Author Index Altschuler, R.A., see Shore, S.E. (52) 255 receptor in the cochlea and in the brainstem of the peri- Altschuler, R.A., see Zajic, G. (52) 59 natal rat (52) 157 Andersson, S.E., see Hillerdal, M. (52) 321 Dulon, D., Zajic, G. and Schacht, J. Aran, J.-M., see Décory, L. (52) 81 Differential motile response of isolated inner and outer hair Avan, P., Bonfils, P., Loth, D., Narcy, P. and Trotoux, J. cells to stimulation by potassium and calcium ions (52) 225 Quantitative assessment of human cochlear function by evoked otoacoustic emissions (52) 99 Ehrenberger, K. and Felix, D. Glutamate receptors in afferent cochlear neurotransmission Backoff, P.M., see Clopton, B.M. (52) 329 in guinea pigs (52) 73 Barlow, E.K., see Berlin, C.I. (52) 271 Evans, B.N., Hallworth, R. and Dallos, P. Berlin, C.I., Hood, L.J., Barlow, E.K., Morehouse, C.R. and Outer hair cell electromotility: The sensitivity and vulnera- Smith, E.G. bility of the DC component (52) 288 Derived guinea pig compound VIIIth nerve action poten- tials to continuous pure tones (52) 271 Bernstein, L.R. Faingold, C.L., Boersma Anderson, C.A. and Caspary, D.M. Measurement and specification of the envelope correlation Involvement of GABA in acoustically-evoked inhibition in between two narrow bands of noise (52) 189 inferior colliculus neurons (52) 201 Bledsoe, Jr., S.C., see Shore, S.E. (52) 255 Fallon, M., see Pou, A.M. (52) 305 Bobbin, R.P., see Pou, A.M. (52) 305 Felix, D., see Ehrenberger, K. (52) 73 Boersma Anderson, C.A., see Faingold, C.L. (52) 201 Ferres-Torres, R., see Gonzalez-Hernandez, T.H. (52) 17 Bonfils, P., see Avan, P. (52) 99 Booth, J.C. and Cramb, D.A. Threshold integration of bi-amplitude signals (52) 312 Galindo-Mireles, D., see Gonzalez-Hernandez, T.H. (52) 17 Godfrey, D.A., see Shore, S.E. (52) 255 Gonzalez-Hernandez, T.H., Galindo-Mireles, D., Castaneyra- Campo, P., see Subramaniam, M. (52) 181 Perdomo, A. and Ferres-Torres, R. Carey, T.E., see Zajic, G. (52) 59 Divergent projections of projecting neurons of the inferior Caspary, D.M., see Faingold, C.L. (52) 201 colliculus to the medial geniculate body and the con- Castaneyra-Perdomo, A., see Gonzalez-Hernandez, T.H. (52) tralateral inferior colliculus in the rat (52) 17 17 Gower, D.J., see Neely, J.G. (52) 403 Clopton, B.M. and Backoff, P.M. Spectrotemporal receptive fields of neurons in cochlear Gray, L., see Schneider, I. (52) 281 nucleus of guinea pig (52) 329 Corwin, J.T., see Cotanche, D.A. (52) 379 Hafidi, A., see Després, G. (52) 157 Cotanche, D.A. and Corwin, J.T. Hallworth, R., see Evans, B.N. (52) 288 Stereociliary bundles reorient during hair cell development Hashino, E., Tanaka, Y. and Sokabe, M. and regeneration in the chick cochlea (52) 379 Hair cell damage and recovery following chronic applica- Cramb, D.A., see Booth, J.C. (52) 312 tion of kanamycin in the chick cochlea (52) 356 Cynader, M.S., see Zakarauskas, P. (52) 233 Heffner, H.E., see Heffner, R.S. (52) 13 Czibulka, A. and Schwartz, IR. Heffner, R.S. and Heffner, H.E. Neuronal populations in the gerbil PVCN: Effects of age, Behavioral hearing range of the chinchilla (52) 13 hearing status and microcysts (52) 43 Helfert, R.H., see Shore, S.E. (52) 255 Henderson, D., see Subramaniam, M. (52) 181 Dallos, P., see Evans, B.N. (52) 288 Hiel, H., see Décory, L. (52) 81 Décory, L., Hiel, H. and Aran, J.