Effect of the tendon reflex on the silent period of motor units in man

Abstract

The behavior of motor units functioning under different conditions was investigated during the patellar reflex. The reflex was elicited during regular firing of the motor units in connection with weak sustained voluntary effort without postural change. Under these conditions the firing rate of the motor units serves as a statistical characteristic of threshold: during the maintenance of an assigned level of contraction the mean firing rate of the low-threshold motor units was higher. The greater the mean spontaneous interspike interval of the motor units, the longer the duration of their silent period after reflex muscular contraction. The duration of the silent period of single motor units in many cases exceeded the longest duration of the aggregated silent period on the electromyogram. The instant frequency (the difference between the reciprocals of the mean interspike interval and silent period) was used as a measure of inhibitory action on the motoneuron. Positive correlation was observed between the change in the instant frequency and the spontaneous firing rate of the motor units. Within the population examined, those motoneurons whose frequency was higher (low-threshold) were more inhibited. The combination of spinal factors evoking inhibition of the motoneurons after the tendon reflex and the excitatory supraspinal influences causing recruiting of the motoneurons during voluntary contraction proved more effective under the conditions investigated for the same motoneurons.