Click here to load reader
Click here to load reader
Hearing Research, 29 (1987) 273, 274
Elsevier 273
Contents of Volume 29
No. 1
J.K. Moore (U.S.A.) The human auditory brain stem: a comparative view (HRR 00939) 1
J.K. Moore (U.S.A.)
The human auditory brain stem as a generator of auditory evoked potentials (HRR 00940)
W. P. Shofner and E. D. Young (U.S. A.)
Inhibitory connections between AVCN and DCN: Evidence from lidocaine injection in AVCN (HRR 00941)
S.M. Van Netten and A.B.A. Kroese (The Neiherlandv) Laser interferometric measurements on the dynamic behaviour of the cupula in the fish lateral line (HRR 00942)
A. W. Gummer, J. W.T. Smolders and R. Klinke (F.R.G.)
Basilar membrane motion in the pigeon measured with the M&batter technique (HRR 00943)
G. Runhaar and G.A. Manley (F.R.G.) Potassium concentration in the inner sulcus is perilymph-like (HRR 00944)
No. 2/3
R. Charlet de Sauuage, J.-M. Aran and J.-P. Erre (France) Mathematical analysis of VIIIth nerve cap with a linearly-fitted experimental unit response (HRR 00945)
F.F. Offner, P. Dallas and M.A. Cheatham (U.S.A.) Positive endocochlear potential: Mechanism of production by marginal cells of stria vascularis (HRR 00946)
D. W. Smith, D. B. Moody, W.C. Stebbins and M.A. Norat (U.S.A.)
Effects of outer hair cell loss on the frequency selectivity of the patas monkey auditory system (HRR 00947)
33
45
55
63
93
105
117
125
L. Fredeliur, D. Bagger-Sjijbiick and H. Rask-Andersen (Sweden) Effects of high intensity pure tone stimulation on the endolymphatic sac - Correlations between cochlear morphology and endolymphatic sac response (HRR 00948) 139
C.A. Amenta III, C. Trahiotis, L.R. Bernstein and J.M. Nuetrel (U.S.A.) Some physical and psychological effects produced by selective delays of the envelope of narrow bands of noise (HRR
00949) 147
R. Vega, E. Soto, R. Budelli and M.T. Gonzcilez-Estrada (Mt!xico) Is GABA an afferent transmitter in the vestibular system? (HRR 00950) 163
J.H. Siegel and E.M. Relkin (U.S.A.) Evidence for presynaptic facilitation in primary cochlear afferent neurons (HRR 00951) 169
M.L. Gifford and J.J. Guinan, Jr. (U.S.A.) Effects of electrical stimulation of medial olivocochlear neurons on ipsilateral and contralateral cochlear responses (HRR
00952 ) 179
274
C. Van den Honert and P.H. StypuNtowski (U.S.A.)
Single fiber mapping of spatial excitation patterns in the electrically stimulated auditory nerve (HRR 00953)
C. Van den Honert and P.H. S?~pu~kowski (U.S.A.) Temporal response patterns of single auditory nerve fibers elicited by periodic electrical stimuli (HRR UU954)
I. H. M. Van Stokkum (The NetherIan&)
Sensitivity of neurons in the dorsal medullaty nucleus of the grassfrog to spectral and temporal characteristics of sound (HRR 009.55)
J. 0. Pickles, S. D. Comis and M. P. Osborne (U.K.)
The effect of chronic application of kanamycin on stereocilia and their tip links in hair cells of the guinea pig cochlea ( HRR 00956)
I. Sziklai, E. Ferrory, 0. Sterkers and C. Amiel (France) Vasopressin entry into the inner ear fluids of the rat (HRR 00957)
B.A. Bohne, L Yohman and MM. Gamer (U.S.A.) Cochbr damage foIIowing interrqrted exposure to high-frequency noise (HRR 00958)
M. Lenoir and J.-L. Puel [France)
Development of Zf, - f2 otoacoustic emissions in the rat (MU 00959)
Contents of Volume 29
Author Index
19s
207
223
237
245
251
265
273
275
Subject Index 277
Hearing Research, 29 (1987) 275, 276
Elsevier
Author Index
275
Amenta III, CA., Trahiotis, C., Bernstein, L.R. and Nuetzel. J.M. Some physical and psychological effects produced by selec- tive delays of the envelope of narrow bands of noise (29) 147
Amiel, C., see Sziklai, I. (29) 245 Aran, J.-M., see Charlet de Sauvage, R. (29) 105
Bagger-Sjbback, D., see Fredelius, L. (29) 139 Bernstein, L.R., see Amenta III, C.A. (29) 147 Bohne, B.A., Yohman, L. and Gnmer, M.M.