-M. Hillerdal, M. and Andersson, S.E. In vivo noise exposure alters the in vitro motility and The effects of calcitonin gene-related peptide (CGRP) on viability of outer hair cells (52) 81 cochlear and mucosal blood flow in the albino rabbit (52) Després, G., Hafidi, A. and Romand, R. 321 Immunohistochemical localization of nerve growth factor Hood, L.J., see Berlin, C.I. (52) 271 416 Horner, K.C. whole cell electrical characteristics and estimates of gap Old theme and new reflections: Hearing impairment associ- junctional conductance (52) 89 ated with endolymphatic hydrops (52) 147 Schacht, J., see Dulon, D. (52) 225 Schacht, J., see Zajic, G. (52) 407 Kim, D.O. and Parham, K. Schacht, J., see Zajic, G. (52) 59 Auditory nerve spatial encoding of high-frequency pure Schneider, I. and Gray, L. tones: Population response profiles derived from d’ mea- Rapid development of a sensory attribute in young chick- sure associated with nearby places along the cochlea (52) ens (52) 281 167 Schrott, A., Puel, J.-L. and Rebillard, G. Klump, G.M. and Okanoya, K. Cochlear origin of 2/,-f, distortion products assessed by Temporal modulation transfer functions in the European using 2 types of mutant mice (52) 245 Starling (Sturnus vulgaris): 1. Psychophysical modulation Schulte, B.A., see Munyer, P.D. (52) 369 detection thresholds (52) 1 Schwartz, I.R., see Czibulka, A. (52) 43 Kuijpers, W., Tonnaer, E.L.G.M., Peters, T.A. and Ramaekers, Sewell, W.F., see Starr, P.A. (52) 23 F.C.S. Shapiro, B.D., see Quirk, W.S. (52) 217 Expression of intermediate filament proteins in the mature Shore, S.E., Helfert, R.H., Bledsoe, Jr., S.C., Altschuler, R.A. inner ear of the rat and guinea pig (52) 133 and Godfrey, D.A. Descending projections to the dorsal and ventral divisions Lehtonen, E., see Pirvola, U. (52) 345 of the cochlear nucleus in guinea pig (52) 255 Loth, D., see Avan, P. (52) 99 Smith, E.G., see Berlin, C.I. (52) 271 Sokabe, M., see Hashino, E. (52) 356 Melssen, W.J., see Van Stokkum, I.H.M. (52) 113 Starr, P.A. and Sewell, W.F. Miller, J.M., see Quirk, W.S. (52) 217 Neurotransmitter release from hair cells and its blockade Morehouse, C.R., see Berlin, C.I. (52) 271 by glutamate-receptor antagonists (52) 23 Munyer, P.D. and Schulte, B.A. Subramaniam, M., Campo, P. and Henderson, D. Immunohistochemical identification of proteoglycans in The effect of exposure level on the development of progres- gelatinous membranes of cat and gerbil inner ear (52) 369 sive resistance to noise (52) 181 Nair, T.S., see Zajic, G. (52) 59 Tanaka, Y., see Hashino, E. (52) 356 Narcy, P., see Avan, P. (52) 99 Thompson, A.M., see Neely, J.G. (52) 403 Neely, J.G., Thompson, A.M. and Gower, D.J. Tonnaer, E.L.G.M., see Kuijpers, W. (52) 133 Detection and localization of heat shock protein 70 in the Trotoux, J., see Avan, P. (52) 99 normal guinea pig cochlea (52) 403 Nuttall, A.L., see Quirk, W.S. (52) 217 Van Stokkum, I.H.M. and Melssen, W.J. Okanoya, K., see Klump, G.M. (52) 1 Measuring and modelling the response of auditory mid- brain neurons in the grassfrog to temporally structured Parham, K., see Kim, D.O. (52) 167 binaural stimuli (52) 113 Parks, T.N., see Zhou, N. (52) 195 Van Waes, C., see Zajic, G. (52) 59 Peters, T.A., see Kuijpers, W. (52) 133 Pirvola, U., Lehtonen, E. and Ylikoski, J. Winbery, S., see Pou, A.M. (52) 305 Spatiotemporal development of cochlear innervation and hair cell differentiation in the rat (52) 345 Ylikoski, J., see Pirvola, U. (52) 345 Pou, A.M., Fallon, M., Winbery, S. and Bobbin, R.P. Lowering extracellular calcium decreases the length of iso- lated outer hair cells (52) 305 Zajic, G. and Schacht, J. Ptok, M., see Zajic, G. (52) 59 Shape changes in isolated outer hair cells: measurements Puel, J.