Mechanical stress-induced reactive gliosis in the auditory nerve and cochlear nucleus

Mechanical stress-induced reactive gliosis in the auditory nerve and cochlear nucleus

Hearing levels following microsurgical treatment gradually deteriorate in a number of patients treated for vestibular schwannoma (VS), especially in the subacute postoperative stage. The cause of this late-onset deterioration of hearing is not completely understood. The aim of this study was to inve...

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Bibliographic Details
Published in:Journal of neurosurgery Vol. 114; no. 2; pp. 414 - 425
Main Authors: SEKIYA, Tetsuji, MATSUMOTO, Masahiro, ITO, Juichi, KOJIMA, Ken, ONO, Kazuya, KIKKAWA, Yayoi S, KADA, Shinpei, OGITA, Hideaki, HORIE, Rie T, VIOLA, Arpad, HOLLEY, Matthew C
Format: Journal Article
Language:English
Published: Charlottesville, VA American Association of Neurological Surgeons 01-02-2011
Subjects:
Animals
Astrocytes - pathology
Axons - pathology
Biological and medical sciences
Cochlear Nerve - pathology
Cochlear Nerve - physiopathology
Cochlear Nucleus - pathology
Cochlear Nucleus - physiopathology
Evoked Potentials, Auditory, Brain Stem - physiology
Gliosis - etiology
Gliosis - pathology
Gliosis - physiopathology
Male
Medical sciences
Microscopy, Confocal
Nerve Degeneration - etiology
Nerve Degeneration - pathology
Nerve Degeneration - physiopathology
Neurosurgery
Rats
Rats, Sprague-Dawley
Stress, Mechanical
Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases
Nervous system diseases
reactive gliosis
Cochlear nerve
Neurinoma
Cochlear nucleus
Auditory disorder
Auditory nerve
Stress
Hearing loss
auditory brainstem response
Gliosis
ENT disease
Benign neoplasm
vestibular schwannoma
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Summary:Hearing levels following microsurgical treatment gradually deteriorate in a number of patients treated for vestibular schwannoma (VS), especially in the subacute postoperative stage. The cause of this late-onset deterioration of hearing is not completely understood. The aim of this study was to investigate the possibility that reactive gliosis is a contributory factor. Mechanical damage to nerve tissue is a feature of complex surgical procedures. To explore this aspect of VS treatment, the authors compressed rat auditory nerves with 2 different degrees of injury while monitoring the compound action potentials of the auditory nerve and the auditory brainstem responses. In this experimental model, the axons of the auditory nerve were quantitatively and highly selectively damaged in the cerebellopontine angle without permanent compromise of the blood supply to the cochlea. The temporal bones were processed for immunohistochemical analysis at 1 week and at 8 weeks after compression. Reactive gliosis was induced not only in the auditory nerve but also in the cochlear nucleus following mechanical trauma in which the general shape of the auditory brainstem response was maintained. There was a substantial outgrowth of astrocytic processes from the transitional zone into the peripheral portion of the auditory nerve, leading to an invasion of dense gliotic tissue in the auditory nerve. The elongated astrocytic processes ran in parallel with the residual auditory neurons and entered much further into the cochlea. Confocal images disclosed fragments of neurons scattered in the gliotic tissue. In the cochlear nucleus, hypertrophic astrocytic processes were abundant around the soma of the neurons. The transverse diameter of the auditory nerve at and proximal to the compression site was considerably reduced, indicating atrophy, especially in rats in which the auditory nerve was profoundly compressed. The authors found for the first time that mechanical stress to the auditory nerve causes substantial reactive gliosis in both the peripheral and central auditory pathways within 1-8 weeks. Progressive reactive gliosis following surgical stress may cause dysfunction in the auditory pathways and may be a primary cause of progressive hearing loss following microsurgical treatment for VS.
ISSN:0022-3085
1933-0693