Cochlear damage following interrupted exposure to high- frequency noise (29) 251
Budelli, R., see Vega, R. (29) 163
Charlet de Sauvage, R., Aran, J.-M. and Erre, J.-P. Mathematical analysis of VIIIth nerve cap with a linearly- fitted experimental unit response (29) 105
Cheatham. M.A., see Offner, F.F. (29) 117 Comis, S.D., see Pickles, J.O. (29) 237
Dallos, P., see Offner, F.F. (29) 117
Erre, J.-P., see Charlet de Sauvage, R. (29) 105
Ferrary, E., see Sziklai, I. (29) 245 Fredelius, L., Bagger-Sjoback, D. and Rask-Andersen, H.
Effects of high intensity pure tone stimulation on the endolymphatic sac - Correlations between co&ear mor- phology and endolymphatic sac response (29) 139
Gifford, M.L. and Guinan, Jr., J.J. Effects of electrical stimulation of medial olivocochIear neurons on ipsilateral and contralateral cochlear responses (29) 179
Gonzalez-Estrada, M.T., see Vega, R. (29) 163 Gnmer, M.M., see Bohne, B.A. (29) 251 Guinan, Jr., J.J., see Gifford, M.L. (29) 179 Gummer, A.W., Smolders, J.W.T. and Klinke, R.
Basilar membrane motion in the pigeon measured with the Mijssbauer technique (29) 63
Klinke, R., see Gumrner, A.W. (29) 63 Kroese, A.B.A., see Van Netten, S.M. (29) 55
Lenoir, M. and Puel, J.-L. Development of 2f, -fi otoacoustic emissions in the rat (29) 265
Manley, G.A., see Runhaar, G. (29) 93 Moody, D.B., see Smith, D.W. (29) 125 Moore, J.K.
The human auditory brain stem: a comparative view (29) 1 Moore, J.K.
The human auditory brain stem as a generator of auditory evoked potentials (29) 33
Norat, M.A., see Smith, D.W. (29) 125 Nuetzel, J.M., see Amenta III, CA. (29) 147
Offner, F.F., Dallas, P. and Cheatham, M.A. Positive endocochlear potential: Mechanism of production by marginal cells of stria vascularis (29) 117
Osborne, M.P., see Pickles, J.O. (29) 237
Pickles, J.O., Comis, S.D. and Osborne, M.P. The effect of chronic application of kanamycin on stereo- cilia and their tip links in hair cells of the guinea pig cochlea (29) 237
Puel, J.-L., see Lenoir, M. (29) 265
Rask-Andersen, H., see Fredelius, L. (29) 139 Relkin, E.M., see Siegel, J.H. (29) 169 Runhaar, G. and Manley, G.A.
Potassium concentration in the inner sulcus is perilymph- like (29) 93
Shofner, W.P. and Young, E.D. Inhibitory connections between AVCN and DCN: Evi- dence from lidocaine injection in AVCN (29) 45
Siegel, J.H. and Relkin, E.M. Evidence for presynaptic facilitation in primary cochlear afferent neurons (29) 169
Smith, D.W., Moody, D.B., Stebbins, W.C. and Norat, M.A. Effects of outer hair cell loss on the frequency selectivity of the patas monkey auditory system (29) 125
Smolders, J.W.T., see Gummer, A.W. (29) 63 Soto, E., see Vega, R. (29) 163 Stebbins, W.C., see Smith, D.W. (29) 125 Sterkers, O., see Sziklai, I. (29) 245 Stypulkowski, P.H., see Van den Honert, C. (29) 195 Stypulkowski, P.H., see Van den Honert, C. (29) 207 Sziklai, I., Ferrary, E., Sterkers, 0. and Amiel, C.
