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6 "Vestibular compensation"
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Original Articles
Does dimenhydrinate delay recovery of vestibular ocular reflex in acute unilateral vestibulopathy? A retrospective comparative study
Minah Shin, Chae-Young Kim, Ji Eun Choi, Jae Yun Jung, Min Young Lee
Res Vestib Sci. 2024;23(3):89-94.   Published online September 15, 2024
DOI: https://doi.org/10.21790/rvs.2024.006
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AbstractAbstract PDF
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.
Role of the Cerebral Cortex on Vestibular Compensation Following Unilateral Labyrinthectomy in Rats
Hyun Kwang Ryoo, Seung Bum Yang, Min Sun Kim, Byung Rim Park
Res Vestib Sci. 2015;14(3):75-82.
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AbstractAbstract PDF
Objective: The cerebral cortex can modulate vestibular functions through direct control of neuronal activities in the vestibular nuclei. The purpose of this study was to investigate the effect of unilateral cortical lesion or cortical stimulation on static vestibular symptoms and vestibular nuclear activities at the acute stage of vestibular compensation following unilateral labyrinthectomy (UL) in rats.
Methods
The photothrombic ischemic injury using rose bengal was induced in the primary motor cortex or primary sensory cortex, and electrical stimulation was applied to the primary motor cortex, primary sensory cortex, or sencondary sensory cortex, respectively, in unilateral labyrinthectomized rats. Static vestibular symptoms including ocular movement and postural deficits, and expression of c-Fos protein in the medial vestibular nucleus (MVN) were measured.
Results
Lesion of the motor cortex produced a marked postural deficit with paralytic weakness in the hindlimb contralateral to UL. Number of spontaneous nystagmus in animals receiving cortical lesion was significantly increased 2, 6, and 12 hours after UL compared with animals being UL only. Lesion of the primary motor cortex or stimulation of the S2 sensory cortex decreased expression of c-Fos protein in MVN following UL compared with UL only group. Electrical stimulation of S2 sensory areas caused significant reduction of static vestibular symptoms and decreased expression of c-Fos protein in MVN 24 hours following UL.
Conclusion
The present results suggest that cerebral cortex involves in recovery of static vestibular symptoms during vestibular compensation following UL.
Review
Understanding of Structure and Function of Vestibular Cortex
Min Sun Kim, Jae Hee Lee, Gyoung Wan Lee, Byung Rim Park
Res Vestib Sci. 2010;9(1):1-11.
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AbstractAbstract PDF
The vestibular end-organs generate very sophisticated gravity sensory information about head movement by sensing head acceleration in three-dimensional space. Vestibular information is crucial for higher brain functions such as cognition of spatial orientation, spatial memory, and perception of self-motion. The term “vestibular cortex” represents cortical area where vestibular information is processed, converged with other sensory inputs to maintain cortical functions. The vestibular cortex gives rise to commend signals that control the vestibulosomatic reflex through the modulation of vestibular nuclear activity in the brainstem. The vestibular cortex includes such different cortical regions as the premotor region of the frontal cortex, parietal areas, temporal areas, and a central core region called parietoinsular vestibular cortex. This paper summarizes systemically animal and clinical research data concerned with the vestibular cortex in order to understand anatomy and functions of the vestibular cortex and to provide a basic literature for further study.
Original Articles
Immunohistochemical Identification of Phosphorylated Extracellular Signal-Regulated Kinase1/2 in Rat Vestibular Nuclei by Unilateral Labyrinthectomy
Myoung Ae Choi, Dong Ok Choi, Kwang Yong Kim, Moon Young Lee, Byung Rim Park, Min Sun Kim
J Korean Bal Soc. 2003;2(2):170-174.
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AbstractAbstract PDF
This study evaluated the expression of phosphorylated signal-regulated kinase1/2 (pERK1/2), which is one of the main factors regulating transcription of the cfos oncogene in neurons, in the vestibular nuclei of Sprague-Dawley rats following unilateral labyrinthectomy (UL). Surgical UL was performed to eliminate afferent signals from the peripheral vestibular receptors in the inner ear, under a surgical microscope, 2 hours after anesthesia. Significant numbers of pERK1/2 immunoreactive neurons were seen in the superior, medial, and inferior vestibular nuclei. There were more pERK1/2 immunoreactive cells in the vestibular nuclei contralateral than in the vestibular nuclei ipsilateral to the injured labyrinth, which resulted in significant asymmetric expression of pERK1/2 immunoreactive cells. Subsequently, the pERK1/2 immunoreactivity decreased rapidly, disappearing 90 min after labyrinthectomy. No pERK1/2 labeling was seen in the lateral vestibular nucleus. These results suggest that intracellular signal pathways for the activation of extracellular signal-regulated kinase in the vestibular nuclei are involved in lesion-neural plasticity in the vestibular system.
