Research in Vestibular Science

Original Article

Clinical Outcomes of Endolymphatic Sac Decompression Surgery in Menière’s Disease: Hee Won Seo, Young Sang Cho, Won-Ho Chung; Res Vestib Sci. 2023;22(4):97-105. Published online December 15, 2023; DOI: https://doi.org/10.21790/rvs.2023.22.4.97

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Abstract PDF: Objectives
Endolymphatic sac decompression surgery (ESDS) is one of the surgical methods for intractable Menière’s disease (MD), and it is known as a relatively safe treatment that does not cause hearing loss. However, the effectiveness and the degree of vertigo control rate of ESDS are still controversial. In this study, we aimed to evaluate the clinical outcomes of ESDS in intractable MD.
Methods
We retrospectively reviewed 33 patients who underwent ESDS for intractable MD from January 2002 to March 2022. Clinical characteristics of patients, pure tone threshold, medical treatment method, and number of vertigo attacks before and after surgery were assessed. The improvement of hearing and vertigo was evaluated according to the 1995 American Academy of Otolaryngology-Head and Neck Surgery criteria.
Results
Of the 33 patients, the average follow-up period was 21.2 months, with immediate follow-up within 2 months (28 patients), short term between 2 and 6 months (27 patients), and long term at 12 months or later (29 patients). In the immediate hearing threshold, both air conduction and bone conduction showed slight deterioration, but there was no significant change in the long-term hearing threshold. At long-term follow-up, 12 patients (41.4%) were able to live without medication, and 18 patients (62.1%) showed improvement in their vertigo symptoms. In addition, patients who showed improvement in hearing also showed improvement in vertigo at the same time.
Conclusions
ESDS in intractable MD is a relatively safe and effective treatment method for reducing vertigo attack without worsening hearing threshold.

Review

Recent Research Trend for Ménièreʼs Disease: Sung-Il Nam; Res Vestib Sci. 2017;16(2):39-46. Published online June 15, 2017; DOI: https://doi.org/10.21790/rvs.2017.16.2.39

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Abstract PDF: Ménièreʼs disease is a poorly understood disorder of the inner ear characterized by intermittent episodic vertigo, fluctuating hearing loss, ear fullness and tinnitus. In this paper, we present a review of the histopathology, cytochemistry, gene, blood-labyrinthine barrier and imaging of Ménièreʼs disease. Histopathology is significant for neuroepithelial damage with hair cell loss, basement membrane thickening, perivascular damage and microvascular damage. Cytochemical alterations are significant for altered AQP4 and AQP6 expression in the supporting cell, and altered cochlin and mitochondrial protein expression. Since the discovery of aquaporin water channels (AQP1, AQP2, AQP3, AQP4, AQP5, AQP6, AQP7 and AQP9), it has become clear that these channels play a crucial role in inner ear fluid homeostasis. Several gene studies related to Ménièreʼs disease have been published, but there is no clear evidence that Ménièreʼs disease is associated with a special gene. Currently, imaging techniques to determine the extent and presence of endolymphatic hydrops are being studied, and further studies are needed to correlate the visualization of the endolymphatic hydrops with clinical symptoms.

Original Article

Usefulness Assessment of Cochlear Hydrops Analysis Masking Procedure Test in Progress of Ménièreʼs Disease: Young-Joo Ko, Hyun Ji Kim, Dae-Young Kim, Tae-Suk Kyung, Kyu-Sung Kim; Res Vestib Sci. 2017;16(1):17-22. Published online March 15, 2017; DOI: https://doi.org/10.21790/rvs.2017.16.1.17

