The control of peripheral structural plasticity of motor neurons by primary sensory neurons was studied in rat extensor digitorum longus (EDL) muscle. Polyinnervation of muscle fibers, sprouting and the motor neuron peripheral field size following L4 dorsal root cutting were evaluated using three different approaches: intracellular recording of end plate potentials, histochemical demonstration of sprouting and polyinnervation and in vivo recording of nerve-evoked twitch. Nodal sprouting was found in rhizotomized rats but not in controls and consistently muscle polyinnervation appeared. The muscle portion innervated by L3 ventral root was relatively reduced and that innervated by L5 was relatively enlarged: a trend to caudal shift of muscle innervation arose in rhizotomized rats. A control of motor neuron plasticity by primary sensory neurons is suggested.