about
Distribution and development of peripheral glial cells in the human fetal cochlea.The stacked ABR: a sensitive and specific screening tool for detecting small acoustic tumorsReview of the roles of temporal and place coding of frequency in speech discrimination.Cochlear neuropathy in human presbycusis: Confocal analysis of hidden hearing loss in post-mortem tissueThe polarity sensitivity of the electrically stimulated human auditory nerve measured at the level of the brainstemAge-related cochlear synaptopathy: an early-onset contributor to auditory functional decline.Age-related primary cochlear neuronal degeneration in human temporal bones.Mechanisms contributing to central excitability changes during hearing loss.Future approaches for inner ear protection and repair.Laser stimulation of auditory neurons: effect of shorter pulse duration and penetration depth.Higher sensitivity of human auditory nerve fibers to positive electrical currents.Asymmetric pulses in cochlear implants: effects of pulse shape, polarity, and rateDoes cochlear implantation and electrical stimulation affect residual hair cells and spiral ganglion neurons?Directing neuronal cell growth on implant material surfaces by microstructuring.Empirical Derivation of Correction Factors for Human Spiral Ganglion Cell Nucleus and Nucleolus Count Units.The convergence of cochlear implantation with induced pluripotent stem cell therapy.A new approach for speech synthesis in cochlear implant systems based on electrophysiological factors.Kanamycin Damages Early Postnatal, but Not Adult Spiral Ganglion Neurons.Single-Cell Transcriptome Analysis of Developing and Regenerating Spiral Ganglion Neurons.Morphometric classification and spatial organization of spiral ganglion neurons in the human cochlea: consequences for single fiber response to electrical stimulation.Morphometric analysis of the cochlear nerve in man.Correlating the cochleovestibular deficits with tumor size of acoustic neuroma.Analysis of a purely conductance-based stochastic nerve fibre model as applied to compound models of populations of human auditory nerve fibres used in cochlear implant simulations.Structural and Ultrastructural Changes to Type I Spiral Ganglion Neurons and Schwann Cells in the Deafened Guinea Pig Cochlea.Stochastic information transfer from cochlear implant electrodes to auditory nerve fibers.Retrocochlear mass lesion in mid-frequency sudden deafness.Three-year follow-up of children with postmeningitic deafness and partial cochlear implant insertion.Enhancement of vowel coding for cochlear implants by addition of noise.The human spiral ganglion: new insights into ultrastructure, survival rate and implications for cochlear implants.Inner ear structure of miniature pigs measured by multi-planar reconstruction techniques.Persistent Auditory Nerve Damage Following Kainic Acid Excitotoxicity in the Budgerigar (Melopsittacus undulatus).Conservation of low-frequency hearing in cochlear implantationPrediction of Speech Recognition in Cochlear Implant Users by Adapting Auditory Models to Psychophysical Data
P2860
Q21132328-F989586B-B6A6-4AB3-B006-443DA11FBCF6Q28253685-9B96943F-BD45-4A4D-B271-6B4EAEB94667Q30322851-FB2E09C8-AD15-42AF-B058-02C3808134BDQ30375216-81CA840A-E4C4-4133-87E5-A11029A72BEDQ30437571-BB51A432-7F07-48F1-AADD-AF6672C6404CQ30442794-AFF05FE1-FDC2-4980-987C-A8A7D22C8A59Q30460331-5416EBA8-A1B0-41E3-9C86-19D715030CB3Q30466850-50C48EA6-19C2-40B1-8976-8C8DDED19862Q30474951-415BF016-87CA-408D-B5A2-207B500E7577Q30490159-E77E0C27-2237-4765-BBAE-4E1BD2226BA5Q30492472-C05F468E-9011-4148-85F6-136F7CF4EAB0Q30492559-B18223DB-B8DC-4383-BE39-791B7062ADB5Q30499054-F21B1C47-564B-4BDD-A481-7DA891A27BB8Q34144407-615D18EA-4416-4250-B6AB-3A2EFB42A6A1Q35778066-6EC1DC77-2E26-428A-9B59-3302CC14B0BAQ37940262-F4A42FBD-30F7-4AF3-9FF1-21B890F2930AQ39334906-2B14208D-218F-4C4E-8167-62C134D4136EQ40155517-0B0B1590-39D8-4467-9FCF-C1180CC4ED5FQ41639459-787CAC31-75CB-4099-8EB8-B0AD12083377Q42205975-106E5FC2-48E0-44A8-BDD1-659F0B0FC942Q44468399-C6ABDC87-6FD9-44E8-93F8-C9BADF768A09Q47228864-B4A468A6-CD33-4B05-A8C3-ED78534996AEQ47417421-4A89D5FC-8E6D-412F-AF0E-0757FFD17FD5Q48111142-E2DA2981-E7F4-4185-B6DD-1E9765D7F04BQ48547929-39A05904-250D-4890-802B-07A23101C27EQ50453862-D194B9D1-A139-44A3-A0EA-7EF18E1C9AD6Q50471077-27B03AEC-EDD3-4A9C-B377-CE979AF5A529Q50513979-4AA267F1-216E-4363-B4E3-FBF6A07F8F6DQ51449222-0C954E3C-FF75-4278-8D1C-85A0D9E901CEQ52595116-CFCDB067-2CE6-4A86-BDAB-DC81ABEB55B4Q54478244-25674AF8-1D6E-4660-AAC5-B92A78F86031Q58083300-E4BE8F10-EA5B-4604-A578-FA06F9BF75B8Q59248270-C2F11498-56E1-402C-B581-3C10E6FC7327
P2860
description
1989 nî lūn-bûn
@nan
1989 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1989 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1989年の論文
@ja
1989年論文
@yue
1989年論文
@zh-hant
1989年論文
@zh-hk
1989年論文
@zh-mo
1989年論文
@zh-tw
1989年论文
@wuu
name
Analysis of the human auditory nerve
@ast
Analysis of the human auditory nerve
@en
Analysis of the human auditory nerve
@nl
type
label
Analysis of the human auditory nerve
@ast
Analysis of the human auditory nerve
@en
Analysis of the human auditory nerve
@nl
prefLabel
Analysis of the human auditory nerve
@ast
Analysis of the human auditory nerve
@en
Analysis of the human auditory nerve
@nl
P1433
P1476
Analysis of the human auditory nerve
@en
P2093
H Spoendlin
P356
10.1016/0378-5955(89)90056-7
P407
P577
1989-12-01T00:00:00Z