Table Of Contenter
ELSEVIER
Hearing Research 174 (2002) 305-306
www .elsevier.com locate heares
Author Index Volume 174
Adams, J.. see Pearsall, N. (174) 55 DPOAE level shifts and ABR threshold shifts compared to detailed
Ahmad, M., see Harding, G.W. (174) 158 analysis of histopathological damage from noise (174) 158
Amani-Taleshi. D.. see Chertoff. M.E. (174) 93 Heaney, D.L., Schulte. B.A. and Niedzielski, A.S.
Dystroglycan expression in the developing and senescent gerbil cochlea
Berg. A. and Watson, G.M. (174) 9
Rapid recovery of sensory function in blind cave fish treated with ane- Henry, K.R., see Lewis, E.R. (174) 206
mone repair proteins (174) 296 Henson, M.M.., see Pettit. K. (174) 1
Beucker, R., see Rupp, A. (174) 19 Henson Jr.. O.W., see Pettit, K. (174) 1
Bhattacharya, G., see Pearsall, N. (174) 55 Horner, K.C., see Giraudet, F. (174) 239
Bobbin, R.P. Huber, A.M., see Willi, U.B. (174) 32
Caffeine and ryanodine demonstrate a role for the ryanodine receptor in
the organ of Corti (174) 172 Ishida, Y., see Sugawara, M. (174) 222
Bohne. B.A., see Harding, G.W. (174) 158
Burgess, B.J.. see Chao, T.-K. (174) 196 Jacob, H.J., see Tseng, J. (174) 86
Burkard, R., see Chertoff, M.E. (174) 93 Jen, P.H.-S. and Xu. L.
Monaural middle ear destruction in juvenile and adult mice: effects on
Canlon, B., see Niu, X. (174) 124 responses to sound direction in the inferior colliculus ipsilateral to the
Castaneda, M.P., see Devarajan, P. (174) 45 intact ear (174) 249
Cazals, Y., see Giraudet, F. (174) 239 Jen, P.H.-S.. Chen, Q.C. and Wu, F_J.
Chao, T.-K., Burgess, B.J.. Eddington, D.K. and Nadol Jr.. J.B. Interaction between excitation and inhibition affects frequency tuning
Morphometric changes in the cochlear nucleus in patients who had curve, response size and latency of neurons in the auditory cortex of the
undergone cochlear implantation for bilateral profound deafness (174) big brown bat. Eptesicus fuscus (174) 281
196 Jiang, H., see McFadden, S.L. (174) 230
Chen, Q.C., see Jen, P.H.-S. (174) 281
Chertoff, M.E.. Amani-Taleshi, D.. Guo, Y. and Burkard, R. Kalinec, F.. see Devarajan, P. (174) 45
The influence of inner hair cell loss on the instantaneous frequency of Kalinec, G.. see Devarajan, P. (174) 45
the cochlear microphonic (174) 93 Kammen-Jolly, K., see Schrott-Fischer, A. (174) 75
Cosgrove, D., see Pearsall, N. (174) 55 Khanna, S.M.
Non-linear response to amplitude-modulated waves in the apical turn of
Dau, T., see Rupp, A. (174) 19 the guinea pig cochlea (174) 107
Devarajan, P.. Savoca, M., Castaneda, M.P., Park, M.S., Esteban-Crucia- Kimberling, W., see Pearsall, N. (174) 55
ni, N., Kalinec, G. and Kalinec, F. Kitamura. Y., Teranishi, M.-a.. Sone, M. and Nakashima, T.
Cisplatin-induced apoptosis in auditory cells: role of death receptor and Round window membrane in young and aged C57BL/6 mice (174) 142
mitochondrial pathways (174) 45 Késsl, M., see Pibal. I. (174) 260
Ding. D.. see McFadden, S.L. (174) 230 Kwitek, A.E., see Tseng, J. (174) 86
Drexl, M.. see Pibal, 1. (174) 260
Lee, C.-Y.. see Rosowski, J.J. (174) 183
Eddington, D.K., see Chao, T.-K. (174) 196 Lee, H.J.. Wallani. T. and Mendelson, J.R.