Vasopressin entry into the inner ear fluids of the rat (29) 245
Trahiotis, C., see Amenta III. C.A. (29) 147
216
Van den Honert, C. and Stypulkowski, P.H. Single fiber mapping of spatial excitation patterns in the electrically stimulated auditory nerve (29) 195
Van den Hone& C. and Stypulkowski, P.H. Temporal response patterns of single auditory nerve fibers elicited by periodic electrical stimuli (29) 207
Van Netten, S.M. and Kroese, A.B.A. Laser interferometric measurements on the dynamic be- haviour of the cupula in the fish lateral line (29) 55
Van Stokkum, I.H.M. Sensitivity of neurons in the dorsal medullary nucleus 01
the grassfrog to spectral and temporal characteristics of sound (29) 223
Vega, R., Soto, E., Budelli, R. and Gonzalez-Bstrada, M.T. Is GABA an afferent transmitter in the vestibular system? (29) 163
Yohman, L., see Bohne, B.A. (29) 251 Young, E.D., see Shofner, W.P. (29) 45
Hearing Research, 29 (1987) 277-280
Elsevier
Subject Index
271
Acoustic overstimulation Cochlear damage; Endolymphatic sac (Fredelius, L. (29) 139)
Amplitude modulation Anuran; Click; Dorsal medullary nucleus; Mating call detec- tion (Van Stokkum, I.H.M. (29) 223)
AINUZUl Amplitude modulation; Click; Dorsal medullary nucleus; Mat- ing call detection (Van Stokkum, I.H.M. (29) 223)
ATPase, (Na + K)- End-hlear potential; Stria vascular-is; Marginal cell; In- tracellular resting potential; Marginal cell model; Per- ilymphatic perfusion (Offner, F.F. (29) 117)
Auditory evoked potential Human brain stem (Moore, J.K. (29) 33)
Auditory nerve Facilitation; Synaptic transmission (Siegel, J.H. (29) 169)
Electrical stimulation; Single fiber; Spatial selectivity; Multiple electrode; Cochlear implant (Van den Honert, C. (29) 195)
Electrical stimulation; Single fiber; Temporal pattern; Wave- form (Van den Honert, C. (29) 207)
Avian hearing Basilar membrane; Traveling wave; Tonotopic organization; Pigeon; Columella footplate; Miissbauer technique (Gummer, A.W. (29) 63)
Basilar membrane Traveling wave; Avian hearing; Tonotopic organization; Pi- geon; Columella footplate; Mossbauer technique (Gummer, A.W. (29) 63)
Bicuculline GABA; Muscimol; Picrotoxin; Hair cell; Vestibular system (Vega, R. (29) 163)
Binaural hearing Lateralization; Selective noise delay (Amenta III, CA. (29) 147)
Cerebral lateral ventricle Vasopressin; Sucrose; Endolymph; Perilymph (Sziklai, I. (29) 245)
Click Amplitude modulation; Anuran; Dorsal medullary nucleus; Mating call detection (Van Stokkum, I.H.M. (29) 223)
CochIear damage Acoustic overstimulation; Endolymphatic sac (Fredelius, L. (29) 139)
CuehIear hair cell Kanamycin; Stereo&urn; Cross-link; Transduction; Guinea pig (Pickles, J.O. (29) 237)
Coehlear implant Electrical stimulation; Single fiber; Auditory nerve; Spatial selectivity; Multiple electrode (Van den Honert, C. (29) 195)
CochIear mechanics Compound action potential; Deconvolution; Electrical stimu- lation; Unit response; VIIIth nerve (Charlet de Sauvage, R. (29) 105)
Co&ear nucleus Human brain stem; Superior olivary complex; Lemniscal nucleus; Inferior colliculus (Moore, J.K. (29) 1)
CochIear response Medial olivochlear efferent; Olivocochlear bundle (Gifford, M.L. (29) 179)
Columella footplate Basilar membrane; Traveling wave; Avian hearing; Tonotopic organization; Pigeon; Mlissbauer technique (Gummer, A.W.
(29) 63)
Compound action potential Cochlear mechanics; Deconvolution; Electrical stimulation; Unit response; VIIIth nerve (Charlet de Sauvage, R. (29) 105)
Cross-link Kanamycin; Stereocilium; Co&ear hair cell; Transduction: Guinea pig (Pickles, J.O. (29) 237)
Cupular motion Fish canal lateral line; Laser interferometer microscope; Nanometer displacement range; Frequency response; Hydro- dynamical model (Van Netten, SM. (29) 55)
Deconvolutfon Cochlear mechanics; Compound action potential; Electrical stimulation; Unit response; VIIIth nerve (Charlet de Sauvage, R. (29) 105)
278
Development
Otoacoustic emission; Rat (Lenoir, M. (29) 265)
Dorsal co&km nudeus
Principal cell; Lidocaine; Inhibition (Shofner, W.P. (29) 45)
Dord medullary nudeus
Amplitude modulation; Anuran; Click; Mating call detection
(Van Stokkum, I.H.M. (29) 223)
Cochlear mechanics; Compound action potential; Deconvolu-
tion; Unit response; VIIIth nerve (Charlet de Sauvage, R. (29)
105)
Single fiber; Auditory nerve; Spatial selectivity; Multiple elec- trode; Cochlear implant (Van den Honert, C. (29) 195)
Auditory nerve; Single fiber; Temporal pattern; Waveform
(Van den Honert, C. (29) 207)
Stria vascularis; Marginal cell; ATPaae, (Na + K)-; Intracellu-
lar resting potential; Marginal cell model; Perilymphatic perfu-
sion (Offner, F.F. (29) 117)
Guinea pig; Perilymph; Potassium-selective microelectrode
(Runhaar, G. (29) 93)
Vasopressin; Sucrose; Perilymph; Cerebral lateral ventricle
(Sziklai, I. (29) 245)
Endoryllppbntir- Acoustic overstimulation; Cochlear damage (Fredelius, L. (29)
139)
Fsdlitlhll
Auditory nerve; Synaptic transmission (Siegel, J.H. (29) 169)
Fish canal IateraI line
Laser interferometer microscope; Cupular motion; Nanometer
displacement range; Frequency response; Hydmdynamical
model (Van Netten, S.M. (29) 55)
Fish canal lateral line; Laser interferometer microscope; Cupu-
lar motion; Nanometer displacement range; Hydrodynamical
model (Van Netten, S.M. (29) 55)
Frapency selectivity Psychophysical tuning curve; Hair cell, outer (Smith, D.W.
