Auditory nerve rate-level functions for two-tone stimuli: Possible relation to basilar membrane nonlinearity

Rate versus level functions are presented for auditory-nerve fiber responses to best frequency (BF) tones presented alone and in the presence of a constant level suppressor tone. The paper focuses on units with sloping saturation rate functions for BF tones presented alone. Two-tone rate functions are generally parallel to BF functions at firing rates below those in the sloping saturation region of the BF function. At rates in the sloping saturation range the two-tone function grows with a greater slope than that of the BF function until the two functions meet. This result is discussed in terms of current knowledge of two-tone suppression on the basilar membrane.

[1]  Raimond L. Winslow,et al.  A computational model for rate-level functions from cat auditory-nerve fibers , 1989, Hearing Research.

[2]  D O Kim,et al.  A system of nonlinear differential equations modeling basilar-membrane motion. , 1973, The Journal of the Acoustical Society of America.

[3]  B. M. Johnstone,et al.  The alteration of the vibration of the basilar membrane produced by loud sound , 1984, Hearing Research.

[4]  Mario A. Ruggero,et al.  Mossbauer Measurements of the Mechanical Response to Single-Tone and Two-Tone Stimuli at the Base of the Chinchilla Cochlea , 1986 .

[5]  M. Liberman,et al.  Auditory-nerve response from cats raised in a low-noise chamber. , 1978, The Journal of the Acoustical Society of America.

[6]  Alexander Joseph Book reviewDischarge patterns of single fibers in the cat's auditory nerve: Nelson Yuan-Sheng Kiang, with the assistance of Takeshi Watanabe, Eleanor C. Thomas and Louise F. Clark: Research Monograph no. 35. Cambridge, Mass., The M.I.T. Press, 1965 , 1967 .

[7]  L. Robles,et al.  Basilar membrane mechanics at the base of the chinchilla cochlea. I. Input-output functions, tuning curves, and response phases. , 1986, The Journal of the Acoustical Society of America.

[8]  E. F. Evans,et al.  Cochlear fibre rate-intensity functions: No evidence for basilar membrane nonlinearities , 1980, Hearing Research.

[9]  W. S. Rhode Observations of the vibration of the basilar membrane in squirrel monkeys using the Mössbauer technique. , 1971, The Journal of the Acoustical Society of America.

[10]  S M Khanna,et al.  Basilar membrane tuning in the cat cochlea. , 1982, Science.

[11]  W. G. Sokolich Improved acoustic system for auditory research , 1977 .

[12]  M. Sachs,et al.  Rate versus level functions for auditory-nerve fibers in cats: tone-burst stimuli. , 1974, The Journal of the Acoustical Society of America.

[13]  B. M. Johnstone,et al.  Measurement of basilar membrane motion in the guinea pig using the Mössbauer technique. , 1982, The Journal of the Acoustical Society of America.

[14]  W. T. Peake,et al.  Middle-ear characteristics of anesthetized cats. , 1967, The Journal of the Acoustical Society of America.

[15]  B. M. Johnstone,et al.  Nonlinear mechanical behaviour of the basilar membrane in the basal turn of the guinea pig cochlea , 1980, Hearing Research.

[16]  Julius L. Goldstein Updating Cochlear Driven Models of Auditory Perception: A New Model for Nonlinear Auditory Frequency Analysing Filters , 1989 .

[17]  P M Sellick,et al.  A comparison between basilar membrane and inner hair cell receptor potential input-output functions in the guinea pig cochlea. , 1983, The Journal of the Acoustical Society of America.

[18]  Robert L. Smith,et al.  Operating range and maximum response of single auditory nerve fibers , 1980, Brain Research.

[19]  C. D. Geisler,et al.  Two-tone suppression in auditory nerve of the cat: rate-intensity and temporal analyses. , 1978, The Journal of the Acoustical Society of America.

[20]  Mario A. Ruggero,et al.  Effects of excitatory and non-excitatory suppressor tones on two-tone rate suppression in auditory nerve fibers , 1987, Hearing Research.