Erbe. C.B., see Tseng, J. (174) 86 Temporal processing speed in the inferior colliculus of young and aged
Esteban-Cruciani, N.. see Devarajan, P. (174) 45 rats (174) 64
Eybalin, M., see Schrott-Fischer, A. (174) 75 Lewis, E.R.. Henry, K.R. and Yamada, W.M.
Tuning and timing in the gerbil ear: Wiener-kernel analysis (174) 206
Ferrazzini, M.A.. see Willi, U.B. (174) 32 Lucertini, M., see Moleti, A. (174) 290
Gewalt, S.L., see Pettit. K. (174) 1 McFadden, S.L., Ding, D.. Jiang, H.. Woo, J.M. and Salvi, R_J.
Giraudet, F.. Horner, K.C. and Cazals, Y. Chinchilla models of selective cochlear hair cell loss (174) 230
Similar half-octave TTS protection of the cochlea by xylazine/ketamine Mendelson, J.R.. see Lee, H.J. (174) 64
or sympathectomy (174) 239 Moleti. A.. Sisto, R. and Lucertini, M.
Gliickert, R., see Schrott-Fischer, A. (174) 75 Linear and nonlinear transient evoked otoacoustic emissions in humans
Guo, Y., see Chertoff, M.E. (174) 93 exposed to noise (174) 290
Gutschalk, A., see Rupp, A. (174) 19 Mulders, W.H.A.M.. Winter. I.M. and Robertson, D.
Dual action of olivocochlear collaterals in the guinea pig cochlear nu-
Hall, S.E.. see Phillips. D.P. (174) 133 cleus (174) 264
Harding, G.W., Bohne, B.A. and Ahmad, M.
PII: $0378-5955(02)00727-X
306 futhor Index Volume 174
Nadol Jr.. J.B.. see Chao, T.-K. (174) 196 Scholtz. A.W.. see Schrott-Fischer, A. (174) 75
Nakashima, T.. see Kitamura, Y. (174) 142 Schrott-Fischer, A.. Kammen-Jolly, K.. Scholtz, A.W.. Gliickert. R. and
Niedzielski. A.S.. see Heaney, D.L. (174) 9 Eybalin, M
Niu, X. and Canlon, B. Patterns of GABA-like immunoreactivity in efferent fibers of the human
Activation of tyrosine hydroxylase in the lateral efferent terminals by cochlea (174) 75
sound conditioning (174) 124 Schulte, B.A. see Heaney. D.L. (174) 9
Sisto. R.. see Moleti, A. (174) 290
Park. M.S., see Devarajan, P. (174) 45 Sone. M.. see Kitamura, Y. (174) 142
Patterson. R.D., see Rupp. A. (174) 19 Strybel, T.Z.. see Saberi. K. (174) 149
Pearsall, N.. Bhattacharya, G.. Wisecarver. J.. Adams. J.. Cosgrove. D Sugawara, M., Ishida, Y. and Wada. H
and Kimberling, W Local mechanical properties of guinea pig outer hair cells measured by
Usherin expression is highly conserved in mouse and human tissues atomic force microscopy (174) 2>22
(174) 55
Perrott, D.R.. see Saberi, K. (174) 149 Teranishi, M.-a., see Kitamura, Y. (174) 142
Petrosyan, A., see Saberi, K. (174) 149 Tirtabudi, P., see Saberi. K. (174) 149
Pettit. K.. Henson, M.M.. Henson Jr... O.W.. Gewalt. S.L. and Salt, A.N Tseng. J.. Erbe. C.B.. Kwitek, A.E.. Jacob, H.J.. Popper, P. and Wackym.
