Cochlear nerve demyelination causes prolongation of wave I latency in ABR of the myelin deficient (md) rat

Tetsufumi Ito; Masaharu Tokuriki; Yoshiyuki Shibamori; Takehisa Saito; Yoshiaki Nojyo

doi:10.1016/j.heares.2003.12.019

Cochlear nerve demyelination causes prolongation of wave I latency in ABR of the myelin deficient (md) rat

Tetsufumi Ito^*, Masaharu Tokuriki, Yoshiyuki Shibamori, Takehisa Saito, Yoshiaki Nojyo

^*Corresponding author for this work

Systems Function & Morphology

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

In this study, we examined the auditory brainstem responses (ABRs), distortion product of otoacoustic emissions (DPOAEs) and cochlear morphology of the myelin deficient (md) rat, which completely lacks central myelin but not peripheral myelin. ABRs showed a marked prolongation not only wave II-IV latencies but also wave I latency. Cochlear nerve fibers near the modiolus lost their myelin halfway into the internal auditory canal. DPOAEs also decreased at a lower frequency of the combined tone. Since nerve fibers ending at the apical turn of the cochlea passed through central portion of the cochlear nerve, wave I prolongation of ABRs and decrease of DPOAEs at a lower frequency might originate mainly from the demyelinated CNS part of the cochlear nerve and efferent olivocochlear bundle in the internal auditory canal.

Original language	English
Pages (from-to)	119-124
Number of pages	6
Journal	Hearing Research
Volume	191
Issue number	1-2
DOIs	https://doi.org/10.1016/j.heares.2003.12.019
State	Published - 2004/05

Keywords

Auditory brainstem responses
CNS-PNS junction
Cochlea
Distortion product of otoacoustic emission
Myelin deficient
Ultrastructure

ASJC Scopus subject areas

Sensory Systems

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10.1016/j.heares.2003.12.019

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@article{c1d0b5ac307e48f8947d75f851d5da6e,

title = "Cochlear nerve demyelination causes prolongation of wave I latency in ABR of the myelin deficient (md) rat",

abstract = "In this study, we examined the auditory brainstem responses (ABRs), distortion product of otoacoustic emissions (DPOAEs) and cochlear morphology of the myelin deficient (md) rat, which completely lacks central myelin but not peripheral myelin. ABRs showed a marked prolongation not only wave II-IV latencies but also wave I latency. Cochlear nerve fibers near the modiolus lost their myelin halfway into the internal auditory canal. DPOAEs also decreased at a lower frequency of the combined tone. Since nerve fibers ending at the apical turn of the cochlea passed through central portion of the cochlear nerve, wave I prolongation of ABRs and decrease of DPOAEs at a lower frequency might originate mainly from the demyelinated CNS part of the cochlear nerve and efferent olivocochlear bundle in the internal auditory canal.",

keywords = "Auditory brainstem responses, CNS-PNS junction, Cochlea, Distortion product of otoacoustic emission, Myelin deficient, Ultrastructure",

author = "Tetsufumi Ito and Masaharu Tokuriki and Yoshiyuki Shibamori and Takehisa Saito and Yoshiaki Nojyo",

year = "2004",

month = may,

doi = "10.1016/j.heares.2003.12.019",

language = "英語",

volume = "191",

pages = "119--124",

journal = "Hearing Research",

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T1 - Cochlear nerve demyelination causes prolongation of wave I latency in ABR of the myelin deficient (md) rat

AU - Ito, Tetsufumi

AU - Tokuriki, Masaharu

AU - Shibamori, Yoshiyuki

AU - Saito, Takehisa

AU - Nojyo, Yoshiaki

PY - 2004/5

Y1 - 2004/5

N2 - In this study, we examined the auditory brainstem responses (ABRs), distortion product of otoacoustic emissions (DPOAEs) and cochlear morphology of the myelin deficient (md) rat, which completely lacks central myelin but not peripheral myelin. ABRs showed a marked prolongation not only wave II-IV latencies but also wave I latency. Cochlear nerve fibers near the modiolus lost their myelin halfway into the internal auditory canal. DPOAEs also decreased at a lower frequency of the combined tone. Since nerve fibers ending at the apical turn of the cochlea passed through central portion of the cochlear nerve, wave I prolongation of ABRs and decrease of DPOAEs at a lower frequency might originate mainly from the demyelinated CNS part of the cochlear nerve and efferent olivocochlear bundle in the internal auditory canal.

AB - In this study, we examined the auditory brainstem responses (ABRs), distortion product of otoacoustic emissions (DPOAEs) and cochlear morphology of the myelin deficient (md) rat, which completely lacks central myelin but not peripheral myelin. ABRs showed a marked prolongation not only wave II-IV latencies but also wave I latency. Cochlear nerve fibers near the modiolus lost their myelin halfway into the internal auditory canal. DPOAEs also decreased at a lower frequency of the combined tone. Since nerve fibers ending at the apical turn of the cochlea passed through central portion of the cochlear nerve, wave I prolongation of ABRs and decrease of DPOAEs at a lower frequency might originate mainly from the demyelinated CNS part of the cochlear nerve and efferent olivocochlear bundle in the internal auditory canal.

KW - Auditory brainstem responses

KW - CNS-PNS junction

KW - Cochlea

KW - Distortion product of otoacoustic emission

KW - Myelin deficient

KW - Ultrastructure

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DO - 10.1016/j.heares.2003.12.019

M3 - 学術論文

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AN - SCOPUS:1942485916

SN - 0378-5955

VL - 191

SP - 119

EP - 124

JO - Hearing Research

JF - Hearing Research

IS - 1-2

ER -

Cochlear nerve demyelination causes prolongation of wave I latency in ABR of the myelin deficient (md) rat

Abstract

Keywords

ASJC Scopus subject areas

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