Effect of Ginkgo biloba on Expression of c-Fos Protein in the Vestibular Nuclear Complex following Unilateral Labyrinthectomy in Rats
Dong Ok Choi, Sun Kyung Kim, Myung Ae Choi, Moon Young Lee, Min Sun Kim, Eun Ho Park, Byung Rim Park
J Korean Bal Soc. 2003;2(2):163-169.
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AbstractAbstract PDF
Background
and Objectives: The neuroprotective effect of Ginkgo biloba has been demonstrated in several in vivo and in vitro models. The effect of Ginkgo biloba on vestibular compensation following unilateral labyrinthectomy (UL) was investigated. Material and Methods: Spontaneous nystagmus and c-Fos protein expression were measured following UL in Sprague-Dawley rats with pretreatment of Ginkgo biloba (50 mg/kg, i.p.).
Results
After pretreatment with Ginkgo biloba (50 mg/kg, i.p.) expression of c-Fos protein in the vestibular nuclear complex and frequency of spontaneous nystagmus were measured till 24 hours after UL. UL produced spontaneous nystagmus with frequency of 124±2.2 beats/min at post-op 2 hrs and 70±3.1 beats/min at post-op 24 hrs. Pretreatment with Ginkgo biloba significantly decreased the frequency of spontaneous nystagmus till post-op 24 hrs compared to control group (p<0.05). UL produced marked expression of c-Fos protein in bilateral medial vestibular nucleus, inferior vestibular nucleus, and superior vestibular nucleus, and the number of expression was significantly higher in contralateral vestibular nuclei to the lesion than ipsilateral vestibular nuclei at post-op 2 hrs (p<0.01). The number of c-Fos protein expression was decreased with time and significantly higher in ipsilateral vestibular nuclei than contralateral ones at post-op 24 hrs (p<0.01). Pretreatment with Ginkgo biloba significantly decreased the number of c-Fos protein expression following UL (p<0.01) and abolished the asymmetry of c-Fos protein expression in bilateral vestibular nuclei at post-op 24 hrs.
Conclusion
These results suggest that Ginkgo biloba may facilitate vestibular compensation following UL through modulation of neurotransmitters and neuroprotective effects.
Spatio-temporal Changes on c-Fos Protein Expression in the Brain Stem Nuclei following Arsanilate-induced Unilateral Labyrinthectomy in Rats
Jae Hyo Kim, Chang Ig Choi, Moon Young Lee, Min Sun Kim, Byung Soo Soh, Eun Ho Park, Byung Rim Park
J Korean Bal Soc. 2003;2(1):86-94.
  • 1,792 View
  • 8 Download
AbstractAbstract PDF
Spatio-temporal changes on c-Fos protein expression were investigated in vestibular compensation following unilateral labyrinthectomy (UL) induced by injection of arsanilate into the middle ear cavity, chemical labyrinthectomy, or surgical labyrinthectomy in medial vestibular nuclei (MVN), prepositus hypoglossal nuclei (PrH), and inferior olivary nuclei (ION) of Sprague-Dawley rats. Number of spontaneous nystagmus in surgical labyrinthectomy group was 28.2±1.2 beats/10 sec at post-op 2 hs and the nystagmus disappeared 76 hs after UL. In chemical labyrinthectomy group, spontaneous nystagmus occurred 6 hs after UL and increased up to maximum at 12 hs and disappeared 96 hs. Head deviation in surgical labyrinthectomy group reached a peak at post-op 2 hs and recovered to control level at 144 hs, but chemical labyrinthectomy produced head deviation 24 hs after UL and increased degree of the deviation over time till 144 hs. Expression of c-Fos protein in surgical labyrinthectomy group at post-op 2 hs was 81±19.4 cells in ipsilateral MVN to the lesion side and 212±60 cells in contralateral MVN, which showed severe asymmetry between bilateral MVN, and decrease of c-Fos protein expression was more in contralateral MVN than in ipsilateral MVN at 6 hs. Chemical labyrinthectomy expressed more c-Fos protein in contralateral MVN 6 hs after UL and in ipsilateral MVN 12 hs after UL, which showed asymmetry of c-Fos protein expression between bilateral MVN. And the expression in ipsilateral MVN of chemical labyrinthectomy group was increased gradually 48 hs after UL and reached a peak at 72 hs. In chemical labyrinthectomy group, expression of c-Fos protein in PrH was increased more in ipsilateral than in contralateral 6 hs after UL and more in contralateral 12 hs after UL, and ION showed more expression of c-Fos protein in contralateral than in ipsilateral 6 hs after UL through 72 hs. These results suggest that the course of vestibular compensation and the temporal expression of c-Fos protein in the brain stem nuclei following UL differed between surgical and chemical labyrinthectomy.

Res Vestib Sci : Research in Vestibular Science
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