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Hearing Research 2004: Vol 198 Index PDF

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Available online at www.sciencedirect.com ELSEVIER Hearing Research 198 (2004) 149-150 www.elsevier.com/locate/heares Author Index Volume 198 Abbas, P.J., see Miller, C.A. (198) 48, 7 Koay, G., see Heffner, H.E. (198) 146 Adrien, J.-L., see Khalfa, S. (198) 87 Kuo, S.-W., see Young, Y.-H. (198) 93 Agaeva, M Velocity discrimination of auditory image moving in vertical plane Marciano, E., see Caravelli, A. (198) 36 (198) | Martin, J., see Jerger, J. (198) 125 Miller, C.A., Abbas, P.J.. Hay-McCutcheon, M.J., Robinson, B.K Barthelemy, C., see Khalfa, S. (198) 87 Nourski, K.V. and Jeng, F.-( Beckerman, N.S., see Recanzone, G.H. (198) 116 Intracochlear and extracochlear ECAPs suggest antidromic action Bruneau, N., see Khalfa, S. (198) 87 potentials (198) 75 Caravelli, A., Pianese, L., Saulino, ¢ Di Leva, F., Sequino, | Miller, C.A., Robinson, B.K., Hetke, JI Abbas, PJ. and Nourski K.V Cocozza, S., Marciano, E. and Franzé, A Feasibility of using silicon-substrate recording electrodes within the Down-regulation of otospiralin mRNA in response to acoustic stress in guinea pig (198) 36 auditory nerve (198) 48 Casley, D., see Richardson, R.T. (198) 25 Minami, S.B., Sha, S.-H. and Schacht, J Chen, Y., see Guo, J. (198) 145 Antioxidant protection in a new animal model of cisplatin-induced ototoxicity (198) 137 Clark, G., see Richardson, R.T. (198) 25 Morest, D.K., see Munirathinam, S. (198) 99 Cocozza, S., see Caravelli, A. (198) 3¢ Munirathinam, S., Ostapoff, E.-M., Gross, J.. Kempe, G.S., Dutton Collet, L., see Khalfa, S. (198) 87 J.A. and Morest, D.K Di Leva. F.. see Caravelli. A. (198) 36 Organization of inhibitory feed-forward synapses from the dorsal Dutton. J.A.. see Munirathinam. S. (198) 99 to the ventral cochlear nucleus in the cat: a quantitative analysis of endings by vesicle morphology (198) 99 Franze, A., see Cari A. (198) 36 . Nourski, K.V., see Miller, C.A. (198) 48 Georgieff, N., see Khalfa, S. (198) 8 Goode, R.L., see Stenfelt, S. (198) 10 O'Leary, S., see Richardson, R.T. (198) 25 Gross, J., see Munirathinam, S. (198) 99 Oghalai, J.S Guo, J. and Chen, Chlorpromazine inhibits cochlear function in guinea pigs (198) 59 Hearing in American leaf-nosed bats. Ill: Art Ostapoff, E.-M., see Munirathinam, S. (198) 99 [Hearing Research 184 (2003) 113-122] (198) 145 Harada, T., see Hirai, S. (198) 41 Pianese, L., see Caravelli, A. (198) 36 Hardman, J., see Richardson, R.T. (198) 25 Hato. N.. see Stenfelt. S. (198) 10 Recanzone, G.H. and Beckerman, N.S Hav-McCutcheon. M.J.. see Miller. C.A. (198) 75 Effects of intensity and location on sound location discrimination Heffner, R.S., see Heffner, H.E. (198) 146 in macaque monkeys (198) 116 Heffner. H.E.. Heffner. R.S. and Koay. G Richardson, R.T., Wise, A., O’Leary, S.. Hardman, J., Casley, D. and Reply to the letter of J. Guo and Y. Chen (198) 146 Clark, G Hetke. J.F.. see Miller. C.A. (198) 48 [racing neurotrophin-3 diffusion and uptake in the guinea pig Hirai, S. and Harada, T cooOc hlea > (19988) ) 22 5 Morphological comparison of apoptotic with non-apoptotic dying Robinson, B.K., see Miller, C.A. (198) 48 cells in the developing inner ear of mouse embryos (198) 41 Roge, B., see Khalfa, S. (198)8 7 Jeng, | see Miller, C.A. (198) 75 Samir Zeftawi, M Jerger, J. and Martin, J MMN to natural Arabic CV syllables: |-normative data (198) 69 Hemispheric asymmetry of the right ear advantage in dichotic lis- Saulino, C., see Caravelli, A. (198) 36 tening (198) 125 Schacht, J., see Minami, S.B. (198) 137 Sequino, L., see Caravelli, A. (198) 36 Kempe, G.S., see Munirathinam, S. (198) 99 Sha, S.