal eccentric contractions. Agonist and antagonist activation were assessed using surface electromyography over the tibialis anterior and soleus muscles, respectively.Results: Males were -41% stronger than females. Following eccentric exercise both males and females experienced an -20% decline in maximal voluntary contraction torque. TTF was -34% longer in females than males prior to eccentric exercise-induced muscle weakness. However, following eccentric exercise-induced muscle weakness, this sex-related difference was abolished, with both groups having an -45% shorter TTF. Notably, there was -100% greater antagonist activation in the female group during the sustained isometric contraction following exercise-induced weakness as compared to the males.Conclusion: This increase in antagonist activation disadvantaged females by decreasing their TTF, resulting in a blunting of their typical fatiga-bility advantage over males.

Automated summary

Females are generally less fatigable than males during sustained isometric contractions at lower intensities, but this difference becomes more variable during higher intensity contractions. It is not clear how muscle weakness affects fatigability in males and females during sustained isometric contractions.