ebook img

Hearing Research 2000: Vol 140 Index PDF

6 Pages·2000·1.3 MB·English
by  
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Hearing Research 2000: Vol 140 Index

Hearing Research 140 (2000) 216-217 www.elsevier.com/locate/heares Author Index Volume 140 Afman, C.E., see Kaltenbach, J.A. (140) 165 Ichimiya, I., see Suko, T. (140) 137 Andéol, G., see Maison, S. (140) 111 Iro, H., see Zenk, J. (140) 157 Andersson, A., see Ekborn, A. (140) 38 Anniko, M., see Takumida, M. (140) 91 Javel, E. and Shepherd, R.K. Araki, K., see Hoshino, T. (140) 145 Electrical stimulation of the auditory nerve. III. Response initiation sites Araki, S., see Hoshino, T. (140) 145 and temporal fine structure (140) 45 Avan, P., see Biiki, B. (140) 202 Avan, P., Biki, B., Maat, B., Dordain, M. and Wit, H.P. Kakigi, A., see Takeda, T. (140) | Middle ear influence on otoacoustic emissions. I: Noninvasive investi- Kaltenbach, J.A., see Zhang, J.S. (140) 7 gation of the human transmission apparatus and comparison with mod- Kaltenbach, J.A. and Afman, C.E. el results (140) 189 Hyperactivity in the dorsal cochlear nucleus after intense sound expo- sure and its resemblance to tone-evoked activity: a physiological model Brew, H.M., see Grigg, J.J. (140) 77 for tinnitus (140) 165 Biki, B., see Avan, P. (140) 189 Kitano, H., see Takeda, T. (140) | Biki, B., Chomicki, A., Dordain, M., Lemaire, J.-J.. Wit, H.P., Chazal, J. Korada, S. and Schwartz, I.R. and Avan, P. Calcium binding proteins and the AMPA glutamate receptor subunits in Middle-ear influence on otoacoustic emissions. II: Contributions of gerbil cochlear nucleus (140) 23 posture and intracranial pressure (140) 202 Késsl, M., see Faulstich, M. (140) 99 Carlyon, R.P. Laurell, G., see Ekborn, A. (140) 38 Detecting coherent and incoherent frequency modulation (140) 173 Lemaire, J.-J., see Biiki, B. (140) 202 Chazal, J., see Biiki, B. (140) 202 Chomicki, A., see Biiki, B. (140) 202 Maat, B., see Avan, P. (140) 189 Collet, L., see Maison, S. (140) 111 Maison, S., Micheyl, C., Andéol, G., Gallégo, S. and Collet, L. Activation of medial olivocochlear efferent system in humans: influence Delb, W., see Zenk, J. (140) 157 of stimulus bandwidth (140) 111 Devau, G. Micheyl, C., see Maison, S. (140) 111 Glycine induced calcium concentration changes in vestibular type I sen- Miller, J.M., see Prieskorn, D.M. (140) 212 sory cells (140) 126 Mizuta, K., see Hoshino, T. (140) 145 Dordain, M., see Avan, P. (140) 189 Mogi, G., see Suko, T. (140) 137 Dordain, M., see Biiki, B. (140) 202 Morita, H., see Hoshino, T. (140) 145 Ehrsson, H., see Ekborn, A. (140) 38 Nishiyama, N., Hardie, N.A. and Shepherd, R.K. Ekborn, A., Laurell, G., Andersson, A., Wallin, 1, Eksborg, S. and Ehrs- Neonatal sensorineural hearing loss affects neurone size in cat auditory son, H. midbrain (140) 18 Cisplatin-induced hearing loss: influence of the mode of drug adminis- tration in the guinea pig (140) 38 Okada, T., see Takeda, T. (140) | Eksborg, S., see Ekborn, A. (140) 38 Popa, R., see Takumida, M. (140) 91 Faulstich, M. and Késsl, M. Prieskorn, D.M. and Miller, J.M. Evidence