-L., see Schrott, A. (52) 245 with attached microspheres (52) 407 Zajic, G., Nair, T.S., Ptok, M., Van Waes, C., Altschuler, R.A., Quirk, W.S., Shapiro, B.D., Miller, J.M. and Nuttall, A.L. Schacht, J. and Carey, T.E. Noise-induced changes in red blood cell velocity in lateral Monoclonal antibodies to inner ear antigens: I. Antigens wall vessels of the rat cochlea (52) 217 expressed by supporting cells of the guinea pig cochlea (52) 59 Ramaekers, F.C.S., see Kuijpers, W. (52) 133 Zajic, G., see Dulon, D. (52) 225 Rebillard, G., see Schrott, A. (52) 245 Zakarauskas, P. and Cynader, M.S. Romand, R., see Després, G. (52) 157 Aural intensity for a moving source (52) 233 Zhou, N. and Parks, T.N. Santos-Sacchi, J. Pharmacology of excitatory amino acid neurotransmission Isolated supporting cells from the organ of Corti: Some in nucleus laminaris of the chick (52) 195 Subject Index Actin Auditory system Cochlea; Hair cells; Differentiation; Fodrin; Innervation Kainic acid; AMPA; Kynurenic acid; Quinoxalinediones (Pirvola, U. (52) 345) (Zhou, N. (52) 195) Active mechanisms Aural intensity Click evoked otoacoustic emissions; Stimulus frequency emis- Moving sound; Trajectory; Source detection; Mathematical sions; EOE threshold; Pure tone audiometry; Evaluation (Avan, equation (Zakarauskas, P. (52) 233) P. (52) 99) Bi-amplitude Adult Temporal integration; Diverted-input hypothesis; Minimum Intermediate filament proteins; Rat; Guinea pig; Inner ear intensity level; Intensity integration (Booth, J.C. (52) 312) (Kuijpers, W. (52) 133) Bicuculline Afferents Inferior colliculus; GABA; Intensity-induced inhibition; Inner hair cell; Neurotransmitters; Glutamate; Receptors; Mi- Nipecotic acid; Binaural inhibition; Rate-intensity function, croiontophoresis (Ehrenberger, K. (52) 73) non-monotonic (Faingold, C.L. (52) 201) Aging Binaural hearing PVCN; Cochlear nucleus; Gerbil; Neuronal cell types; Micro- Anuran; Neural modelling; Temporal selectivity; Torus semi- cysts (Czibulka, A. (52) 43) circularis (Van Stokkum, I.H.M. (52) 113) AMPA Binaural inhibition Kainic acid; Kynurenic acid; Quinoxalinediones; Auditory Inferior colliculus; GABA; Intensity-induced inhibition; Bi- system (Zhou, N. (52) 195) cuculline; Nipecotic acid; Rate-intensity function, non-mono- tonic (Faingold, C.L. (52) 201) Amplitude modulation Temporal modulation transfer function; Envelope; Starling; Bird Bird (Klump, G.M. (52) 1) Temporal modulation transfer function; Amplitude modula- tion; Envelope: Starling (Klump, G.M. (52) 1) Anuran Binaural hearing; Neural modelling; Temporal selectivity; Blood flow Torus semicircularis (Van Stokkum, I.H.M. (52) 113) Cochlea; Mucosa; Upper respiratory tract; Middle ear; Micro- sphere method; CGRP; Rabbit (Hillerdal, M. (52) 321) Audiogram Rodent; Human; Psychophysics; Method; Threshold (Heffner, Brainstem R.S. (52) 13) NGF; NGF-receptor; Cochlea; Development; Immunohis- tochemistry (Després, G. (52) 157) Auditory Glutamate; Neurotransmitter; Cobalt; Quantal; Synapse; Calcium Goldfish (Starr, P.A. (52) 23) Outer hair