Spontaneous activity of passive muscle spindles of the cat triceps surae muscle

Abstract

The hypothesis that one possible cause of the spontaneous discharge of muscle spindles in the totally relaxed and de-efferented triceps surae muscle, with its tendon divided, is the mechanical factor due to extrafusal-intrafusal interaction was tested in experiments on anesthetized cats. Responses of spontaneously active units were similar with respect to many indices to responses of silent receptors capable of generating a long discharge in response to an increase in static length of the muscle. Isotonic contraction of the relaxed muscle during direct or indirect stimulation was accompanied by a pause in spontaneous activity. The prolonged increase in discharge frequency sometimes arising as a result of pressure on the muscle in the region of the receptor also was abolished by weak isotonic contraction of the muscle. If a long posttetanic sensory discharge was induced in a spontaneously active receptor by intensive tetanization of the nerve to the muscle, and it was then abolished by short stretching of the muscle, the initial spontaneous discharge frequency was restored. The dynamic thresholds of spontaneously active receptors were lower than for silent receptors. In some spontaneously active receptors an initial slowing of the discharge was observed during linear or stepwise stretching of the muscle. It is suggested that the ability of sensory endings to generate a long spontaneous discharge is due to initial stretching of the spindle inside the relaxed muscle.