for multiple DPOAE components based upon group delay of Technical report: chronic and acute intracochlear infusion in rodents the 2/;—/> distortion in the gerbil (140) 99 (140) 212 Gallego, S., see Maison, S. (140) 111 Scheffler, D., see Zenk, J. (140) 157 Gao, J., see Hoshino, T. (140) 145 Scheffler, P., see Zenk, J. (140) 157 Grigg, J.J.. Brew, H.M. and Tempel, B.L. Schwartz, I.R., see Korada, S. (140) 23 Differential expression of voltage-gated potassium channel genes in Shepherd, R.K., see Nishiyama, N. (140) 18 auditory nuclei of the mouse brainstem (140) 77 Shepherd, R.K., see Javel, E. (140) 45 Suko, T., Ichimiya, I., Yoshida, K., Suzuki, M. and Mogi, G. Hardie, N.A., see Nishiyama, N. (140) 18 Classification and culture of spiral ligament fibrocytes from mice (140) Hoshino, T., Mizuta, K., Gao, J., Araki, S., Araki, K., Takeshita, T., Wu, 137 R. and Morita, H. Suzuki, M., see Suko, T. (140) 137 Cochlear findings in the white spotting (Ws) rat (140) 145 Takeda, S., see Takeda, T. (140) | PII: S0378-5955(00)00008-3 Author Index Volume 140 217 Takeda, T., Takeda, S., Kitano, H., Okada, T. and Kakigi, A. Wu, R.., see Hoshino, T. (140) 145 Endolymphatic hydrops induced by chronic administration of vasopres- sin (140) | Yoshida, K., see Suko, T. (140) 137 Takeshita, T., see Hoshino, T. (140) 145 Takumida, M., Anniko, M., Popa, R. and Zhang, D.M. Zenk, J., Scheffler, D., Scheffler, P., Delb, W. and Iro, H. Lipopolysaccharide-induced expression of inducible nitric oxide The influence of noise on blood flow in the basilar artery (BA) — mea- synthase in the guinea pig organ of Corti (140) 91 surements with transcranial color-coded duplex sonography (TCCD) Tempel, B.L., see Grigg, J.J. (140) 77 (140) 157 Zhang, D.M., see Takumida, M. (140) 91 Wallin, I., see Ekborn, A. (140) 38 Zhang, J.S. and Kaltenbach, J.A. Wit, H.P., see Avan, P. (140) 189 Modulation of spontaneous activity by acetylcholine receptors in the rat Wit, H.P., see Biiki, B. (140) 202 dorsal cochlear nucleus in vivo (140) 7 Hearing Research 140 (2000) 218-220 www.elsevier.com locate heares Subject Index Volume 140 Afferent deprivation Carbachol Auditory system; Inferior colliculus; Neonatal deafness; Soma area Dorsal cochlear nucleus: Spontaneous activity; Atropine; Muscarinic re- (Nishiyama, N. (140) 18) ceptors; Rat; Cholinergic (Zhang, J.S. (140) 7) Cerebral blood flow AMPA receptor Cochlear blood flow: Transcranial color-coded duplex sonography; Basi- Cochlear nucleus; Calcium binding protein; Colocalization (Korada, S. lar artery; Noise exposure (Zenk, J. (140) 157) (140) 23) Cholinergic Atropine Dorsal cochlear nucleus; Spontaneous activity; Carbachol; Atropine; Dorsal cochlear nucleus; Spontaneous activity; Carbachol; Muscarinic Muscarinic receptors; Rat (Zhang, J.S. (140) 7) receptors; Rat; Cholinergic (Zhang, J.S. (140) 7) Cisplatin Auditory nerve fiber Pharmacokinetics; Ototoxicity; Nephrotoxicity (Ekborn, A. (140) 38) Electrical stimulation; Cochlear implant (Javel, E. (140) 45) Cochlea Auditory system Bandwidth: Human: Medial olivocochlear Efferent: Noise; Otoacoustic Afferent