Quantitative anatomy of the guinea pig endolymphatic sac (174) | PA
Phillips. D.P. and Hall, S.E. Radiation hybrid mapping of five muscarinic acetylcholine receptor sub-
Auditory temporal gap detection for noise markers with partially over- type genes in Rattus norvegicus (174) 86
lapping and non-overlapping spectra (174) 133
Pibal. I.. Drexl. M. and Késsl. M Uppenkamp. S.. see Rupp. A. (174) 19
Level dependence of optimal stimulus level difference for evoking
DPOAEs in the gerbil (174) 260 Wackym, P.A.. see Tseng. J. (174) 86
Popper. P.. see Tseng. J. (174) 86 Wada. H.. see Sugawara, M. (174) 222
Wallani, T.. see Lee, H.J. (174) 64
Robertson, D.. see Mulders. W.H.A.M. (174) 264 Watson, G.M.. see Berg. A. (174) 296
Rosowski, J.J. and Lee. C.-Y Willi. U.B.. Ferrazzini. M.A. and Huber. A.M
The effect of immobilizing the gerbil’s pars flaccida on the middle-ear’s The incudo-malleolar joint and sound transmission losses (174) 32
response to static pressure (174) 183 Winter. 1.M.. see Mulders. W.H.A.M. (174) 264
Rupp. A., Uppenkamp. S., Gutschalk, A., Beucker. R.. Patterson, R.D., Wisecarver, J., see Pearsall, N. (174) 55
Dau, T. and Scherg. M Woo. J.M.,. see McFadden, S.L. (174) 230
The representation of peripheral neural activity in the middle-latency Wu. F.J.. see Jen. P.H.-S. (174) 281
evoked field of primary auditory cortex in humans (174) 19
Xu. L.. see Jen, P.H.-S. (174) 249
Saberi. K.. Tirtabudi. P.. Petrosyan, A.. Perrott, D.R. and Strybel, T.Z
Concurrent motion detection based on dynamic changes in interaural Yamada, W.M.. see Lewis, E.R. (174) 206
delay (174) 149
Salt. A.N.. see Pettit. K. (174) 1 Zeng. F.-G
Salvi, R.J.. see McFadden. S.L. (174) 230 Temporal pitch in electric hearing (174) 101
Savoca, M.. see Devarajan. P. (174) 45
Scherg. M.. see Rupp. A. (174) 19
4)
ELSEVIER
Hearing Research 174 (2002) 307-311
www.elsevier.com locate heares
Subject Index Volume 174
Acetylcholine Atomic force microscopy
Efferent vestibular system; Muscarinic: Radiation hybrid mapping: Re- Outer hair cell; Guinea pig: Local mechanical property (Sugawara. M.
ceptor: Vestibular (Tseng. J. (174) 86) (174) 222)
Acoustic trauma Auditory brainstem response
Cochlea: Auditory brainstem response; Hearing loss: Dopamine (Niu, X. Cochlea: Hearing loss: Acoustic trauma: Dopamine (Niu. X. (174) 124)
(174) 124)
Noise: Distortion product otoacoustic emission: Organ of Corti; Histo-
Action potential pathology: Chinchilla (Harding, G.W. (174) 158)
Cochlear microphonic: Summating potential; Distortion product (Bobbin,
R.P. (174) 172)
Auditory cell
Apoptosis: Cisplatin: Ototoxicity (Devarajan, P. (174) 45)
Aging
Presbyacusis: Development: Stria vascularis: Dystroglycan: Immunohis-
Auditory cortex
tochemistry (Heaney, D.L. (174) 9)
Bat: Bicuculline: Frequency tuning curve: Inhibition: Latency (Jen.
P.H.-S. (174) 281)
Frequency modulated sweeps: Inferior colliculus (Lee. HJ. (174) 64)
Auditory evoked field
Round window membrane; Ultrastructure: C57BL/6 mouse (Kitamura.
