Given the interdependence of multiple factors in age-related vestibular loss (e.g., balance, vision,cognition), it is important to examine the individual contributions of these factors with ARVL. While therelationship...Given the interdependence of multiple factors in age-related vestibular loss (e.g., balance, vision,cognition), it is important to examine the individual contributions of these factors with ARVL. While therelationship between the vestibular and visual systems has been well studied (Bronstein et al., 2015),little is known about the association of the peripheral vestibular system with neurodegenerative disorders (Cronin et al., 2017). Further, emerging research developments implicate the vestibular system asan opportunity for examining brain function beyond balance, and into other areas, such as cognition andpsychological functioning. Additionally, the bidirectional impact of psychological functioning is understudied in ARVL. Recognition of ARVL as part of a multifaceted aging process will help guide thedevelopment of integrated interventions for patients who remain at risk for decline. In this review, wewill discuss a wide variety of characteristics of the peripheral vestibular system and ARVL, how it relatesto neurodegenerative diseases, and correlations between ARVL and balance, vision, cognitive, and psychological dysfunction. We also discuss clinical implications as well as future directions for research, withan emphasis on improving care for patients with ARVL.展开更多
Whereas much has been learned about age-related auditory changes in the inner ear, relatively little is known about the aging effects on the vestibular part of the inner ear-the peripheral vestibular system. Here we r...Whereas much has been learned about age-related auditory changes in the inner ear, relatively little is known about the aging effects on the vestibular part of the inner ear-the peripheral vestibular system. Here we review relevant literature with regard to the prevalence of vestibular dysfunction, vestibular functional and structural changes in the elderly. The prevalence of vestibular dysfunction increases with age. Functionally, as age increases, VEMP amplitudes decrease, VEMP thresholds increase, VOR gain of HIT decreases. Due to the complexity of the vestibular system, variations in subject age and measurement techniques, findings in VEMP latency and caloric tests are conflicting. To address this, a direct measure of the peripheral vestibular system should be applied. Structurally, age-related loss in vestibular ganglion and otoconia have been noted; hair cell changes are not well defined; while subcellular changes remain to be explored. Defining how the onset of vestibular dysfunction correlates with structural degeneration will offer insights into the mechanisms underlying vestibular aging.展开更多
Vestibular hair cells(HCs)in the inner ear,crucial for balance and spatial orientation,are classified into type I and type II subtypes,but the mechanisms regulating their differentiation remain unclear.In this study,w...Vestibular hair cells(HCs)in the inner ear,crucial for balance and spatial orientation,are classified into type I and type II subtypes,but the mechanisms regulating their differentiation remain unclear.In this study,we examined the role of Pou4f3,an important transcription factor,in vestibular HC differentiation using Pou4f3^(DTR/DTR)(deficient)and Pou4f3CreER/CreER(knockout)mouse models.In Pou4f3-deficient mice,the HC number decreased,and immature HCs failed to develop type I characteristics,indicating a developmental arrest.While type II HCs differentiated normally,Pou4f3 deficiency disrupted HC bundle formation and cell polarity.Findings from knockout models further confirmed the essential role of Pou4f3 in vestibular HC subtype specification.This study underscores the critical role of Pou4f3 in determining vestibular HC subtypes and offers insights into potential strategies for restoring vestibular function through HC regeneration.展开更多
BACKGROUND Due to the increasing rate of thyroid nodules diagnosis,and the desire to avoid the unsightly cervical scar,remote thyroidectomies were invented and are increasingly performed.Transoral endoscopic thyroidec...BACKGROUND Due to the increasing rate of thyroid nodules diagnosis,and the desire to avoid the unsightly cervical scar,remote thyroidectomies were invented and are increasingly performed.Transoral endoscopic thyroidectomy vestibular approach and trans-areolar approaches(TAA)are the two most commonly used remote approaches.No previous meta-analysis has compared postoperative infections and swallowing difficulties among the two procedures.AIM To compared the same among patients undergoing lobectomy for unilateral thyroid carcinoma/benign thyroid nodule.METHODS We searched PubMed MEDLINE,Google Scholar,and Cochrane Library from the date of the first published article up to August 2025.The term used were transoral thyroidectomy vestibular approach,trans areolar thyroidectomy,scarless thyroidectomy,remote thyroidectomy,infections,postoperative,inflammation,dysphagia,and swallowing difficulties.We identified 