deprivation; Inferior colliculus; Neonatal deafness; Soma area emission (Maison, S. (140) 111) (Nishiyama, N. (140) 18) Caldesmon; Immunocytochemistry; S-100 protein; Na-K-ATPase; Ultra- Kv channel; Gene expression; In situ hybridization; Shaker: Shaw structure (Suko, T. (140) 137) (Grigg. J.J. (140) 77) White spotting rat; Stria vascularis: Hair cell; Melanocyte (Hoshino, T. Bacterial lipopolysaccharide (140) 145) Nitric oxide: Inducible nitric oxide synthase: Organ of Corti: Immuno- histochemistry; Guinea pig (Takumida, M. (140) 91) Cochlear amplifier Otoacoustic emission; Cochlear non-linearity; DPOAE (Faulstich, M. Bandwidth (140) 99) Cochlea: Human: Medial olivocochlear Efferent: Noise: Otoacoustic Cochlear blood flow emission (Maison, S. (140) 111) Cerebral blood flow; Transcranial color-coded duplex sonography; Basi- lar artery; Noise exposure (Zenk, J. (140) 157) Basilar artery Cerebral blood flow: Cochlear blood flow: Transcranial color-coded du- Cochlear implant plex sonography: Noise exposure (Zenk, J. (140) 157) Auditory nerve fiber; Electrical stimulation (Javel, E. (140) 45) Bolus injection Cochlear non-linearity Intracochlear infusion; Osmotic pump; Hearing: Rodent (Prieskorn, Otoacoustic emission; Cochlear amplifier; DPOAE (Faulstich, M. (140) D.M. (140) 212) 99) Calcium Cochlear nucleus N-Methyl-p-aspartate; Glycine; Vestibular sensory cell; Guinea pig (De- Plasticity; Spontaneous activity; Tinnitus; Noise-induced hearing loss: vau, G. (140) 126) Noise-induced tinnitus (Kaltenbach, J.A. (140) 165) Calcium binding protein AMPA receptor; Calcium binding protein: Colocalization (Korada, S. Cochlear nucleus; AMPA receptor; Colocalization (Korada, S. (140) 23) (140) 23) Caldesmon Colocalization Cochlea; Immunocytochemistry; S-100 protein; Na-K-ATPase; Ultra- Cochlear nucleus; AMPA receptor; Calcium binding protein (Korada, S. structure (Suko, T. (140) 137) (140) 23) PII: SO0378-5955(00)00009-5 Subject Index Volume 140 219 Distortion Inducible nitric oxide synthase Otoacoustic emission; Middle ear impedance; Stapedius reflex; Middle ear Nitric oxide; Bacterial lipopolysaccharide; Organ of Corti; Immunohisto- pressure (Avan, P. (140) 189) chemistry; Guinea pig (Takumida, M. (140) 91) Posture; Intracranial pressure; Otoacoustic emission; Middle-ear impe- Inferior colliculus dance; Hydrocephalus (Biiki, B. (140) 202) Afferent deprivation; Auditory system; Neonatal deafness; Soma area (Nishiyama, N. (140) 18) Dorsal cochlear nucleus Spontaneous activity; Carbachol; Atropine; Muscarinic receptors; Rat: Intracochlear infusion Cholinergic (Zhang, J.S. (140) 7) Osmotic pump; Bolus injection; Hearing; Rodent (Prieskorn, D.M. (140) 212) DPOAE Otoacoustic emission; Cochlear amplifier; Cochlear non-linearity (Faul- Intracranial pressure stich, M. (140) 99) Posture; Otoacoustic emission; Distortion; Middle-ear impedance: Hy- drocephalus (Biiki, B. (140) 202) Electrical stimulation Auditory nerve fiber; Cochlear implant (Javel, E. (140) 45) Kv channel Auditory system; Gene expression; In situ hybridization; Shaker; Shaw Endolymphatic hydrops (Grigg, J.J. (140) 