(29) 125)
GABA Muscimol; Bicuculline; Picrotoxin; Hair oell; Vestibular sys-
tem (Vega, R. (29) 163)
Guinea pig
Endolymph; Perilymph; Potassium-selective microelectrode
(Runhaar, G. (29) 93)
Kanamycin; Stereocilium; Cross-link; Co&ear hair cell;
Transduction (Pickles, J.O. (29) 237)
Hair cell
GABA; Muscimol; Bicuculline; Picrotoxin; Vestibular system
(Vega, R. (29) 163)
Hair cell, outer
Frequency selectivity; Psychophysical tuning curve (Smith,
D.W. (29) 125)
HistoImtboIugy
Interrupted noise exposure; Inner ear (Bohne, B.A. (29) 251)
HUIllJUlhilhStelll
Cochlear nucleus; Superior olivary complex; Lemniscal
nucleus; Inferior colliculus (Moore, J.K. (29) 1)
Auditory evoked potential (Moore, J.K. (29) 33)
Hydrodynamicad mudel
Fish canal lateral line; Laser interferometer microscope; Cupu-
lar motion; Nanometer displacement range; Frequency re-
sponse (Van Netten, S.M. (29) 55)
Inferior eollieuh~~
Human brain stem; Co&ear nucleata; Superior olivary com-
plex; Lemniscal nucleus (Moore, 3.K. (29) 1)
Inhibition
Dorsal co&ear nucleus; Principal cell; Lidwaine (Shofner,
W.P. (29) 45)
Innerear Interrupted noise exposure; Histopathology (Bohne, B.A. (29)
251)
InteMpted~expclsure Histopathology; Inner ear (Bohne, B.A. (29) 251)
lntr8teeWarrestingpotential Endocochlear potential; Stria vascularis; Marginal cell;
ATPaw, (Na + K)-; Marginal cell model; Perilympharic perfu-
sion (Offner, F.F. (29) 117)
Stereocilium; Cross-link; Cochlear hair cell; Transduction;
Guinea pig (Pickles, J.O. (29) 237)
Lnser interf~ter mhowope Fish canal lateral line; Cupular motion; Nanometer displace-
ment range; Frequency response; Hydrodynamical model
(Van Netten, S.M. (29) 55)
219
Lateraliiation Selective noise delay: Binaural hearing (Amenta III, C.A. (29) 147)
LemniwaI nucleus Human brain stem; Cochlear nucleus; Superior olivary com-
plex; Inferior colliculus (Moore, J.K. (29) 1)
Lidocaine Dorsal cochlear nucleus; Principal cell; Inhibition (Shofner,
W.P. (29) 45)
Marginal cell Endocochlear potential; Stria vascularis; ATPase, (Na + K)-;
Intracellular resting potential; Marginal cell model; Peri-
lymphatic perfusion (Offner, F.F. (29) 117)
Marginal cell model Endococblear potential; Stria vascularis; Marginal cell;
ATPase, (Na + K)-; Intracellular resting potential; Peri-
lymphatic perfusion (Offner, F.F. (29) 117)
Mating call detection Amplitude modulation; Anuran; Click; Dorsal medullary
nucleus (Van Stokkum, I.H.M. (29) 223)
MediaI olivocblear efferent Cochiear response; Olivocochlear bundle (Gifford, M.L. (29)
179)
M&ssbauer technique Basilar membrane; Travehng wave; Avian hearing; Tonotopic
organization; Pigeon: Columeila footplate (Gummer. A.W.
