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Volume 23 (3); September 2024
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Review Articles
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Smartphones versus goggles for video-oculography: current status and future direction
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Pouya Barahim Bastani, Shervin Badihian, Vidith Phillips, Hector Rieiro, Jorge Otero-Millan, Nathan Farrell, Max Parker, David Newman-Toker, Ali Saber Tehrani
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Res Vestib Sci. 2024;23(3):63-70. Published online September 15, 2024
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DOI: https://doi.org/10.21790/rvs.2024.009
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Abstract
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- Assessment of eye movements is the cornerstone of diagnosing vestibular disorders and differentiating central from peripheral causes of dizziness. Nonetheless, accurate assessment of eye movements is challenging, especially in the emergency department and primary care settings. To overcome this challenge, clinicians objectively measure eye movements using devices like video-oculography (VOG) goggles, which provide a video recording of the eye and quantified eye position traces. However, despite the value of VOG goggles in studying eye movements, barriers such as high prices and the need for dedicated operators have limited their use to subspecialty clinics. Recent advancements in the hardware and software of smartphones have positioned them as potential alternatives to VOG goggles that can reliably record and quantify eye movements. Although currently not as accurate as VOG goggles, smartphones can provide a cheap, widely available tool that can be used in various medical settings and even at home by patients. We review the current state and future directions of the devices that can be used for recording and quantifying eye movements.
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Review on the impact of spaceflight stressors on the vestibular system: beyond microgravity to space radiation
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Hui Ho Vanessa Chang, Kyu-Sung Kim
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Res Vestib Sci. 2024;23(3):71-78. Published online September 15, 2024
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DOI: https://doi.org/10.21790/rvs.2024.013
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Abstract
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- Understanding the effects of microgravity on the vestibular system has been a primary focus of space research, driven by the need to counteract the often-debilitating impacts of altered gravity environments and maintain operational performance in space. Research using both space-based and ground-based models has identified structural and functional changes in the vestibular system, highlighting its significant capacity for sensorimotor adaptation. As human space exploration progresses towards missions beyond low Earth orbit for extended periods, additional stressors, such as space radiation, may impact the vestibular system. Early studies on space radiation using animal models and insights from radiotherapy have shown that the vestibular system is more vulnerable to radiation than previously understood. This paper provides a brief review of (1) dysfunctions in spatial orientation, gaze stabilization, posture, and locomotion observed in astronauts; (2) ground-based experiments on animals that likely explain these vestibular and sensorimotor dysfunctions; and (3) studies examining the effects of radiation on the vestibular system and its implications for vestibular function in space.
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Treatment of hemodynamic orthostatic dizziness/vertigo
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Hyun Ah Kim
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Res Vestib Sci. 2024;23(3):79-88. Published online September 15, 2024
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DOI: https://doi.org/10.21790/rvs.2024.017
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Abstract
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- Orthostatic dizziness occurs when a person feels dizzy or lightheaded upon standing up. Hemodynamic orthostatic dizziness can result from autonomic dysfunction, such as orthostatic hypotension or postural tachycardia syndrome. The International Classification of Vestibular Disorders has established diagnostic criteria for hemodynamic orthostatic dizziness/vertigo. These criteria help clinicians understand the terminology associated with orthostatic dizziness/vertigo and differentiate it from dizziness caused by global brain hypoperfusion and other etiologies. Effective treatment involves interpreting the results of autonomic function tests, which can lead to improvements in orthostatic dizziness and help prevent falls related to this condition. This paper discusses general management strategies and specific treatments for orthostatic hypotension and postural tachycardia syndrome, highlighting the importance of tailored care based on the most recent clinical insights.
Original Articles
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Does dimenhydrinate delay recovery of vestibular ocular reflex in acute unilateral vestibulopathy? A retrospective comparative study
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Minah Shin, Chae-Young Kim, Ji Eun Choi, Jae Yun Jung, Min Young Lee
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Res Vestib Sci. 2024;23(3):89-94. Published online September 15, 2024
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DOI: https://doi.org/10.21790/rvs.2024.006
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Abstract
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- Objectives
Acute unilateral vestibulopathy (UVP), also known as vestibular neuritis, is the third most common peripheral vestibulopathy. The acute autonomic symptoms of UVP can be controlled by the H1-receptor antagonist dimenhydrinate. Despite concerns about prolonged recovery from suppressed vestibular compensation when using dimenhydrinate, research is limited. Thus, we investigated the effect of dimenhydrinate on the recovery of UVP patients.
Methods
We retrospectively analyzed patients who were diagnosed with UVP from April 2018 to April 2022. The patients were divided into those who were prescribed dimenhydrinate during admission and those who were not. Recovery from UVP was defined subjectively and objectively. Subjective recovery (SR) had occurred in a patient whose dizziness clearly subsided. Objective recovery (OR) was used when the video head-impulse test (VHIT) or rotary chair test (RCT) no longer indicated vestibular dysfunction.
Results
Dimenhydrinate was prescribed to 15 patients (19.0%) during admission. The dimenhydrinate group had smaller proportions of SR and OR at 3 months after diagnosis of UVP. In terms of VHIT, the non-dimenhydrinate group had a greater increase in gain for the 3 months than the dimenhydrinate group in the semicircular canals when measured by the VHIT. The difference in gain between the two groups was significant at 0.16 Hz during follow-up RCT.