-H., see Minami, S.B. (198) 137 Khalfa, S., Bruneau, N., Roge, B., Georgieff, N., Veuillet, E., Adrien Stenfelt, S., Hato, N. and Goode, R.1 J.-L., Barthelemy, C. and Collet, I Round window membrane motion with air conduction and bone Increased perception of loudness in autism (198) 87 conduction stimulation (198) 10 doi: 10.1016/S0378-5955(04)003 56-9 150 futhor Index | Hearing Research 198 (2004) 149-150 Veuillet, E., see Khalfa, S. (198) 87 Young, Y.-H. and Kuo, S.-W Side-diflerence of vestibular evoked myogenic potentials in healthy Wise, A., see Richardson, R.T. (198) 25 subjects (198) 93 Available online at www.sciencedirect.com ELSEVIER Hearing Research 198 (2004) 151-153 www.elsevier.com/locate/heares Subject Index Volume 198 Air conduction Binaural acoustic stimulation Round window, Vibration pattern, Bone conduction, Middle ear re Side-diflerence, Vestibular evoked myogenic potential construction (Stenfelt, S. (198) 10) plitude, Interaural amplitude difference ratio (Young, Y Antidromic Bone conduction Auditory nerve, Electrical stimulation, Cochlear implant, Compounc Round window, Vibration tte Air conduction, Middle Carea r re action potential, Cat (Miller, C.A. (198) 75) construction (Stenfelt, S. (198) 10) Apoptosis Cat Non-apoptotic cell death, Inner ear, Mouse embryo, TUNEL method Auditory nerve, Compound action potential, Microelectroc lransmission electron microscopy (Hirai, S. (198) 41) physiology, Penetrating electrode, Peripheral C.A. (198) 48) Arabic MMN, CV syllables, Auditory pathway efta Auditory nerve, Electrical stimulati 69) ction potential, Antidromic (Miller, ¢ Attentional model Chlorpromazine Dichotic listening aural asymmetry, Interhemispheric asyn Cochlea, Electromotility, Outer hair cell, Cochlear amplifier, Salic Right-ear advanti uctural erge (Oghalai, J.S. (198) 59) Auditory center/surround Cochlea Synaptic morphometry, Vesicle morphology nv ion filt Neurotrophin-3 1, Microspheres Imaging, Tuberculo-ventral tract, Axonal 1 OC rcuits hearing loss (Richardson, R.T. (198) Temporal processing (Munirathinan lin, mRNA Auditory dynamic range elli (198) 36) \utism, Loudness, Hyperacusis (Khalfa Electromotility ter hair cell, Cochlear amplifier Auditory nerve promazine (Oghalai, J.S. (198) 59) Cat, Compound action potential, Microelectrode, Neurophysiok PPeenneettr ating 9 eelleeccttrroodde riphyehrer a ve, Silliiccono n (Mille1]r , C.A. (1|‘9 8) Cochlear amplif-i er Cochlea, Electromotility Electrical stimulation mplant, Compound action “ntial ghalai. J.S. (198) 59) Cat, Antidromic (Mill Cochlear implant Auditory pathway Auditory nerve, Electrical stimulation, Compound MMN, Arabic, CV syll im itawl ) Cat, Antidromic (Miller, C.A. (198) 75) Autism Compound action potential Auditory dynamic rang ou 3S yperacusis (Khalfa, S. (198) 87) Auditory nerve, Cat, Microelectrode, Neurophysiology, Penetrating electrode, Peripheral nerve, Silicon (Miller, C.A. (198) 48) Autoradiography Neurotrophin-3 Microspheres, Cochlea, Sensorineural hearing Auditory nerve, Electrical stimulation, Cochlear implant, Cat, Anti- loss (Richardson, R.T. (198) 25) dromic (Miller, C.A. (198) 75) Axonal tracers Convolution filters Synaptic morphometry, Vesicle morphology, Convolution filters Synaptic morphometry, Vesicle morphology, Imaging, Tuberculo- Imaging, Tuberculo-ventral tract, Auditory center/surround, Local entral tract, Axonal