Proprioceptive input from the jaw muscles and its influence on lapping, chewing, and posture.

Experiments are described which define criteria for identifying fusimotor axons discharging in filaments of the masseter nerve in lightly anaesthetized cats. During reflex movements of the jaw two patterns of discharge were observed in different fusimotor fibres. One type, called "sustained," fired at a fairly constant increased rate. The other, called "modulated," fired at high frequencies during the extrafusal muscle contraction. Evidence from spindle primary and secondary recordings in similar experiments strongly suggests that the "sustained" type were dynamic fusimotor fibres and the "modulated" type were static fusimotor fibres. New spindle recordings in normal unanaesthetized cats indicate that the modulated pattern of static fusimotor discharge also occurs in these conditions. Its effect is to reduce the tendency for spindle afferents to become silent during muscle shortening. A proposal is made that the static fusimotor discharge in cyclic movements may represent a temporal "template" for the intended movement as directed by the central pattern generator.