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Abstract PDF: Objective: There were few recent study concern about usefulness of cochlear hydrops analysis masking procedure (CHAMP) in progression of Ménièreʼs disease. The purpose of this study is to analyze changes in the CHAMP as advancement of Ménièreʼs disease.
Methods
We studied 19 cases of ‘Definite’ group of Ménièreʼs disease. We assumed progression of Ménièreʼs disease would be checked by pure tone threshold by four tone average (4PTA), low tone average (LPTA). We also compared electrocochleography (ECoG), dizziness handicap inventory (DHI), tinnitus handicap inventory (THI) as parameters for progression of Ménièreʼs disease to CHAMP latency delay and amplitude ratio. Chi-square test was used as a statistical method.
Results
In the group of patients had abnormal amplitude ratio, ECoG value were not improved, but there was not statistically significant (odds ratio [OR]=5.727, p＞0.05). Better DHI and THI score were not necessarily construed as the improvement value in the CHAMP (p＞0.05). In amplitude ratio abnormal group, 4PTA was aggravated, but not statistically significant (OR=1.5, p＞0.05). In the group of patient had abnormality in both latency delay and amplitude ratio, LPTA was relatively aggravated (OR in latency delay: 2, OR in amplitude ratio: 10); however, reveals no statistically significance between them (p＞0.05). Change of ECoG, hearing threshold including 4PTA and LPTA with progression of Ménièreʼs disease were not correlated significantly with latency delay or amplitude ratio of CHAMP.
Conclusion
We conclude that CHAMP does not reflect clinical features with progression of Ménièreʼs disease.

Reviews

Ménièreʼs Disease and Electrophysiology: Sung Huhn Kim; Res Vestib Sci. 2017;16(1):1-9. Published online March 15, 2017; DOI: https://doi.org/10.21790/rvs.2017.16.1.1

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Abstract PDF: Inner ear is composed of cochlea, vestibule, and endolymphatic sac which are enclosed by thin layer of epithelial cells. The enclosed space is filled with fluid named as endolymph where the [K^＋] is high and [Na^＋] is low. This unique ion composition is very important in maintaining normal hearing and balance function by providing K^＋ ions into sensory hair cells, which finally depolarize hair cells to facilitate the transport of sound and acceleration stimulation to central nervous system. The ion composition of inner ear is maintained by various ion transport through ion channels, transporters, and exchangers in the inner ear sensory and extra-sensory epithelium. The disruption of normal endolymphatic ion composition by the deterioration of the function of those ion channels can cause dysfunction of sensory epithelium, which consequently results in hearing and balance disorders. One of the possible pathology from the disruption of inner ear ion homeostasis is endolymphatic hydrops which is a phenomenon of excessive fluid accumulation of inner ear. The dysfunction of ion channels in inner ear epithelium can be an etiology of Ménièreʼs disease since endolymphatic hydrops is a main pathological finding of the disease. In this review, we discussed about the possible pathological mechanism of Ménièreʼs disease as a perspective of channelopathy as well as the role of various ion channels in the regulation of inner ear fluid volume based on the findings revealed by electrophysiological studies.

Experiemental Model for Ménière’s Disease Using Surgical Ablation of Endolymphatic Sac: Minbum Kim, Mi Joo Kim; Res Vestib Sci. 2016;15(4):95-100. Published online December 12, 2016; DOI: https://doi.org/10.21790/rvs.2016.15.4.95

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Abstract PDF: Endolymphatic hydrops is a representing pathologic finding of Ménière's disease. For the induction of endolymphatic hydrops in an animal model, surgical ablation of endolymphatic sac has been used. Although traditional model with the blockage of endolymphatic sac induced severe hydrops, it has several limitations for the study of pathophysiology of Ménière's disease. Recently, modified experimental models have been introduced, in which additional procedure was performed to induce the acute aggravation of hydrops after the surgical ablation. These new models could be helpful to elucidate the mechanism and develop a new treatment of Ménière's disease. In this review, we introduce the characteristics of animal models using surgical ablation of endolymphatic sac from the classical model to novel modified models.

A History for Experimental Animal Models of Endolymphatic Hydrops: Hyun Ji Kim, Kyu-Sung Kim; Res Vestib Sci. 2016;15(3):65-69. Published online September 15, 2016; DOI: https://doi.org/10.21790/rvs.2016.15.3.65

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Abstract PDF: It is known that endolymphatic hydrops is a pathophysiologic mechanism of Meniere’s disease, while the detailed role is not fully clarified. Study for endolymphatic hydrops mainly represents a pathologic histologic finding found only in the post-mortem examination of temporal bone, so endolymphatic hydrops animal models have played important role in terms of understanding how hydrops affects the function of the inner ear. Numerous challenges with diverse animals and techniques have been tried to reveal the possible pathophysiology of endolymphatic hydrops and develop an effective treatment. This review shows historical background and technical advances in experimental animal model for endolymphatic hydrops and Meniere’s disease.

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