Primary auditory cortex; Auditory image: Magnetoencephalography:
Y. (174) 142)
Spatio-temporal source modelling: Chirp signal: Cochlear phase delay
(Rupp. A. (174) 19)
y-Aminobutyric acid
Human: Efferent neurotransmission; Electron microscopy: Inner ear; Im-
Auditory gap detection
munohistochemistry (Schrott-Fischer. A. (174) 75)
Temporal processing: Spectral dissimilarity: Pitch: Bandwidth (Phillips,
D.P. (174) 133)
Aminoglycoside antibiotic
Loop diuretic; Ototoxicity; Inner ear pathology: Hearing loss; Free rad-
Auditory image
ical (McFadden, S.L. (174) 230)
Primary auditory cortex; Magnetoencephalography: Spatio-temporal
source modelling: Chirp signal: Auditory evoked field; Cochlear phase
Amplitude modulation
delay (Rupp. A. (174) 19)
Guinea pig cochlea; Cochlear mechanics: Apical turn: Non-linear velocity
response: Stereocilia non-linearity: Demodulation (Khanna, $.M. (174)
Auditory motion
107)
Binaural: Dynamic interaural delay (Saberi, K. (174) 149)
Anesthesia
Bandwidth
Hearing: Trauma: Sympathetics: Stress: Cochlea (Giraudet, F. (174) 239)
Auditory gap detection; Temporal processing: Spectral dissimilarity:
Pitch (Phillips. D.P. (174) 133)
Anterior ventral cochlear nucleus
Cochlear nucleus: Cochlear implantation: Synaptosome-associated pro-
tein 25: Ventral cochlear nucleus: Dorsal cochlear nucleus (Chao, T.-K. Bat
(174) 196) Auditory cortex; Bicuculline; Frequency tuning curve: Inhibition: La-
tency (Jen, P.H.-S. (174) 281)
Apical turn
Bi Hi
Guinea pig cochlea; Cochlear mechanics; Amplitude modulation; Non-
linear velocity response: Stereocilia non-linearity: Demodulation (Khan- Auditory cortex: Bat: Frequency tuning curve: Inhibition; Latency (Jen.
na, $.M. (174) 107) P.H.-S. (174) 281)
Apoptosis Binaural
Cisplatin: Ototoxicity: Auditory cell (Devarajan, P. (174) 45) Dynamic interaural delay; Auditory motion (Saberi, K. (174) 149)
Pll: $0378-5955(02)00728-1
308 Subject Index Volume 174
CS7BLI6 mouse Development
Round window membrane: Aging: Ultrastructure (Kitamura, Y. (174) Presbyacusis: Aging: Stria vascularis: Dystroglycan; Immunohistochem-
142) istry (Heaney, D.L. (174) 9)
Carboplatin Distortion product
Instantaneous frequency: Cochlear microphonic; Outer hair cell: Inner Cochlear microphonic; Summating potential; Action potential (Bobbin,
hair cell (Chertoff, M.E. (174) 93) R.P. (174) 172)
Chinchilla Distortion product otoacoustic emission
Noise; Distortion product otoacoustic emission; Auditory brainstem re- Noise; Auditory brainstem response; Organ of Corti; Histopathology;
sponse; Organ of Corti: Histopathology (Harding, G.W. (174) 158) Chinchilla (Harding, G.W. (174) 158)
Chirp signal Dopamine
Primary auditory cortex; Auditory image; Magnetoencephalography: Cochlea; Auditory brainstem response; Hearing loss; Acoustic trauma
Spatio-temporal source modelling: Auditory evoked field; Cochlear phase (Niu, X. (174) 124)
