Abstract EN:

During submaximal isometric contraction sustained until task failure, neural mechanisms of muscle fatigue include those that contribute to the muscle activation and others that regulate the distribution of activity among the involved muscles. From these mechanisms, only those regulating muscle activation seem to be implicated in the termination of the task. The first study highlights potential influence of the muscles group architecture onto the muscular endurance capacity. The second study shows that time to task failure depends on the amount of excitatory descending drive and inhibitory feedback that falls on the motor neuron pool. The less stable is the task, the greater is the amplitude of both excitatory and inhibitory inputs to spinal cord. The third study demonstrates that during such contraction, an augmentation of α - γ coactivation (motor neuron) might contribute to the greater sensitivity of the stretch reflex and then reduce endurance time. Despite its specificity, this exercise must be used to define mechanisms that determinate the end of a fatiguing exercise, which constitute the main goal to further investigations focusing on muscular fatigue.