Conclusion
These results suggest that dimenhydrinate should be carefully used in UVP patients as it may have a negative effect on vestibular compensation.
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Comparison of the outcomes of treatment with an oral diuretics with steroid and steroid only for acute low-tone hearing loss: a prospective randomized controlled trial
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Seok Min Hong, Yeso Choi, Sung Min Park, Jae Yong Byun
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Res Vestib Sci. 2024;23(3):95-100. Published online September 15, 2024
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DOI: https://doi.org/10.21790/rvs.2024.012
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Abstract
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- Objectives
This study aimed to compare the efficacy of a combined steroid and diuretic (isosorbide) treatment with that of steroid-only treatment in patients with acute low-tone sensorineural hearing loss (ALHL).
Methods
A total of 34 patients with ALHL were recruited between January 2018 and December 2019 and randomized into two groups: a steroid-with-diuretic (isosorbide) group and a steroid-only group. The steroid-with-diuretic group received oral methylprednisolone for 10 days and isosorbide for 14 days, while the steroid-only group received methylprednisolone for 10 days. Hearing outcomes were measured using pure-tone audiometry at 8 weeks posttreatment. The outcomes were the absolute hearing gain at low frequencies (125, 250, and 500 Hz) and the recovery rate, which was classified into complete, partial, unchanged, progressive, and fluctuating.
Results
Of 34 patients, 30 (15 in each group) were analyzed. No significant differences were observed in baseline characteristics between the groups. The steroid-with-diuretic group showed higher absolute hearing gains at all three low frequencies than the steroid-only group, but the differences were not statistically significant complete recovery was observed in 13 patients in each group, with partial recovery in two patients in the steroid-with-diuretic group and unchanged outcomes in two patients in the steroid-only group. No patient exhibited disease progression.
Conclusions
Although combined steroid and diuretic therapy yielded better hearing outcomes than steroid-only therapy, the differences were not statistically significant. Further studies with larger sample sizes and extended follow-up periods are necessary to confirm these findings.
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Saccadic oscillations as a possible indicator of dizziness due to choline esterase inhibitors: an observational study with video-oculography
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Ileok Jung, Moon-Ho Park, Ji-Soo Kim
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Res Vestib Sci. 2024;23(3):101-105. Published online September 15, 2024
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DOI: https://doi.org/10.21790/rvs.2024.015
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Abstract
PDFSupplementary Material
- Introduction: Cholinesterase inhibitors (ChEIs) are widely used to treat mild to moderate Alzheimer disease and vascular dementia. Even though dizziness due to medication of ChEIs has been ascribed to adverse effects on the cardiovascular or central nervous system, the mechanisms remain unclear and objective indicators are not available.
Methods
We recorded the eye movements using video-oculography in three patients who developed dizziness and unsteadiness after initiation or increment of ChEI, donepezil (Aricept).
Results
The patients showed frequent saccadic oscillations that improved after discontinuation of ChEI.
Conclusions
Frequent saccadic oscillations may be an indicator of dizziness in patients taking ChEIs.
Case Reports
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Fluctuating high-frequency hearing loss with vertigo: is it Menière’s disease? A case report
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Minho Jang, Dong-Han Lee, Jiyeon Lee, Chang-Hee Kim
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Res Vestib Sci. 2024;23(3):106-110. Published online September 15, 2024
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DOI: https://doi.org/10.21790/rvs.2024.011
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Abstract
PDFSupplementary Material
- This study describes an unusual case of fluctuating unilateral high-frequency hearing loss with vertigo resembling Menière’s disease. The current diagnostic criteria for definite Menière’s disease include audiometrically documented low- to medium-frequency sensorineural hearing loss on at least one occasion before, during, or after an episode of vertigo. This case presented a diagnostic dilemma. Brain MRI was nonspecific, and a bithermal caloric test showed unilateral weakness of 44% on the affected side. The results of electrocochleography and cervical vestibular evoked myogenic potential tests were within the normal ranges. Persistent geotropic or ageotropic positional nystagmus was observed during each vertigo attack; the mechanism underlying this characteristic nystagmus needs further investigation.
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Horizontal nystagmus with velocity-increasing waveforms in delayed post-hypoxic leukoencephalopathy: a case report
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Eugene Jung, Suk-Min Lee, Seo-Young Choi, Kwang-Dong Choi
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Res Vestib Sci. 2024;23(3):111-113. Published online September 15, 2024
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DOI: https://doi.org/10.21790/rvs.2024.016
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Abstract
PDFSupplementary Material
- Abnormal eye movements in unconscious patients serve as crucial diagnostic instruments, offering insights into the function of the central nervous system. Understanding these movements can aid in diagnosing the cause of unconsciousness, localizing brain lesions, and predicting outcomes. We report a patient who presented with spontaneous horizontal nystagmus unaffected by light in delayed post-hypoxic encephalopathy. Video-oculography showed exponentially increasing slow phases, with an amplitude ranging from 3° to 9° and a frequency of 0.5 Hz. Based on the results of oculography and neuroimaging, persistent horizontal nystagmus in our patient may be ascribed to an unstable neural integrator, possibly caused by disrupted cerebellar feedback mechanisms for horizontal gaze holding.