Axonal injury in auditory nerve observed in reversible latency changes of brainstem auditory evoked potentials (BAEP) during cerebellopontine angle manipulations in rats

Intraoperative monitoring of brainstem auditory evoked potentials (BAEP) has been widely utilized to reduce the incidence of postoperative hearing disturbance due to cerebellopontine angle manipulations. The prolongation of wave V of BAEP is usually used as a criterion to warn the surgeons to modify...

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Published in:Hearing research 2002-11, Vol.173 (1), p.91-99
Main Authors: Sekiya, Tetsuji, Shimamura, Norihito, Yagihashi, Akinori, Suzuki, Shigeharu
Format: Article
Language:English
Subjects:
Amyloid beta-Protein Precursor - metabolism
Animals
Auditory nerve
Axonal injury
Axons - metabolism
Axons - pathology
Biological and medical sciences
Brainstem auditory evoked potential
Cerebellopontine Angle
Cerebellum - physiology
Cochlear Nerve - metabolism
Cochlear Nerve - pathology
Electrodiagnosis. Electric activity recording
Evoked Potentials, Auditory, Brain Stem - physiology
Hearing
Intraoperative monitoring
Investigative techniques, diagnostic techniques (general aspects)
Male
Medical sciences
Nervous system
Pressure
Rats
Rats, Sprague-Dawley
Reaction Time
β-amyloid precursor protein
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creator Sekiya, Tetsuji
Shimamura, Norihito
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description Intraoperative monitoring of brainstem auditory evoked potentials (BAEP) has been widely utilized to reduce the incidence of postoperative hearing disturbance due to cerebellopontine angle manipulations. The prolongation of wave V of BAEP is usually used as a criterion to warn the surgeons to modify their surgical maneuvers. However, it is not known whether all neuropathological changes are avoided if BAEP latency intraoperatively returns to the baseline level or some neuropathological changes ‘silently’ occur even if BAEP normalizes. The aim of this study was to experimentally clarify this point that would be important for the long-term prognosis of patients’ hearing. The cerebellopontine angle portion of the auditory nerve was quantitatively compressed in the rats and reversible prolongation of BAEP latency was reproduced just as it occurs during surgery in humans. Twenty-four hours after the compression, the auditory nerve was removed for β-APP immunostaining to investigate the degree of axonal injury. The results of the present study disclosed that axonal injury occurred even in the cases where the intraoperative normalization of prolonged wave IV (equivalent to wave V in humans) latency had been obtained. Therefore, the interpretation of BAEP changes based only on the prolongation of the latency of BAEP was not enough to prevent the auditory nerve from developing morphological changes. Changes in the amplitude of wave V of BAEP appears to be more sensitive than its latency change as an intraoperative indicator for axonal injury in the auditory nerve.
doi_str_mv 10.1016/S0378-5955(02)00633-0
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ispartof Hearing research, 2002-11, Vol.173 (1), p.91-99
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1878-5891
language eng
recordid cdi_proquest_miscellaneous_72172287
source Elsevier
subjects Amyloid beta-Protein Precursor - metabolism
Animals
Auditory nerve
Axonal injury
Axons - metabolism
Axons - pathology
Biological and medical sciences
Brainstem auditory evoked potential
Cerebellopontine Angle
Cerebellum - physiology
Cochlear Nerve - metabolism
Cochlear Nerve - pathology
Electrodiagnosis. Electric activity recording
Evoked Potentials, Auditory, Brain Stem - physiology
Hearing
Intraoperative monitoring
Investigative techniques, diagnostic techniques (general aspects)
Male
Medical sciences
Nervous system
Pressure
Rats
Rats, Sprague-Dawley
Reaction Time
β-amyloid precursor protein
title Axonal injury in auditory nerve observed in reversible latency changes of brainstem auditory evoked potentials (BAEP) during cerebellopontine angle manipulations in rats
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