cells; Inner hair cells; Motility; Potassium depolari- zation (Dulon, D. (52) 225) Hearing; Ear; Polarity; Transduction (Cotanche, D.A. (52) 379) Hair cells, outer; Motility; Contractile mechanism (Pou, A.M. (52) 305) Auditory nerve Frequency discrimination; Population response; Signal detec- Outer hair cells; Motility; Potassium Depolarization; Micro- tion theory (Kim, D.O. (52) 167) spheres (Zajic, G. (52) 407) 418 Cat Contractile mechanism Inner ear; Cochlea; Vestibular system; Proteoglycans; Im- Hair cells, outer; Calcium; Motility (Pou, A.M. (52) 305) munohistochemistry; Gerbil (Munyer, P.D. (52) 369) Correlation Cell coupling Envelope; Narrow-band noise (Bernstein, L.R. (52) 189) Voltage clamp; Organ of Corti; Supporting cells; Gap junc- tions (Santos-Sacchi, J. (52) 89) Derived potentials Sinusoids; Pure tone; Guinea pig far-field compound action CGRP potentials; Subtraction (Berlin, C.I. (52) 271) Cochlea; Mucosa; Upper respiratory tract; Middle ear; Blood flow; Microsphere method; Rabbit (Hillerdal, M. (52) 321) Development NGF; NGF-receptor; Cochlea; Brainstem; Immunohistoche- Chick mistry (Després, G. (52) 157) Hair cell; Regeneration; Kanamycin; Ototoxicity (Hashino, E. (52) 356) Hearing; Chicken; Experience; Frequency; Scaling (Schneider, I. (52) 281) Chicken Hearing; Development; Experience; Frequency; Scaling Differentiation (Schneider, I. (52) 281) Cochlea; Hair cells; Actin; Fodrin; Innervation (Pirvola, U. (52) 345) Click evoked otoacoustic emissions Stimulus frequency emissions; Active mechanisms; EOE Distortion product emissions threshold; Pure tone audiometry; Evaluation (Avan, P. (52) 99) Mutant mice; Cochlear non-linearity (Schrott, A. (52) 245) Cobalt Divergent projections Auditory; Glutamate; Neurotransmitter; Quantal; Synapse; Inferior colliculus; Double labeling; Fluorescent tracers; Rat Goldfish (Starr, P.A. (52) 23) (Gonzalez-Hernandez, T.H. (52) 17) Cochlea Diverted-input hypothesis Monoclonal antibodies; Supporting cells (Zajic, G. (52) 59) Temporal integration; Minimum intensity level; Intensity in- tegration; Bi-amplitude (Booth, J.C. (52) 312) Endolymphatic hydrops; Hydrops; Meniére’s disease; Per- ilymph; Endolymph; Hearing (Horner, K.C. (52) 147) Dorsal cochlear nucleus NGF; NGF-receptor; Brainstem; Development; Immunohis- Horseradish peroxidase; Ventral cochlear nucleus; Superior tochemistry (Després, G. (52) 157) olivary nuclei; Inferior colliculus (Shore, S.E. (52) 255) Mucosa; Upper respiratory tract; Middle ear; Blood flow; Double labeling Microsphere method; CGRP; Rabbit (Hillerdal, M. (52) 321) Inferior colliculus; Divergent projections; Fluorescent tracers; Rat (Gonzalez-Hernandez, T.H. (52) 17) Hair cells; Differentiation; Actin; Fodrin; Innervation (Pirvola, U. (52) 345) Ear Hearing; Auditory; Polarity; Transduction (Cotanche, D.A. (52) 379) Inner ear; Vestibular system; Proteoglycans; Immunohis- tochemistry; Cat; Gerbil (Munyer, P.D. (52) 369) Endolymph Heat-shock proteins; Immunohistochemistry; Guinea pig Endolymphatic hydrops; Hydrops; Meniére’s disease; Per- (Neely, J.G. (52) 403) ilymph; Hearing; Cochlea (Horner, K.C. (52) 147) Cochlear non-linearity Endolymphatic hydrops Mutant mice; Distortion product emissions (Schrott, A. (52) Hydrops; Meniére’s disease; Perilymph; Endolymph; Hearing; 245) Cochlea (Horner, K.C. (52) 147) Cochlear nucleus Envelope PVCN; Gerbil; Neuronal cell