delay (Rupp, A. (174) 19)
Dorsal cochlear nucleus
Cisplatin Cochlear nucleus; Cochlear implantation; Synaptosome-associated pro-
tein 25; Ventral cochlear nucleus; Anterior ventral cochlear nucleus
Apoptosis: Ototoxicity: Auditory cell (Devarajan, P. (174) 45)
(Chao, T.-K. (174) 196)
Cochlea
Dynamic interaural delay
Auditory brainstem response; Hearing loss; Acoustic trauma; Dopamine
Binaural; Auditory motion (Saberi, K. (174) 149)
(Niu, X. (174) 124)
Dystroglycan
Hearing: Trauma: Sympathetics; Stress; Anesthesia (Giraudet, F. (174)
Presbyacusis; Aging: Development: Stria vascularis: Immunohistochem-
239)
istry (Heaney, D.L. (174) 9)
Otoacoustic emission: Two-tone stimulation; Gerbil (Pibal, 1. (174) 260)
Efferent neurotransmission
y-Aminobutyric acid; Human; Electron microscopy: Inner ear; Immuno-
Cochlear implant
histochemistry (Schrott-Fischer, A. (174) 75)
Pitch: Temporal pitch; Frequency discrimination; Electric hearing; Fech-
ner’s model (Zeng, F.-G. (174) 101) Efferent vestibular system
Acetylcholine; Muscarinic; Radiation hybrid mapping: Receptor; Vestib-
Cochlear implantation ular (Tseng, J. (174) 86)
Cochlear nucleus: Synaptosome-associated protein 25; Ventral cochlear
nucleus: Anterior ventral cochlear nucleus: Dorsal cochlear nucleus Electric hearing
(Chao, T.-K. (174) 196) Pitch: Temporal pitch; Frequency discrimination; Cochlear implant;
Fechner’s model (Zeng. F.-G. (174) 101)
Cochlear mechanics
Guinea pig cochlea; Apical turn: Amplitude modulation; Non-linear ve- Electron microscopy
locity response: Stereocilia non-linearity: Demodulation (Khanna, S.M. y-Aminobutyric acid; Human; Efferent neurotransmission; Inner ear; Im-
(174) 107) munohistochemistry (Schrott-Fischer, A. (174) 75)
Cochlear microphonic Endolymph
Instantaneous frequency; Outer hair cell; Inner hair cell; Carboplatin Endolymphatic sac (Pettit. K. (174) 1)
(Chertoff, M.E. (174) 93)
Endolymphatic sac
Summating potential; Action potential: Distortion product (Bobbin, R.P. Endolymph (Pettit, K. (174) 1)
(174) 172)
Exposure to noise
Cochlear nucleus Transient evoked otoacoustic emissions; Hearing loss (Moleti, A. (174)
Cochlear implantation; Synaptosome-associated protein 25; Ventral co- 290)
chlear nucleus; Anterior ventral cochlear nucleus; Dorsal cochlear nucleus
(Chao, T.-K. (174) 196) Fechner’s model
Pitch; Temporal pitch: Frequency discrimination; Electric hearing; Co-
Cochlear phase delay chlear implant (Zeng, F.-G. (174) 101)
Primary auditory cortex; Auditory image: Magnetoencephalography:
Spatio-temporal source modelling: Chirp signal; Auditory evoked field Free radical
(Rupp, A. (174) 19) Aminoglycoside antibiotic: Loop diuretic; Ototoxicity: Inner ear pathol-
ogy: Hearing loss (McFadden, S.L. (174) 230)
Demodulation
Guinea pig cochlea; Cochlear mechanics; Apical turn; Amplitude modu- Frequency discrimination