tracers, Auditory center/surround, Local circuits circuits, Temporal processing (Munirathinam, S. (198) 99) Temporal processing (Munirathinam, S. (198) 99) doi: 10.1016/S0378-5955(04)00357-0 152 Subject Index | Hearing Research 198 (2004) 151-153 CV syllables Loudness MMN, Arabic, Auditory pathway (Samir Zeftawi, M. (198) 69) Autism, Auditory dynamic range, Hyperacusis (Khalfa, S. (198) 87) Dichotic listening Macaque Interaural asymmetry, Interhemispheric asymmetry, Right-ear ad- Sound, Localization, Intensity (Recanzone, G.H. (198) 116) vantage, Structural model, Attentional model (Jerger, J. (198) 125) Microelectrode Differential thresholds to velocity Auditory nerve, Cat, Compound action potential, Neurophysiology Psychoacoustics, Moving sound image, Vertical plane (Agaeva, M Penetrating electrode, Peripheral nerve, Silicon (Miller, C.A. (198) 48) (198) 1) Microspheres Electrical stimulation Neurotrophin-3, “I, Cochlea, Autoradiography, Sensorineural hear- Auditory nerve, Cochlear implant, Compound action potential, Cat ing loss (Richardson, R.T. (198) 25) Antidromic (Miller, C.A. (198) 75) Middle ear reconstruction Electromotility Round window, Vibration pattern, Air conduction, Bone conduction Cochlea, Outer hair cell, Cochlear amplifier, Salicylate, Chlorproma (Stenfelt, S. (198) 10) zine (Oghalai, J.S. (198) 59) MMN Gene expression Arabic, CV syllables, Auditory pathway (Samir Zeftawi, M. (198) 69) Otospiralin, MRNA, Quantitative RT-PCR, Cochlea (Caravelli, A (198) 36) Mouse embryo Apoptosis, Non-apoptotic cell death, Inner ear, TUNEL method, Hearing loss Transmission electron microscopy (Hirai, S. (198) 41) Salicylate, Reactive oxygen species (Minami, S.B. (198) 137) Moving sound image Hyperacusis Psychoacoustics, Differential thresholds to velocity, Vertical plane Autism, Auditory dynamic range, Loudness (Khalfa, S. (198) 87) (Agaeva, M. (198) 1) 125) mRNA Neurotrophin-3, Microspheres, Cochlea, Autoradiography, Sensor Otospiralin, Quantitative RT-PCR, Cochlea, Gene expression (Car- ineural hearing loss (Richardson, R.T. (198) 25) avelli, A. (198) 36) Imaging Neurophysiology Synaptic morphometry, Vesicle morphology, Convolution filters, Tu- Auditory nerve, Cat, Compound action potential, Microelectrode berculo-ventral tract, Axonal tracers, Auditory center/surround, Local Penetrating electrode, Peripheral nerve, Silicon (Miller, C.A. (198) 48) circuits, Temporal processing (Munirathinam, S. (198) 99) Neurotrophin-3 Inner ear *I, Microspheres, Cochlea, Autoradiography, Sensorineural hearing Apoptosis, Non-apoptotic cell death, Mouse embryo, TUNEL meth- loss (Richardson, R.T. (198) 25) od, Transmission electron microscopy (Hirai, S. (198) 41) Non-apoptotic cell death Intensity Apoptosis, Inner ear, Mouse embryo, TUNEL method, Transmission Macaque, Sound, Localization (Recanzone, G.H. (198) 116) electron microscopy (Hirai, S. (198) 41) Interaural amplitude difference ratio Otospiralin Binaural acoustic stimulation, Side-difference, Vestibular evoked mRNA, Quantitative RT-PCR, Cochlea, Gene expression (Caravelli myogenic potential, Relative amplitude (Young, Y.