(29) 63)
Multiple electrode Electrical stimulation; Single fiber; Auditory nerve; Spatial
selectivity; Co&ear implant (Van den Honert, C. (29) 195)
Muscimol GABA; Bicuculline; Picrotoxin; Hair cell; Vestibular system
(Vega, R. (29) 163)
Nanometer displacement range Fish canal lateral Iine; Laser interferometer microscope; Cupu-
lar motion; Frequency response; Hydrodynamicai model
(Van Netten, SM. (29) 55)
Olivococblear bundle Medial olivochlear efferent; Co&ear response (Gifford, M.L.
(29) 179)
Otoacoustic emission Development; Rat (Lenoir, M. (29) 265)
Perilymph Guinea pig; Endolymph; Potassium-selective microelectrode
(Runbaar, G. (29) 93)
Vasopressin; Sucrose; Endolymph; Cerebral lateral ventricle
(Sziklai, I. (29) 245)
Pe~lym~tic perfusion Endocochlear potential; Stria vasculatis; Marginal cell;
ATPase, (Na i- IQ-; IntraceBuIar resting potential; Marginat
cell model (Offner, F.F. (29) 117)
Pierotoxin
GABA; Muscimol; Bicuculline; Hair cell; Vestibular system
(Vega, R. (29) 163)
Pigeon Basilar membrane; Traveling wave; Avian hearing; Tonotopic
organization; Columelia footplate; Mijssbauer technique
(Gummer, A.W. (29) 63)
Po~si~-alive microelectrode Guinea pig; Endolymph; Perilymph (Runhaar, G. (29) 93)
Principal ceil
Dorsal cochlear nucleus; Lidocaine; Inhibition (Shofner, W.P.
(29) 45)
Psychophysical tuning curve Frequency selectivity: Hair cell, outer (Smith, D.W. (29) 125)
Rat Otoacoustic emission; Devetopment (Lenoir, M. (29) 265)
Selective noise delay Lateralization; Binaural hearing (Amenta III. CA. (29) 147)
Single fiber Electrica stimulation; Auditory nerve; Spatial selectivity; MuI-
tiple electrode; Cochlear implant (Van den Hone& C. (29)
195)
Auditory nerve; Electrical stimulation; Temporal pattern:
Waveform (Van den Honert, C. (29) 207)
Spatial selectivity Electrical stimulation; Single fiber; Auditory nerve; Multiple
electrode; Cochlear implant (Van den Honert, C. (29) 195)
Stereoeilium Kanamycin; Cross-link; Co&ear hair cell: Transduction;
Guinea pig (Pickles, J.O. (29) 237)
Stria vascularis Endocochlear potential; Marginal cell; ATPase. (Na + K)-; Intracellular resting potential; Marginal cell model; Per-
ilymphatic perfusion (Offner, F.F. (29) 117)
Sucrose
Vasopressin; Endolymph; Perilymph; Cerebral lateral ventricle
(Sziktai, I. (29) 245)
280
Superior olivary complex
Human brain stem; Co&ear nucleus; Lemniscal nucleus; In-
ferior colliculus (Moore, J.K. (29) 1)
Synaptic tranamiaalon
Facilitation; Auditory nerve (Siegel, J.H. (29) 169)
Temporal pattern Auditory nerve; Electrical stimulation; Single fiber; Waveform
(Van den Honert, C. (29) 207)
Tonotopic organization Basilar membrane; Traveling wave; Avian hearing; Pigeon;
Columella footplate; Massbatter technique (Gummer, A.W.
(29) 63)
Tmnsduchn Kanamycin; Stereocilium; Cross-link; Co&ear hair cell;
Guinea pig (Pickles, J.O. (29) 237)
Traveling wave Basilar membrane; Avian hearing; Tonotopic organization;
Pigeon; Columella footplate; Miksbauer technique (Gummer,
A.W. (29) 63)
Unit response Cochlear mechanics; Compound action potential; Deconvolu-
tion; Electrical stimulation; VIIIth nerve (Charlet de Sauvage.
R. (29) 105)
VtlSOpfeSSiU
Sucrose; Endolymph; Perilympb; Cerebral lateral ventricle (Sziklai, I. (29) 245)
Vestihular system GABA; Muscimol; Bicuculline; Picrotoxin; Hair cell (Vega, R.
(29) 163)
VIIIth nerve
Co&dear mechanics; Compound action potential; Deconvolu-
tion; Electrical stimulation; Unit response (Charlet de Sauvage,
R. (29) 105)
Waveform Auditory nerve; Electrical stimulation; Single fiber; Temporal
pattern (Van den Honert, C. (29) 207)