lation; Non-linear velocity response; Stereocilia non-linearity (Khanna, Pitch; Temporal pitch; Electric hearing: Cochlear implant; Fechner’s
S.M. (174) 107) model (Zeng, F.-G. (174) 101)
Subject Index Volume 174 309
Frequency modulated sweeps Middle ear destruction: Q, value; Sound direction: Tonotopic organiza-
Aging: Inferior colliculus (Lee, H.J. (174) 64) tion (Jen, P.H.-S. (174) 249)
Frequency tuning curve Inhibition
Auditory cortex; Bat: Bicuculline: Inhibition; Latency (Jen, P.H.-S. (174) Auditory cortex; Bat; Bicuculline; Frequency tuning curve: Latency (Jen,
281) P.H.-S. (174) 281)
Gerbil Inner ear
Otoacoustic emission; Cochlea; Two-tone stimulation (Pibal, 1. (174) 260) y-Aminobutyric acid; Human; Efferent neurotransmission; Electron mi-
croscopy: Immunohistochemistry (Schrott-Fischer, A. (174) 75)
Gerbil cochlea
Tuning: Temporal response: Suppression; Reverse correlation (Lewis, Inner ear pathology
E.R. (174) 206) Aminoglycoside antibiotic; Loop diuretic: Ototoxicity; Hearing loss; Free
radical (McFadden, S.L. (174) 230)
Guinea pig
Outer hair cell; Local mechanical property: Atomic force microscopy Inner hair cell
Instantaneous frequency: Cochlear microphonic: Outer hair cell; Carbo-
(Sugawara, M. (174) 222)
platin (Chertoff, M.E. (174) 93)
Guinea pig cochlea
Cochlear mechanics: Apical turn: Amplitude modulation; Non-linear ve- Instantaneous frequency
Cochlear microphonic; Outer hair cell: Inner hair cell; Carboplatin
locity response: Stereocilia non-linearity; Demodulation (Khanna, S.M.
(Chertoff, M.E. (174) 93)
(174) 107)
Hair cell Kanamycin
Medial olivocochlear system: Multipolar cell: Ventral cochlear nucleus:
Neuromast: Tip link; Rheotaxis (Berg, A. (174) 296)
Strychnine (Mulders, W.H.A.M. (174) 264)
Hearing
Laser Doppler vibrometry
Trauma: Sympathetics: Stress: Anesthesia; Cochlea (Giraudet, F. (174)
Tympanic membrane: Tympanometry (Rosowski, J.J. (174) 183)
239)
Latency
Hearing loss
Auditory cortex; Bat; Bicuculline; Frequency tuning curve; Inhibition
Cochlea: Auditory brainstem response; Acoustic trauma: Dopamine (Niu,
(Jen, P.H.-S. (174) 281)
X. (174) 124)
Local mechanical property
Aminoglycoside antibiotic: Loop diuretic; Ototoxicity; Inner ear pathol-
Outer hair cell: Guinea pig: Atomic force microscopy (Sugawara, M.
ogy: Free radical (McFadden, S.L. (174) 230) (174) 222)
Transient evoked otoacoustic emissions: Exposure to noise (Moleti, A.
Loop diuretic
(174) 290)
Aminoglycoside antibiotic: Ototoxicity: Inner ear pathology: Hearing
loss: Free radical (McFadden, S.L. (174) 230)
Histopathology
Noise; Distortion product otoacoustic emission; Auditory brainstem re- Magnetoencephalography
sponse; Organ of Corti: Chinchilla (Harding, G.W. (174) 158) Primary auditory cortex; Auditory image: Spatio-temporal source model-
ling: Chirp signal; Auditory evoked field: Cochlear phase delay (Rupp, A.