-H. (198) 93) A. (198) 36) Interaural asymmetry Outer hair cell Dichotic listening, Interhemispheric asymmetry, Right-ear advantage Cochlea, Electromotility, Cochlear amplifier, Salicylate, Chlorproma- Structural model, Attentional model (Jerger, J. (198) 125) zine (Oghalai J.S. (198) 59) Interhemispheric asymmetry Penetrating electrode Dichotic listening, Interaural asymmetry, Right-ear advantage Auditory nerve, Cat, Compound action potential, Microelectrode, Structural model, Attentional model (Jerger, J. (198) 125) Neurophysiology, Peripheral nerve, Silicon (Miller, C.A. (198) 48) Local circuits Peripheral nerve Synaptic morphometry, Vesicle morphology, Convolution filters Auditory nerve, Cat, Compound action potential, Microelectrode Imaging, Tuberculo-ventral tract, Axonal tracers, Auditory center Neurophysiology, Penetrating electrode, Silicon (Miller, C.A. (198) 48) surround, Temporal processing (Munirathinam, S. (198) 99) Psychoacoustics Localization Moving sound image, Differential thresholds to velocity, Vertical plane Macaque, Sound, Intensity (Recanzone, G.H. (198) 116) (Agaeva, M. (198) 1) Subject Index | Hearine Research 198 (2004 Quantitative RT-PCR Structural model Otospiralin, MRNA, Cochlea, Gene expression (Caravelli, A. (198) Dichotic listening, Interaural asymmetry, Interhemispheric 36) metry, Right-ear advantage, Attentional model (Jerger, J. (198) Reactive oxygen species Synaptic morphometry Hearing loss, Salicylate (Minami, S.B. (198) 137) Vesicle morphology, Convolution filters, Imaging, Tuberculo-ventral tract, Axonal tracers, Auditory center/surround, Local circuits, Tem Relative amplitude poral processing (Munirathinam, S. (198) 99) Binaural acoustic stimulation, Side-difference, Vestibular evoked myogenic potential, Interaural amplitude difference ratio (Young Temporal processing Y.-H. (198) 93) Synaptic morphometry, Vesicle morphology, Convolution filters Imaging, Tuberculo-ventral tract, Axonal tracers, Auditory Right-car advantage surround, Local circuits (Munirathinam, S. (198) 99) Dichotic listening, Interaural asymmetry, Interhemispheric metry, Structural model, Attentional model (Jerger, J. (198) | Transmission electron microscopy Apoptosis, Non-apoptotic cell death, Inner ear, Mouse embryo : NEL method (Hirai, S. (198) 41) Round window Vibration pattern, Air conduction, Bone conduction, Middle construction (Stenfelt,, S. (198) 10) Fubbeerrccuulloo--vveennttrr:a l traacct Synaptic morphometry, Vesicle morphology, Convolution Imaging, Axonal tracers, Auditory center/surround, Local ci Salicylate : , : Temporal processing (Munirathinam, S. (198) 99) Cochlea, Electromotility, Outer hair cell, Cochlear amplifier promazine (Oghalai J.S. (198) 59) PUNEL method Apoptosis, Non-apoptotic it death Hearing loss, Reactive oxygen species (Minami, S.B , . . , _— , Transmission electron microscopy (Hirai, S. (198) 41) Sen» sorinineeuurra: l he-aarriinngg loss Vertic. al plane Neurotrophin-3 I, Microspheres, Cochlea, Autoradiography (Ri Psychoacoustics. Moving sound ima ntial thresholds chardsoS n, R.T. (198) 98) 25 25) ‘ty (Agaeva. M. (1, 98) 1) Locily Side-difference Vesicle morphology Binaural acoustic stimulation, Vestibular evoked myogenic potenti Synaptic morphometry, Convolution filters igil Tuberculk Relati' ve amplitude, Intteerraa ural ammpolliitt ude dji fferen' ce 1 ract, Axonal tracers, Auditory center/surround, : Local ¢ Y.-H. (198) 93) Temporal processing (Munirathinam, S. (198) 99) Silicon Vestibular evoked myogenic potential Auditory nerve, Cat, Compound action potential, Microelectr Binaural acoustic stimulation, Side-diflerer Relative Neurophysiology, Penetrating electré ipheral nerve (Millet Interaural amplitude difference ratio (Young, Y.-H. (198) 93) (198) 48) Vibration pattern Sound Round window conduction, Bone conduction, Middle ear re Macaque, Localization, Intensity (Recanzone, G.H. (198) 116) construction (Stenfelt, S. (198) 10)

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