Primary afferent and cochlear nucleus contributions to extracellular potentials during tone-bursts

Gross electrical responses to tone bursts were measured in the guinea pig with electrodes located in scala tympani (ST) and scala vestibuli (SV) of the cochlea, on the central portion of the VIIIth nerve fibres in the internal auditory meatus, and on the surface of the cochlear nuclear complex (CN). Intracochlear perfusion of pharmacological blockers of neural and postsynaptic activity as well as aspiration of parts or all of the CN were used to dissect the origin of the many components of the gross responses. It was shown that single-ended recordings from either ST or SV or those derived from the sum of the ST and SV responses not only contain mixed responses from the auditory nerve fibres and cochlear hair cells, but are contaminated or modified by neural activity central to the internal auditory meatus, probably in various parts of the CN. Differential recordings between ST and SV were relatively uncontaminated by such activity. Recordings from central locations were largely uncontaminated by potentials from cochlear hair cells. These results suggest that a revised and extended system of nomenclature for the different components of the gross cochlear potentials is necessary, and interpretation of such potentials needs to take into account multiple central as well as peripheral generators.

[1]  A. Møller On the origin of the compound action potentials (N1, N2) of the cochlea of the rat , 1983, Experimental Neurology.

[2]  H. Davis,et al.  Summating potentials of the cochlea. , 1958, The American journal of physiology.

[3]  Catherine M. McMahon,et al.  The origin of the 900 Hz spectral peak in spontaneous and sound-evoked round-window electrical activity , 2002, Hearing Research.

[4]  Donald Robertson,et al.  Very rapid adaptation in the guinea pig auditory nerve , 1985, Hearing Research.

[5]  T. F. Weiss,et al.  Components of cochlear electric responses in the alligator lizard , 1983, Hearing Research.

[6]  M. Cheatham,et al.  Cochlear Summating Potentials: Composition , 1970, Science.

[7]  P M Sellick,et al.  Intracellular studies of hair cells in the mammalian cochlea. , 1978, The Journal of physiology.

[8]  A. Møller,et al.  Auditory evoked potentials recorded from the cochlear nucleus and its vicinity in man. , 1983, Journal of neurosurgery.

[9]  C. Fernández,et al.  Evoked electrical activity in the auditory nervous system , 1978 .

[10]  R. Ruben,et al.  Electrical acoustical response to click stimulation after section of the eighth nerve. , 1962, Acta oto-laryngologica.

[11]  J. Legouix,et al.  Investigations on the sources of whole-nerve action potentials recorded from various places in the guinea-pig cochlea. , 1974, The Journal of the Acoustical Society of America.

[12]  H. Davis,et al.  The peripheral origin of activity, with reference to the ear. , 1952, Cold Spring Harbor symposia on quantitative biology.

[13]  F. McConnel,et al.  The Auditory Periphery , 1975 .

[14]  P Dallos,et al.  Response characteristics of mammalian cochlear hair cells , 1985, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[15]  A. Cody,et al.  The response of hair cells in the basal turn of the guinea‐pig cochlea to tones. , 1987, The Journal of physiology.

[16]  Summating potential (SP) tuning curves , 1984, Hearing Research.

[17]  B. Lütkenhöner,et al.  Rapid adaptation of auditory-nerve fibers: Fine structure at high stimulus intensities , 1986, Hearing Research.

[18]  H. Davis,et al.  The Space‐Time Pattern of the Cochlear Microphonics (Guinea Pig), as Recorded by Differential Electrodes , 1952 .

[19]  H. Davis,et al.  The excitatory process in the cochlea. , 1950, Proceedings of the National Academy of Sciences of the United States of America.

[20]  P. Dallos Comments on the Differential‐Electrode Technique , 1969 .

[21]  A. Nuttall,et al.  Characterization of an EPSP-like potential recorded remotely from the round window. , 1989, The Journal of the Acoustical Society of America.

[22]  R. Rajan Tonic activity of the crossed olivocochlear bundle in guinea pigs with idiopathic losses in auditory sensitivity , 1989, Hearing Research.

[23]  P Dallos,et al.  Cochlear summating potentials. Descriptive aspects. , 1972, Acta oto-laryngologica. Supplementum.

[24]  S. Bledsoe,et al.  Kainic acid: An evaluation of its action on cockle ar potentials , 1981, Hearing Research.

[25]  A. J. Derbyshire,et al.  THE ELECTRIC RESPONSE OF THE COCHLEA , 1934 .

[26]  D. C. Teas,et al.  Relation Between the Waveform of the Cochlear Whole Nerve Action Potential and Its Intensity Function , 1978 .

[27]  J. Pruett,et al.  Cochlear round window recorded responses to acetylcholine and click stimulation following decentralization. , 1968, Acta oto-laryngologica.