Abstract

The summating potential (SP) and the auditory nerve compound action potential (AP) of the electrocochleogram were recorded from the external auditory meatus (EAM) of 10 normal subjects in response to alternating rarefaction and condensation clicks at 90–120 dB pe SPL. Both logarithmic and power functions suggested a similar strength of relationship between SP amplitude and stimulus intensity in each subject. However, a power function represented a more appropriate model of this relationship for the whole set of subjects than did the logarithmic function. Individual power function exponents varied from 0.35 to 0.56 with a weighted average of 0.46 and a S.E. of 0.03. By contrast, because of major heterogeneity of individual slopes at the high stimulus intensities eliciting EAM-measurable SPs, neither the logarithmic nor the power model provided a common description of the relationship between AP voltage and click strength for all subjects. Remarkable inter-individual variability also characterized the relationships between SP and AP amplitudes at various intensity levels and between the SP/AP amplitude ratio and click intensity. The lawful behavior of SP amplitude with varying click strength indicates that, in appropriate circumstance, non-invasive recordings from the ear canal of normal humans provide quantitative information on certain states of activity of cochlear receptors.

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