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Departamento de Fisiología, Facultad de Medicina, Universidad de Alicante, Spain.

1. The properties of sensory neurones in the petrosal ganglion of the cat were examined in vitro with intracellular electrodes 2-30 days after cutting the carotid or the glossopharyngeal nerve or 30-120 days after crushing the nerves and allowing time for peripheral reinnervation. Both glossopharyngeal and carotid neurones with conduction velocities faster than 2 m/s and humps on the falling phase of their action potentials were studied. 2. Two days after axotomy, the action potential of glossopharyngeal cells showed increased maximum rate of depolarization and decreased after-hyperpolarization (AHP) amplitude. These cells also showed a decrease in time-dependent inward rectification and conduction velocity. No significant changes were observed in carotid neurones at this stage. 3. Four days after axotomy, these changes were still present in glossopharyngeal cells and the duration of the AHP had also decreased. Among carotid neurones there was an increase in spike duration and a decrease in time-dependent rectification and in the amplitude and duration of the AHP. 4. Eight days after axotomy glossopharyngeal cells additionally showed an increased spike duration and decreased rheobase, while carotid neurones had also decreased in conduction velocity. 5. All the changes described were still present 16 days after cutting the nerves. In addition, the input resistance increased in both types of cells. 6. The effects of axotomy persisted 30 days after cutting the nerve, except for the AHP amplitude in both types of cells and the spike duration in glossopharyngeal neurones which had recovered to near control values. 7. Thirty days after crushing the carotid nerve, some carotid neurones showed chemosensory activity, indicating that reinnervation of the carotid body had taken place. In these cells, the properties altered by axotomy had recovered except for the conduction velocity. 8. Four months after crushing the glossopharyngeal nerve, activity evoked by mechanical and chemical stimulation of the tongue could be recorded from the nerve, indicating that sensory reinnervation had taken place. The electrical properties of the glossopharyngeal cells were normal except for conduction velocity which was still slower than the control value. 9. It is concluded that the electrical membrane properties altered by axotomy revert to normal after peripheral sensory regeneration.

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