The Effect of Nerve Injury on the Incidence and Distribution of Branched Pulpal Axons in the Ferret

Abstract

In a previous electrophysiological study in ferrets, we demonstrated that some axons in the inferior alveolar nerve branch to supply the pulps of two teeth. We have now investigated the incidence and distribution of branched pulpal axons at various intervals after nerve injury and subsequent regeneration, to study the extent to which the innervation of the teeth returns to normal. In adult male ferrets under anesthesia, the left inferior alveolar nerve was either sectioned (31 animals) or crushed (10 animals). Following recovery periods of six weeks, three months, or one year after nerve section and three months after nerve crush, electrophysiological recordings were made by insertion of pairs of Ag/AgCl electrodes into cavities cut into left mandibular teeth. Electrical stimuli were applied to each tooth in turn, and averaged responses were recorded individually from the other teeth. Latency and amplitude of the action potentials were used to characterize responses from branched pulpal axons. For some branched units, the point of branching was established by determination of the site of the inferior alveolar nerve section which abolished the response. When compared with controls, the results indicated that, following short recovery periods after nerve section, there was an increase in the number of branched pulpal axons supplying non-adjacent teeth, and this branching had occurred at the initial site of nerve injury. Following long recovery periods, there were fewer branched axons than at earlier stages of recovery, but this apparent remodeling had not selectively eliminated axons which branched at the injury site to supply widely separated targets. Nerve crush injury resulted in no increase in the incidence of branched pulpal axons, and branching at the injury site was rare. We conclude that nerve section, but not nerve crush, alters the incidence and distribution of branched pulpal axons.