Changes in the tonic activity of wrist extensor motor units induced by stimulating antagonistic group I afferents in humans.

Abstract

The question as to whether the firing patterns of low- and high-threshold motor units in the extensor carpi radialis muscles are affected differently by group I afferents from the wrist flexors depending on the motor task being performed was investigated in six subjects. The motor units were voluntarily activated during a task consisting of either selectively contracting the wrist extensor muscles or co-activating the wrist and finger antagonist muscles by clenching the hand around a manipulandum. The motor units (n=40) were identified on the basis of their firing thresholds, their macro-potential areas, and their twitch contraction times. The effects on the motor-unit tonic activity of stimulating the wrist flexor afferents were assessed in terms of the changes in the firing probability, which were analysed after computing peri-stimulus time histograms using the cumulative sum procedure. Median nerve stimulation induced four main changes in the tonic firing pattern of the extensor motor units. An early, short-lasting increase in the firing probability (event E1) was found to occur in the high-threshold motor units, either in both tasks (6/13) or only during hand clenching (2/13). A short-latency decrease in the firing probability (event E2) was found to occur in all the motor units, the amount of which increased from the fast- to slowly contracting motor units, especially during hand clenching. A later decrease (event E3) followed by a large, late increase (event E4) in the tonic activity of the motor units was found to occur in all the motor units, without any task-dependent effects. All these various events were consistently observed in 12 pairs of motor units, each consisting of one slowly and one fast-contracting motor unit, which were tested simultaneously. These findings suggest that median nerve stimulation may selectively alter the tonic firing patterns of identified extensor motor units, depending on their functional characteristics (recruitment threshold, motor unit macro-potential area, contraction time) rather than on the excitatory drive to the motoneurone pool. The possible origins of these various events are discussed, and it is argued that, in the wrist extensor and flexor muscles that act as synergists during manipulatory finger movements and gripping tasks, the spinal pathways which assist the voluntary command may selectively modulate the firing patterns of identified motor units, to fit the requirements of the on-going motor task.