130 studies,of them,30 full texts were screened and only six studies were included in the final meta-analysis.RESULTS Postoperative infections were not different between the two approaches,odd ratio=1.33,95%confidence interval:0.50-3.53,theχ2 was 1.92 and the P-value for overall effect of 0.57.Similarly,transient swallowing difficulty was not different between the two forms of surgery,with odd ratio=0.91,95%confidence interval:0.35-2.40;theχ2 was 1.32,and the P-value for overall effect of 0.85.CONCLUSION No significant statistical differences were evident between trans-oral endoscopic Mirghani H.Infections and swallowing difficulty in scarless thyroidectomy WJCC https://www.wjgnet.com 2 January 6,2026 Volume 14 Issue 1 thyroidectomy vestibular approach and trans-areolar approach regarding postoperative infection and transient swallowing difficulties.Further longer randomized trials are needed.展开更多
The innervation of cholinergic efferent fibers in the vestibular endorgans of the rat was investigated using a modified preembedding immunostaining technique of immunoelectron microscopy. A monoclonal antibody to chol...The innervation of cholinergic efferent fibers in the vestibular endorgans of the rat was investigated using a modified preembedding immunostaining technique of immunoelectron microscopy. A monoclonal antibody to choline acetyltransferase (ChAT) was used as a marker of cholinergic fibers. It was found that there were four types of cholinergic innervation in the vestibular endorgans of the rat: (1) cholinergic nerve endings formed axo-dendritic synapses with afferent chalice surrounding the type I sensory hair cells; (2) cholinergic nerve endings formed axo-somatic synapses with type Ⅱ hair cells; (3) cholinergic fibers synapse with afferent nerve fibers and (4) a synaptic contact developed between cholinergic nerve endings. The results demonstrated that a multiform innervation of the cholinergic efferents exists in the rat vestibular periphery.展开更多
Vestibular Migraine (VM) is a common neurological disorder characterized by recurrent episodes of vertigo and migraine symptoms. The pathogenesis of VM is complex and involves multiple genetic and environmental factor...Vestibular Migraine (VM) is a common neurological disorder characterized by recurrent episodes of vertigo and migraine symptoms. The pathogenesis of VM is complex and involves multiple genetic and environmental factors. Recent studies have suggested that the pathogenesis of vestibular migraine may be associated with variations in the CACNA1A gene, which is an important gene target for controlling calcium ion channels. Such variations may further affect the functions of the vestibular nervous system, thereby causing a series of vestibular nervous system-related symptoms. This article will summarize the genetic association studies of vestibular migraine, vestibular function studies, and research on how to establish relevant animal models to illustrate the possible association between CACNA1A variations and the pathogenesis of VM, providing new ideas for clarifying the pathogenesis of VM.展开更多
Recent years have seen a burgeoning interest in elucidating the intricate relationship between vestibular dysfunction and sleep disorders,owing to their substantial impact on daily functioning and overall health.Despi...Recent years have seen a burgeoning interest in elucidating the intricate relationship between vestibular dysfunction and sleep disorders,owing to their substantial impact on daily functioning and overall health.Despite significant advancements,the precise mechanisms underpinning this interplay remain elusive.This review aims to synthesize the current literature on the association between vestibular dysfunction and sleep disorders,focusing on potential causal mechanisms and therapeutic implications.We systematically examine various sleep disorders,including insomnia,circadian rhythm disorders,and sleep apnea,in association with specific vestibular dysfunctions,such as Meniere’s disease(MD),vestibular migraine(VM),benign paroxysmal positional vertigo(BPPV),vestibular neuritis(VN),and persistent postural perceptual dizziness(PPPD).By exploring these complex interactions,our goal is to provide a comprehensive understanding that contributes to the ongoing discourse in this field.We seek to encourage further investigations into innovative diagnostic and therapeutic strategies,ultimately aiming to improve the clinical management and enhance the quality of life for patients affected by both vestibular dysfunction and sleep disorders.展开更多