Human (174) 19)
y-Aminobutyric acid; Efferent neurotransmission; Electron microscopy:
Inner ear: Immunohistochemistry (Schrott-Fischer, A. (174) 75) Medial olivocochlear system
Multipolar cell; Ventral cochlear nucleus; Kanamycin; Strychnine
Human middle ear function (Mulders, W.H.A.M. (174) 264)
Incudo-malleolar joint: Transfer function: Middle ear mechanics; Tem-
poral bone (Willi, U.B. (174) 32) Middle ear destruction
Inferior colliculus: Q, value: Sound direction: Tonotopic organization
1 Iictoah s (Jen, P.H.-S. (174) 249)
Presbyacusis; Aging: Development: Stria vascularis: Dystroglycan (Hea-
ney, D.L. (174) 9) Middle ear mechanics
Incudo-malleolar joint: Transfer function: Temporal bone; Human mid-
y-Aminobutyric acid: Human; Efferent neurotransmission; Electron mi- dle ear function (Willi, U.B. (174) 32)
croscopy: Inner ear (Schrott-Fischer, A. (174) 75)
Multipolar cell
Incudo-malleolar joint Medial olivocochlear system; Ventral cochlear nucleus; Kanamycin:
Transfer function; Middle ear mechanics: Temporal bone: Human middle Strychnine (Mulders, W.H.A.M. (174) 264)
ear function (Willi, U.B. (174) 32)
Muscarinic
Inferior colliculus Acetylcholine; Efferent vestibular system: Radiation hybrid mapping: Re-
Aging: Frequency modulated sweeps (Lee, H.J. (174) 64) ceptor; Vestibular (Tseng. J. (174) 86)
310 Subject Index Volume 174
Neuromast Round window membrane
Hair cell; Tip link; Rheotaxis (Berg, A. (174) 296) Aging: Ultrastructure; C57BL/6 mouse (Kitamura, Y. (174) 142)
Noise Sound direction
Distortion product otoacoustic emission; Auditory brainstem response; Middle ear destruction; Inferior colliculus: Q, value; Tonotopic organiza-
Organ of Corti; Histopathology: Chinchilla (Harding, G.W. (174) 158) tion (Jen, P.H.-S. (174) 249)
Non-linear velocity response Spatio-temporal source modelling
Guinea pig cochlea; Cochlear mechanics; Apical turn; Amplitude modu- Primary auditory cortex; Auditory image: Magnetoencephalography:
lation: Stereocilia non-linearity: Demodulation (Khanna, $.M. (174) 107) Chirp signal; Auditory evoked field; Cochlear phase delay (Rupp, A.
(174) 19)
Organ of Corti
Noise: Distortion product otoacoustic emission; Auditory brainstem re- Spectral dissimilarity
sponse; Histopathology: Chinchilla (Harding, G.W. (174) 158) Auditory gap detection: Temporal processing: Pitch: Bandwidth (Phillips,
D.P. (174) 133)
Otoacoustic emission
Cochlea; Two-tone stimulation; Gerbil (Pibal, 1. (174) 260) Stereocilia non-linearity
Guinea pig cochlea; Cochlear mechanics: Apical turn; Amplitude modu-
Ototoxicity lation; Non-linear velocity response; Demodulation (Khanna, $.M. (174)
Apoptosis: Cisplatin: Auditory cell (Devarajan. P. (174) 45) 107)
Aminoglycoside antibiotic; Loop diuretic: Inner ear pathology: Hearing Stress
loss: Free radical (McFadden, S.L. (174) 230) Hearing: Trauma: Sympathetics; Anesthesia; Cochlea (Giraudet, F. (174)
239)
Outer hair cell
Instantaneous frequency; Cochlear microphonic: Inner hair cell; Carbo- Stria vascularis
platin (Chertoff, M.E. (174) 93)
Presbyacusis:; Aging: Development; Dystroglycan: Immunohistochemis-
try (Heaney, D.L. (174) 9)
Guinea pig: Local mechanical property: Atomic force microscopy (Suga-
wara, M. (174) 222)
Strychnine
Medial olivocochlear system: Multipolar cell: Ventral cochlear nucleus:
Pitch
Kanamycin (Mulders, W.H.A.M. (174) 264)
Temporal pitch; Frequency discrimination: Electric hearing; Cochlear im-
plant: Fechner’s model (Zeng, F.-G. (174) 101)
Summating potential
Cochlear microphonic; Action potential; Distortion product (Bobbin,
Auditory gap detection: Temporal processing: Spectral dissimilarity;
R.P. (174) 172)
Bandwidth (Phillips, D.P. (174) 133)
Suppression
Presbyacusis
Tuning: Temporal response: Reverse correlation: Gerbil cochlea (Lewis,
Aging; Development; Stria vascularis; Dystroglycan: Immunohistochem-
E.R. (174) 206)
istry (Heaney, D.L. (174) 9)
Sympathetics
Primary auditory cortex
Auditory image; Magnetoencephalography: Spatio-temporal source mod- Hearing; Trauma: Stress: Anesthesia; Cochlea (Giraudet, F. (174) 239)
elling: Chirp signal: Auditory evoked field; Cochlear phase delay (Rupp.