types; Microcysts; Aging Temporal modulation transfer function; Amplitude modula- (Czibulka, A. (52) 43) tion; Starling; Bird (Klump, G.M. (52) 1) STRF; Noise characterization (Clopton, B.M. (52) 329) Correlation; Narrow-band noise (Bernstein, L.R. (52) 189) EOE threshold Guinea pig Click evoked otoacoustic emissions; Stimulus frequency emis- Isolated hair cell; Motility; Viability; Noise exposure (Décory, sions; Active mechanisms; Pure tone audiometry; Evaluation L. (52) 81) (Avan, P. (52) 99) Intermediate filament proteins; Rat; Inner ear; Adult (Kuijpers, Evaluation W. (52) 133) Click evoked otoacoustic emissions; Stimulus frequency emis- sions; Active mechanisms; EOE threshold; Pure tone audiome- Heat-shock proteins; Cochlea; Immunohistochemistry (Neely, try (Avan, P. (52) 99) J.G. (52) 403) Experience Guinea pig far-field compound action potentials Hearing; Chicken; Development; Frequency; Scaling Derived potentials; Sinusoids; Pure tone; Subtraction (Berlin, (Schneider, I. (52) 281) C.I. (52) 271) Exposure level Hair cell Threshold shift; ‘Toughening’ (Subramaniam, M. (52) 181) Regeneration; Kanamycin; Ototoxicity; Chick (Hashino, E. (52) 356) Fluorescent tracers Inferior colliculus; Divergent projections; Double labeling; Hair cell, outer Rat (Gonzalez-Hernandez, T.H. (52) 17) Motility; Nonlinearity (Evans, B.N. (52) 288) Fodrin Hair cells Cochlea; Hair cells; Differentiation; Actin; Innervation Cochlea; Differentiation; Actin; Fodrin; Innervation (Pirvola, (Pirvola, U. (52) 345) U. (52) 345) Frequency Hair cells, outer Hearing; Chicken; Development; Experience; Scaling (Schnei- Calcium; Motility; Contractile mechanism (Pou, A.M. (52) der, I. (52) 281) 305) Frequency discrimination Hearing Auditory nerve; Population response; Signal detection theory (Kim, D.O. (52) 167) Endolymphatic hydrops; Hydrops; Meniére’s disease; Per- ilymph; Endolymph; Cochlea (Horner, K.C. (52) 147) GABA Chicken; Development; Experience; Frequency; Scaling Inferior colliculus; Intensity-induced inhibition; Bicuculline; (Schneider, I. (52) 281) Nipecotic acid; Binaural inhibition; Rate-intensity function, non-monotonic (Faingold, C.L. (52) 201) Auditory; Ear; Polarity; Transduction (Cotanche, D.A. (52) Gap junctions 379) Voltage clamp; Organ of Corti; Supporting cells; Cell coupling (Santos-Sacchi, J. (52) 89) Heat-shock proteins Cochlea; Immunohistochemistry; Guinea pig (Neely, J.G. (52) Gerbil 403) PVCN; Cochlear nucleus; Neuronal cell types; Microcysts; Aging (Czibulka, A. (52) 43) Homeostasis Noise; Red blood cell velocity; Stria vascularis; Vasoconstric- Inner ear; Cochlea; Vestibular system; Proteoglycans; Im- tion (Quirk, W.S. (52) 217) munohistochemistry; Cat (Munyer, P.D. (52) 369) Horseradish peroxidase Glutamate Ventral cochlear nucleus; Dorsal cochlear nucleus; Superior Auditory; Neurotransmitter; Cobalt; Quantal; Synapse; Gold- olivary nuclei; Inferior colliculus (Shore, S.E. (52) 255) fish (Starr, P.A. (52) 23) Human Inner hair cell; Afferents; Neurotransmitters; Receptors; Mi- Rodent; Psychophysics; Method; Audiogram; Threshold croiontophoresis (Ehrenberger, K. (52) 73) (Heffner, R.S. (52) 13) Goldfish Hydrops Auditory; Glutamate; Neurotransmitter; Cobalt; Quantal; Endolymphatic hydrops; Meniére’s disease; Perilymph; Endo- Synapse (Starr, P.A. (52) 23) lymph; Hearing; Cochlea (Horner, K.C. (52) 147) 420 I aoe a Vy Kanamycin