Objective:To assess the effectiveness of machine learning in automating the prediction of vestibular abnormalities after cochlear implantation(CI)in patients with sensorineural hearing loss(SNHL),with the goal of deve...Objective:To assess the effectiveness of machine learning in automating the prediction of vestibular abnormalities after cochlear implantation(CI)in patients with sensorineural hearing loss(SNHL),with the goal of developing a practical model that can accurately predict long-term vestibular function outcomes and identify associated risk factors.Methods:Clinical data,including imaging,vestibular evoked myogenic potentials(VEMPs),and auditory information,were collected from patients with sensorineural hearing loss(SNHL)before and after CI.The decision tree algorithm was employed to address missing values and screen pre-CI clinical features.Six machine learning methods were subsequently utilized to predict the relationships between the extracted features and post-CI vestibular dysfunction.The best-performing method determined the ranking of feature importance,which was regarded as risk factors for predicting symptoms and VEMPs results after CI.Results:Logistic regression models effectively predicted both post-CI vestibular dysfunction and abnormal cervical VEMP(c VEMP),with accuracies of 80%and 78%,respectively.The relative importance of the features,in descending order,was as follows:c VEMP latency,c VEMP amplitude,and residual hearing threshold.Moreover,the support vector machine(SVM)model attained an accuracy of 88%in predicting abnormal ocular VEMP(o VEMP)post-CI.For the SVM model,the feature importance ranking was as follows:o VEMP latency,o VEMP amplitude,and residual hearing threshold.Conclusions:This study successfully leverages machine learning techniques,specifically support vector machines(SVM)and logistic regression models,to predict the impact of CI on vestibular function.These predictive models provide valuable insights for presurgical planning and decision-making in CI procedures.Moreover,the findings highlight the critical risk factors associated with vestibular dysfunction,offering a robust reference for guiding vestibular rehabilitation strategies.展开更多
Background:It has been reported that factors such as age and vestibular pathology (i.e. vestibular migraine) could impact self-motion perception during vestibular stimulation. However, to our knowledge, no objective t...Background:It has been reported that factors such as age and vestibular pathology (i.e. vestibular migraine) could impact self-motion perception during vestibular stimulation. However, to our knowledge, no objective test has been developed to quantify self-motion perception during clinical vestibular evaluation.ObjectiveThe main objective of the present study was to quantify vestibular perception during caloric vestibular stimulation using a tachometer.MethodsTwenty-two participants were divided into three groups: 1) younger healthy adults, 2) older healthy adults and 3) vestibular impaired adults. All participants performed bithermal water caloric irrigation during which slow-phase eye velocity (SPV) was measured using videonystagmography and self-motion velocity perception was assessed using a handheld tachometer (RPM).ResultsThe results revealed a significant difference in SPV between vestibular impaired ears and both healthy groups, and a significant difference in self-motion velocity perception between healthy young and vestibular impaired participants.ConclusionsThis study suggest that the SPV similarly to self-motion perception (RPM) can differentiate between vestibular impaired and young healthy participants. Future work is required to assess the influence of self-motion perception in aging.展开更多
Objective:To analyze the necessity and effectiveness of vestibular rehabilitation training instruction in the treatment of sudden deafness accompanied by vertigo.Methods:Sixty medical staff who learned the treatment m...Objective:To analyze the necessity and effectiveness of vestibular rehabilitation training instruction in the treatment of sudden deafness accompanied by vertigo.Methods:Sixty medical staff who learned the treatment methods for sudden deafness accompanied by vertigo(vestibular rehabilitation training)from January 2024 to February 2025 were selected as the research subjects.They were divided into two groups according to the time of study:the control group,who participated in the training teaching first,and the observation group,who participated later.Each group had 30 people.The control group received conventional training,while the observation group underwent continuous quality improvement.The effects and assessment results of different teaching methods were compared.Results:The theoretical and practical assessment scores of medical staff in the observation group were higher than those in the control group(p<0.05);the satisfaction of medical staff in the observation group with the teaching mode was higher than that in the control group(p<0.05).Conclusion:Vestibular rehabilitation training has significant effects on sudden deafness accompanied by vertigo.Training medical staff not only enhances their understanding of training methods but also enables them to provide specialized guidance to patients,improving their vertigo condition.展开更多
