Evaluation of a model of the cochlear neural membrane. I. Physiological measurement of membrane characteristics in response to intrameatal electrical stimulation

Abstract

To understand the auditory neural response to electrical stimuli similar to those used in a cochlear implant, it will be necessary to understand the neural refraction and summation response kinetics. Evidence exists indicating that the cell soma may alter the auditory neural response kinetics and could be the site of conduction failure for excitation initiated on the peripheral process. There is, however, reason to believe that the excitation site in some healthy, type I neurons and in pathological, type III neurons is the central process of the cell. To characterize the neural response to activation at a controlled central process site, cat auditory neurons were stimulated with an intrameatal electrode, and the summation and refraction response kinetics were measured. This approach was used to: (1) characterize the behavior of the neural response to central process excitation; (2) make comparisons between intrameatal excitation at a known central site and scala tympani excitation at an unknown site; and (3) provide membrane characterization free from the possible alteration of membrane kinetics produced by the cell soma. The membrane kinetics measured using intrameatal stimulation differ from those recorded with scala tympani stimulation indicating that the mechanisms for scala tympani and intrameatal stimulation differ.