NGF; NGF-receptor; Cochlea; Brainstem; Development (De- Hair cell; Regeneration; Ototoxicity; Chick (Hashino, E. (52) sprés, G. (52) 157) 356) Inner ear; Cochlea; Vestibular system; Proteoglycans; Cat; Kynurenic acid Gerbil (Munyer, P.D. (52) 369) Kainic acid; AMPA; Quinoxalinediones; Auditory system (Zhou, N. (52) 195) Heat-shock proteins; Cochlea; Guinea pig (Neely, J.G. (52) 403) Mathematical equation Moving sound; Trajectory; Aural intensity; Source detection Inferior colliculus (Zakarauskas, P. (52) 233) Divergent projections; Double labeling; Fluorescent tracers; Rat (Gonzalez-Hernandez, T.H. (52) 17) Meniére’s disease Endolymphatic hydrops; Hydrops; Perilymph; Endolymph; GABA; Intensity-induced inhibition; Bicuculline; Nipecotic Hearing; Cochlea (Horner, K.C. (52) 147) acid; Binaural inhibition; Rate-intensity function, non-mono- tonic (Faingold, C.L. (52) 201) Method Rodent; Human; Psychophysics; Audiogram; Threshold Horseradish peroxidase; Ventral cochlear nucleus; Dorsal (Heffner, R.S. (52) 13) cochlear nucleus; Superior olivary nuclei (Shore, S.E. (52) 255) Microcysts Inner ear PVCN; Cochlear nucleus; Gerbil; Neuronal cell types; Aging Intermediate filament proteins; Rat; Guinea pig; Adult (Czibulka, A. (52) 43) (Kuijpers, W. (52) 133) Microiontophoresis Cochlea; Vestibular system; Proteoglycans; Immunohis- Inner hair cell; Afferents; Neurotransmitters; Glutamate; Re- tochemistry; Cat; Gerbil (Munyer, P.D. (52) 369) ceptors (Ehrenberger, K. (52) 73) Inner hair cell Microsphere method Afferents; Neurotransmitters; Glutamate; Receptors; Micro- Cochlea; Mucosa; Upper respiratory tract; Middle ear; Blood iontophoresis (Ehrenberger, K. (52) 73) flow; CGRP; Rabbit (Hillerdal, M. (52) 321) Inner hair cells Microspheres Outer hair cells; Motility; Potassium depolarization; Calcium Outer hair cells; Motility; Calcium; Potassium Depolarization (Dulon, D. (52) 225) (Zajic, G. (52) 407) Innervation Middle ear Cochlea; Hair cells; Differentiation; Actin; Fodrin (Pirvola, U. Cochlea; Mucosa; Upper respiratory tract; Blood flow; Micro- (52) 345) sphere method; CGRP; Rabbit (Hillerdal, M. (52) 321) Intensity-induced inhibition Inferior colliculus; GABA; Bicuculline; Nipecotic acid; Binau- Minimum intensity level ral inhibition; Rate-intensity function, non-monotonic (Fain- Temporal integration; Diverted-input hypothesis; Intensity in- gold, C.L. (52) 201) tegration; Bi-amplitude (Booth, J.C. (52) 312) Intensity integration Monoclonal antibodies Temporal integration; Diverted-input hypothesis; Minimum Cochlea; Supporting cells (Zajic, G. (52) 59) intensity level; Bi-amplitude (Booth, J.C. (52) 312) Motility Intermediate filament proteins Isolated hair cell; Viability; Noise exposure; Guinea pig Rat; Guinea pig; Inner ear; Adult (Kuijpers, W. (52) 133) (Décory, L. (52) 81) Isolated hair cell Outer hair cells; Inner hair cells; Potassium depolarization; Motility; Viability; Noise exposure; Guinea pig (Décory, L. Calcium (Dulon, D. (52) 225) (52) 81) Hair cell, outer; Nonlinearity (Evans, B.N. (52) 288) Kainic acid AMPA; Kynurenic acid; Quinoxalinediones; Auditory system Hair cells, outer; Calcium; Contractile mechanism (Pou, A.M. (Zhou, N. (52) 195) (52) 305) Outer hair cells; Calcium; Potassium Depolarization; Micro- Nonlinearity spheres (Zajic, G. (52) 407) Hair cell, outer; Motility (Evans, B.N. (52) 288) Moving sound Organ of Corti Trajectory; Aural