A. (174) 19) Synaptosome-associated protein 25
Cochlear nucleus; Cochlear implantation: Ventral cochlear nucleus; Ante-
Q,, value rior ventral cochlear nucleus; Dorsal cochlear nucleus (Chao, T.-K. (174)
Middle ear destruction; Inferior colliculus: Sound direction: Tonotopic 196)
organization (Jen, P.H.-S. (174) 249)
Temporal bone
Radiation hybrid mapping Incudo-malleolar joint; Transfer function; Middle ear mechanics; Human
Acetylcholine; Efferent vestibular system: Muscarinic: Receptor: Vestib- middle ear function (Willi, U.B. (174) 32)
ular (Tseng, J. (174) 86)
Temporal pitch
Receptor Pitch: Frequency discrimination; Electric hearing: Cochlear implant:
Acetylcholine; Efferent vestibular system: Muscarinic; Radiation hybrid Fechner’s model (Zeng, F.-G. (174) 101)
mapping: Vestibular (Tseng. J. (174) 86)
Temporal processing
Reverse correlation Auditory gap detection: Spectral dissimilarity: Pitch: Bandwidth (Phillips,
Tuning: Temporal response: Suppression: Gerbil cochlea (Lewis, E.R. D.P. (174) 133)
(174) 206)
Temporal response
Rheotaxis Tuning: Suppression: Reverse correlation; Gerbil cochlea (Lewis, E.R.
Neuromast; Hair cell; Tip link (Berg, A. (174) 296) (174) 206)
Subject Index Volume 174
Tip link Tympanic membrane
Neuromast; Hair cell: Rheotaxis (Berg, A. (174) 296) Tympanometry; Laser Doppler vibrometry (Rosowski, J.J. (174) 183)
Tonotopic organization Tympanometry
Middle ear destruction: Inferior colliculus: Q, value; Sound direction Tympanic membrane: Laser Doppler vibrometry (Rosowski, J.J. (174)
(Jen, P.H.-S. (174) 249) 183)
Transfer function Ultrastructure
Incudo-malleolar joint; Middle ear mechanics; Temporal bone; Human Round window membrane; Aging; C57BL/6 mouse (Kitamura, Y. (174)
middle ear function (Willi, U.B. (174) 32) 142)
Transient evoked otoacoustic emissions Ventral cochlear nucleus
Hearing loss: Exposure to noise (Moleti, A. (174) 290) Cochlear nucleus; Cochlear implantation; Synaptosome-associated pro-
tein 25; Anterior ventral cochlear nucleus: Dorsal cochlear nucleus
Trauma (Chao, T.-K. (174) 196)
Hearing: Sympathetics: Stress: Anesthesia: Cochlea (Giraudet, F. (174)
239) Medial olivocochlear system: Multipolar cell: Kanamycin:; Strychnine
(Mulders, W.H.A.M. (174) 264)
Tuning
Temporal response: Suppression; Reverse correlation: Gerbil cochlea Vestibular
(Lewis. E.R. (174) 206) Acetylcholine: Efferent vestibular system: Muscarinic: Radiation hybrid
mapping: Receptor (Tseng. J. (174) 86)
Two-tone stimulation
Otoacoustic emission: Cochlea: Gerbil (Pibal. 1. (174) 260)