77) Vasopressin; Meniere’s disease (Takeda, T. (140) 1) Medial olivocochlear Efferent Frequency modulation Bandwidth: Cochlea: Human: Noise: Otoacoustic emission (Maison, S. Pitch; Perceptual asymmetry (Carlyon, R.P. (140) 173) (140) 111) Gene expression Melanocyte Auditory system: Kv channel; In situ hybridization; Shaker; Shaw Cochlea; White spotting rat; Stria vascularis; Hair cell (Hoshino, T. (140) (Grigg, J.J. (140) 77) 145) Glycine Meniere’s disease N-Methyl-p-aspartate; Calcium; Vestibular sensory cell; Guinea pig (De- Vasopressin; Endolymphatic hydrops (Takeda, T. (140) 1) vau, G. (140) 126) Middle ear impedance Guinea pig Otoacoustic emission; Distortion; Stapedius reflex: Middle ear pressure N-Methyl-p-aspartate; Glycine; Calcium; Vestibular sensory cell (Devau, (Avan, P. (140) 189) G. (140) 126) Middle ear pressure Nitric oxide; Inducible nitric oxide synthase; Bacterial lipopolysaccharide: Otoacoustic emission; Distortion; Middle ear impedance: Stapedius reflex Organ of Corti; Immunohistochemistry (Takumida, M. (140) 91) (Avan, P. (140) 189) Hair cell Middle-ear impedance Cochlea; White spotting rat; Stria vascularis; Melanocyte (Hoshino, T. Posture; Intracranial pressure; Otoacoustic emission; Distortion; Hydro- (140) 145) cephalus (Biiki, B. (140) 202) Hearing Muscarinic receptors Intracochlear infusion; Osmotic pump: Bolus injection; Rodent (Pries- korn, D.M. (140) 212) Dorsal cochlear nucleus: Spontaneous activity: Carbachol: Atropine: Rat; Cholinergic (Zhang, J.S. (140) 7) Human Na-K-ATPase Bandwidth: Cochlea; Medial olivocochlear Efferent: Noise: Otoacoustic emission (Maison, S. (140) 111) Caldesmon; Cochlea; Immunocytochemistry; S-100 protein; Ultrastruc- ture (Suko, T. (140) 137) Hydrocephalus Posture; Intracranial pressure; Otoacoustic emission; Distortion; Middle- Neonatal deafness ear impedance (Biiki, B. (140) 202) Afferent deprivation; Auditory system; Inferior colliculus; Soma area (Nishiyama, N. (140) 18) Immunocytochemistry Caldesmon; Cochlea; S-100 protein; Na-K-ATPase; Ultrastructure Nephrotoxicity (Suko, T. (140) 137) Cisplatin; Pharmacokinetics; Ototoxicity (Ekborn, A. (140) 38) Immunohistochemistry Nitric oxide Nitric oxide; Inducible nitric oxide synthase; Bacterial lipopolysaccharide : Inducible nitric oxide synthase; Bacterial lipopolysaccharide; Organ of Organ of Corti; Guinea pig (Takumida, M. (140) 91) Corti; Immunohistochemistry; Guinea pig (Takumida, M. (140) 91) In situ hybridization N-Methyl-p-aspartate Auditory system; Kv channel; Gene expression; Shaker; Shaw (Grigg, J.J. Glycine; Calcium; Vestibular sensory cell: Guinea pig (Devau, G. (140) (140) 77) 126) Subject Index Volume 140 220 Noise Rodent Bandwidth: Cochlea: Human: Medial olivocochlear Efferent; Otoacoustic Intracochlear infusion; Osmotic pump; Bolus injection; Hearing (Pries- emission (Maison, S. (140) 111) korn, D.M. (140) 212) Noise exposure S-100 protein Cerebral blood flow; Cochlear blood flow; Transcranial color-coded du- Caldesmon; Cochlea: Immunocytochemistry; Na-K-ATPase; Ultrastruc- plex sonography; Basilar artery (Zenk, J. (140) 157) ture (Suko, T. (140) 137) Noise-induced hearing loss Shaker Plasticity; Spontaneous activity; Tinnitus; Cochlear nucleus; Noise-in- Auditory system; Kv channel; Gene expression; In situ hybridization; duced tinnitus (Kaltenbach, J.A. (140) 165) Shaw (Grigg, J.J. (140) 77) Noise-induced tinnitus Shaw Plasticity; Spontaneous activity; Tinnitus; Cochlear nucleus; Noise-in- Auditory system; Kv channel; Gene expression; In situ hybridization; duced hearing loss (Kaltenbach, J.A. (140) 165) Shaker (Grigg, J.J. (140) 77) Organ of Corti Soma area Nitric oxide; Inducible nitric oxide synthase; Bacterial lipopolysaccharide;: Afferent deprivation; Auditory system; Inferior colliculus; Neonatal deaf- Immunohistochemistry; Guinea pig (Takumida, M. (140) 91) ness (Nishiyama, N. (140) 18) Osmotic pump Spontaneous activity Intracochlear infusion; Bolus injection; Hearing: Rodent (Prieskorn, Plasticity; Tinnitus; Cochlear nucleus; Noise-induced hearing loss: Noise- D.M. (140) 212) induced tinnitus (Kaltenbach, J.A. (140) 165) Otoacoustic emission Dorsal cochlear nucleus; Carbachol; Atropine: Muscarinic receptors: Bandwidth: Cochlea;: Human: Medial olivocochlear Efferent; Noise (Mai- Rat; Cholinergic (Zhang, J.S. (140) 7) son, S. (140) 111) Stapedius reflex Distortion; Middle ear impedance; Stapedius reflex; Middle ear pressure Otoacoustic emission; Distortion; Middle ear impedance; Middle ear (Avan, P. (140) 189) pressure (Avan, P. (140) 189) Posture; Intracranial pressure; Distortion; Middle-ear impedance; Hydro- Stria vascularis cephalus (Biki, B. (140) 202) Cochlea; White spotting rat; Hair cell; Melanocyte (Hoshino, T. (140) 145) Cochlear amplifier; Cochlear non-linearity; DPOAE (Faulstich, M. (140) 99) Tinnitus Plasticity; Spontaneous activity; Cochlear nucleus; Noise-induced hearing Ototoxicity loss; Noise-induced tinnitus (Kaltenbach, J.A. (140) 165) Cisplatin; Pharmacokinetics; Nephrotoxicity (Ekborn, A. (140) 38) Transcranial color-coded duplex sonography Perceptual asymmetry Cerebral blood flow; Cochlear blood flow; Basilar artery; Noise exposure Frequency modulation; Pitch (Carlyon, R.P. (140) 173) (Zenk, J. (140) 157) Pharmacokinetics Ultrastructure Cisplatin; Ototoxicity; Nephrotoxicity (Ekborn, A. (140) 38) Caldesmon; Cochlea: Immunocytochemistry; S-100 protein; Na-K-ATP- ase (Suko, T. (140) 137) Pitch Frequency modulation; Perceptual asymmetry (Carlyon, R.P. (140) 173) Vasopressin Endolymphatic hydrops; Meniere's disease (Takeda, T. (140) 1) Plasticity Spontaneous activity; Tinnitus; Cochlear nucleus; Noise-induced hearing Vestibular sensory cell loss; Noise-induced tinnitus (Kaltenbach, J.A. (140) 165) N-Methyl-p-aspartate; Glycine; Calcium; Guinea pig (Devau, G. (140) 126) Posture Intracranial pressure; Otoacoustic emission; Distortion; Middle-ear impe- White spotting rat dance; Hydrocephalus (Biiki, B. (140) 202) Cochlea; Stria vascularis; Hair cell; Melanocyte (Hoshino, T. (140) 145) Rat Dorsal cochlear nucleus; Spontaneous activity; Carbachol; Atropine; Muscarinic receptors; Cholinergic (Zhang, J.S. (140) 7)

See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.