intensity; Source detection; Mathematical Voltage clamp; Supporting cells; Gap junctions; Cell coupling equation (Zakarauskas, P. (52) 233) (Santos-Sacchi, J. (52) 89) Mucosa Ototoxicity Cochlea; Upper respiratory tract; Middle ear; Blood flow; Hair cell; Regeneration; Kanamycin; Chick (Hashino, E. (52) Microsphere method; CGRP; Rabbit (Hillerdal, M. (52) 321) 356) Mutant mice Outer hair cells Distortion product emissions; Cochlear non-linearity (Schrott, Inner hair cells; Motility; Potassium depolarization; Calcium A. (52) 245) (Dulon, D. (52) 225) Narrow-band noise Motility; Calcium; Potassium Depolarization; Microspheres Correlation; Envelope (Bernstein, L.R. (52) 189) (Zajic, G. (52) 407) Neural modelling Perilymph Anuran; Binaural hearing; Temporal selectivity; Torus semicir- Endolymphatic hydrops; Hydrops; Meniére’s disease; Endo- cularis (Van Stokkum, I.H.M. (52) 113) lymph; Hearing; Cochlea (Horner, K.C. (52) 147) Neuronal cell types Polarity PVCN; Cochlear nucleus; Gerbil; Microcysts; Aging (Czibulka, Hearing; Auditory; Ear; Transduction (Cotanche, D.A. (52) A. (52) 43) 379) Neurotransmitter Population response Auditory; Glutamate; Cobalt; Quantal; Synapse; Goldfish Frequency discrimination; Auditory nerve; Signal detection (Starr, P.A. (52) 23) theory (Kim, D.O. (52) 167) Neurotransmitters Potassium depolarization Inner hair cell; Afferents; Glutamate; Receptors; Micro- Outer hair cells; Inner hair cells; Motility; Calcium (Dulon, D. iontophoresis (Ehrenberger, K. (52) 73) (52) 225) NGF Outer hair cells; Motility; Calcium; Microspheres (Zajic, G. NGF-receptor; Cochlea; Brainstem; Development; Immuno- (52) 407) histochemistry (Després, G. (52) 157) Proteoglycans NGF-receptor Inner ear; Cochlea; Vestibular system; Immunohistochemistry; NGF; Cochlea; Brainstem; Development; Immunohistoche- Cat; Gerbil (Munyer, P.D. (52) 369) mistry (Després, G. (52) 157) Psychophysics Nipecotic acid Rodent; Human; Method; Audiogram; Threshold (Heffner, Inferior colliculus; GABA; Intensity-induced inhibition; Bi- R.S. (52) 13) cuculline; Binaural inhibition; Rate-intensity function, non- monotonic (Faingold, C.L. (52) 201) Pure tone Derived potentials; Sinusoids; Guinea pig far-field compound Noise action potentials; Subtraction (Berlin, C.I. (52) 271) Red blood cell velocity; Stria vascularis; Vasoconstriction; Homeostasis (Quirk, W.S. (52) 217) Pure tone audiometry Click evoked otoacoustic emissions; Stimulus frequency emis- Noise characterization sions; Active mechanisms; EOE threshold; Evaluation (Avan, STRF; Cochlear nucleus (Clopton, B.M. (52) 329) P. (52) 99) Noise exposure PVCN Isolated hair cell; Motility; Viability; Guinea pig (Décory, L. Cochlear nucleus; Gerbil; Neuronal cell types; Microcysts; (52) 81) Aging (Czibulka, A. (52) 43) 422 Quantal Stimulus frequency emissions Auditory; Glutamate; Neurotransmitter; Cobalt; Synapse; Click evoked otoacoustic emissions; Active mechanisms; EOE Goldfish (Starr, P.A. (52) 23) threshold; Pure tone audiometry; Evaluation (Avan, P. (52) 99) Quinoxalinediones STRF Kainic acid; AMPA; Kynurenic acid; Auditory system (Zhou, Cochlear nucleus; Noise characterization (Clopton, B.M. (52) N. (52) 195) 329) Rabbit Stria vascularis Cochlea; Mucosa; Upper respiratory tract; Middle ear; Blood Noise; Red blood cell velocity; Vasoconstriction; Homeostasis flow; Microsphere method; CGRP (Hillerdal, M. (52) 