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Review
- Light Cupula: Recent Updates
- Dong-Han Lee, Chang-Hee Kim
- Res Vestib Sci. 2023;22(2):23-33. Published online June 15, 2023
- DOI: https://doi.org/10.21790/rvs.2023.22.2.23
- 1,652 View
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Abstract
PDF - Benign paroxysmal positional vertigo (BPPV) is the most common cause of positional vertigo and nystagmus. Direction-changing positional nystagmus (DCPN), which refers to the change in the direction of nystagmus with different head positions, is a well-known characteristic of horizontal semicircular canal BPPV. The supine head roll test is commonly used to diagnose horizontal canal BPPV. However, persistent geotropic DCPN observed during this test cannot be explained by conventional mechanisms of canalolithiasis or cupulolithiasis. The concept of a “light cupula” has been proposed to account for this unique nystagmus. In this review, we summarize the historical background, clinical features and diagnostic methods, presumed mechanisms, and treatment approaches of the light cupula phenomenon based on the available literatures up to date.
Original Article
- Positional Audiometry in Patients with Light Cupula: A Preliminary Study
- Jiyeon Lee, Dong-Han Lee, Jung Eun Shin, Chang-Hee Kim
- Res Vestib Sci. 2020;19(3):89-94. Published online September 15, 2020
- DOI: https://doi.org/10.21790/rvs.2020.19.3.89
- 4,404 View
- 85 Download
- 1 Crossref
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Abstract
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- Objectives
Light cupula is characterized by persistent geotropic direction-changing positional nystagmus in a supine head-roll test. The purpose of this study is to investigate if hearing level is influenced by the change of head position in light cupula under the assumption that relative density difference similarly occurs between the tectorial membrane and endolymph.
Methods
Twelve patients with unilateral light cupula who underwent positional audiometry were included in this study. Pure tone thresholds were compared among three head positions.
Results
Hearing threshold in pure tone audiometry (PTA) of the affected ear was not different from that of the healthy ear. PTA thresholds of the affected side were not significantly different in three head positions; upright seating, cochlear apex-up, and cochlear apex-down positions.
Conclusions
Although positional change of nystagmus direction is the most significant clinical feature of light cupula, positional change of hearing level was not observed in those patients. The lack of positional influence on hearing may be explained as follows: (1) the heavier endolymph phenomenon occurs only in the vestibular end organ without involving the cochlea; (2) the light cupula phenomenon is more likely to occur due to light debris mechanism rather than heavier endolymph or lighter cupula mechanism; and (3) the effects of light cupula could be modified by outer hair cells, which work for tuning in the cochlea, even though light tectorial membrane or heavy endolymph occurs. -
Citations
Citations to this article as recorded by
- Light cupula phenomenon: a systematic review
Nilüfer Bal, Melike Altun, Elif Kuru, Meliha Basoz Behmen, Ozge Gedik Toker
The Egyptian Journal of Otolaryngology.2022;[Epub] CrossRef
- Light cupula phenomenon: a systematic review
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