321) (Quirk, W.S. (52) 217) Rat Subtraction Inferior colliculus; Divergent projections; Double labeling; Derived potentials; Sinusoids; Pure tone; Guinea pig far-field Fluorescent tracers (Gonzalez-Hernandez, T.H. (52) 17) compound action potentials (Berlin, C.I. (52) 271) Intermediate filament proteins; Guinea pig; Inner ear; Adult Superior olivary nuclei (Kuijpers, W. (52) 133) Horseradish peroxidase; Ventral cochlear nucleus; Dorsal cochlear nucleus; Inferior colliculus (Shore, S.E. (52) 255) Rate-intensity function, non-monotonic Inferior colliculus; GABA; Intensity-induced inhibition; Bi- Supporting cells cuculline; Nipecotic acid; Binaural inhibition (Faingold, C.L. Cochlea; Monoclonal antibodies (Zajic, G. (52) 59) (52) 201) Voltage clamp; Organ of Corti; Gap junctions; Cell coupling Receptors (Santos-Sacchi, J. (52) 89) Inner hair cell; Afferents; Neurotransmitters; Glutamate; Mi- croiontophoresis (Ehrenberger, K. (52) 73) Synapse Auditory; Glutamate; Neurotransmitter; Cobalt; Quantal; Red blood cell velocity Goldfish (Starr, P.A. (52) 23) Noise; Stria vascularis; Vasoconstriction; Homeostasis (Quirk, W.S. (52) 217) Temporal integration Diverted-input hypothesis; Minimum intensity level; Intensity Regeneration integration; Bi-amplitude (Booth, J.C. (52) 312) Hair cell; Kanamycin; Ototoxicity; Chick (Hashino, E. (52) 356) Temporal modulation transfer function Amplitude modulation; Envelope; Starling; Bird (Klump, G.M. Rodent (52) 1) Human; Psychophysics; Method; Audiogram; Threshold (Heffner, R.S. (52) 13) Temporal selectivity Anuran; Binaural hearing; Neural modelling; Torus semicir- Scaling cularis (Van Stokkum, I.H.M. (52) 113) Hearing; Chicken; Development; Experience; Frequency (Schneider, I. (52) 281) Threshold Rodent; Human; Psychophysics; Method; Audiogram (Hef- Signal detection theory fner, R.S. (52) 13) Frequency discrimination; Auditory nerve; Population re- sponse (Kim, D.O. (52) 167) Threshold shift Exposure level; ‘Toughening’ (Subramaniam, M. (52) 181) Sinusoids Derived potentials; Pure tone; Guinea pig far-field compound Torus semicircularis action potentials; Subtraction (Berlin, C.I. (52) 271) Anuran; Binaural hearing; Neural modelling; Temporal selec- tivity (Van Stokkum, I.H.M. (52) 113) Source detection Moving sound; Trajectory; Aural intensity; Mathematical ‘Toughening’ equation (Zakarauskas, P. (52) 233) Threshold shift; Exposure level (Subramaniam, M. (52) 181) Starling Trajectory Temporal modulation transfer function; Amplitude modula- Moving sound; Aural intensity; Source detection; Mathemati- tion; Envelope; Bird (Klump, G.M. (52) 1) cal equation (Zakarauskas, P. (52) 233) Transduction Vestibular system Hearing; Auditory; Ear; Polarity (Cotanche, D.A. (52) 379) Inner ear; Cochlea; Proteoglycans; Immunohistochemistry; Cat; Gerbil (Munyer, P.D. (52) 369) Upper respiratory tract Cochlea; Mucosa; Middle ear; Blood flow; Microsphere Viability method; CGRP; Rabbit (Hillerdal, M. (52) 321) Isolated hair cell; Motility; Noise exposure; Guinea pig Vasoconstriction (Décory, L. (52) 81) Noise; Red blood cell velocity; Stria vascularis; Homeostasis (Quirk, W.S. (52) 217) Voltage clamp Organ of Corti; Supporting cells; Gap junctions; Cell coupling Ventral cochlear nucleus (Santos-Sacchi, J. (52) 89) Horseradish peroxidase; Dorsal cochlear nucleus; Superior olivary nuclei; Inferior colliculus (Shore, S.E. (52) 255)