Background:Vestibular migraine(VM)is a common disorder characterized by recurrent dizziness or vertigo,often aggravated by cold exposure.This study aimed to identify differentially expressed circular RNAs(circRNAs)in ...Background:Vestibular migraine(VM)is a common disorder characterized by recurrent dizziness or vertigo,often aggravated by cold exposure.This study aimed to identify differentially expressed circular RNAs(circRNAs)in cold-region VM and explore the underlying molecular mechanisms.Methods:Peripheral blood samples from long-term residents of Heilongjiang Province profiled by circRNA microarray,and differentially expressed circRNAs were validated by quantitative reverse transcription polymerase chain reaction(qRT-PCR).A competing endogenous RNA(ceRNA)network and enriched pathways were inferred by bioinformatics.A VM-like mouse model was established using nitroglycerin(NTG)and kainic acid(KA)and confirmed by behavioral testing and western blot.The hsa_circ_0003201/miR-31-5p/triggering receptor expressed on myeloid cells 2(TREM2)axis and related pathways were examined in clinical samples and in the trigeminal nucleus caudalis(TNC)and vestibular nuclei(VN)of mice using qRT-PCR,enzyme-linked immunosorbent assay(ELISA),and western blot.CircRNA microarray profiling also compared expression patterns between VM and migraine patients.Results:Hsa_circ_0003201 was significantly upregulated in cold-region VM patients.Bioinformatic analyses revealed that hsa_circ_0003201 may regulate the miR-31-5p/TREM2 axis and be associated with phosphoinositide 3-kinase(PI3K)/protein kinase B(AKT)signaling,pyruvate metabolism,and transient receptor potential(TRP)pathways.Clinical validation confirmed increased hsa_circ_0003201 and TREM2 and decreased miR-31-5p.VM-like mice exhibited central sensitization and vestibular dysfunction,with increased TREM2,decreased miR-31-5p,and PI3K/AKT activation in the TNC and VN.Comparative circRNA analysis between VM and migraine patients indicated distinct expression patterns.Conclusion:Hsa_circ_0003201 shows potential as a diagnostic biomarker for cold-region VM,and the hsa_circ_0003201/miR-31-5p/TREM2 axis may contribute to pathogenesis through PI3K/AKT signaling,pyruvate metabolism,and TRP-related pathways.展开更多
Objective:To confirm that double-axis rotation activates vestibular nuclear complex(VNC)via stimulating vestibular endorgans.Methods:Sixteen male Sprague-Dawley rats were randomly divided equally into four groups:cont...Objective:To confirm that double-axis rotation activates vestibular nuclear complex(VNC)via stimulating vestibular endorgans.Methods:Sixteen male Sprague-Dawley rats were randomly divided equally into four groups:control,rotation,vestibular-lesioned and vestibular-lesioned plus roatation.Lesion of vestibular endorgans were accomplished through tanstympanic injection of 100 mg of sodium arsanilate.All animals were singly restrained in custommade Perspex containers and placed in darkness.Rats in rotation and vestibular-lesioned plus rotation groups were subjected to double-axis rotation for 2 h,while others as control were positioned close to the stimulator.Following stimulation,all rats were anesthetically killed and the brain tissues removed to examine Fos expression level using Western Blot.Results:Compared with normal control,rats in rotation group exhibited a tendency to increase in Fos expression in the VNC,although without statistical significance(P>0.05).The Fos expression levels in vestibular-lesioned and vestibular-lesioned plus rotation groups approximated.When normalized to the Fos expression in normal control group,the values representing Fos level in rotation,vestibular-lesioned and vestibular-leioned plus rotation groups were 1.129±0.0631,0.959±0.0487 and 1.023±0.237,respectively.Conclusion:Double-axis rotation can activate VNC neurons,and sodium arsanilate can functionally disrupt vestibular endorgans.展开更多
We have previously found that unilateral labyrinthectomy is accompanied by modification of hyaluronan and chondroitin sulfate proteoglycan staining in the lateral vestibular nucleus of rats and the time course of subs...We have previously found that unilateral labyrinthectomy is accompanied by modification of hyaluronan and chondroitin sulfate proteoglycan staining in the lateral vestibular nucleus of rats and the time course of subsequent reorganization of extracellular matrix assembly correlates to the restoration of impaired vestibular function. The tenascin-R has repelling effect on pathfinding during axonal growth/regrowth, and thus inhibits neural circuit repair. By using immunohistochemical method, we studied the modification of tenascin-R expression in the superior, medial, lateral, and descending vestibular nuclei of the rat following unilateral labyrin- thectomy. On postoperative day 1, tenascin-R reaction in the perineuronal nets disappeared on the side of labyrinthectomy in the superior, lateral, medial, and rostral part of the descending vestibular nuclei. On survival day 3, the staining intensity of tenascin-R reaction in perineuronal nets recovered on the operated side of the medial vestibular nucleus, whereas it was restored by the time of postoperative day 7 in the superior, lateral and rostral part of the descending vestib- ular nuclei. The staining intensity of tenascin-R reaction remained unchanged in the caudal part of the descending vestibular nucleus bilaterally. Regional differences in the modification of tena- scin-R expression presented here may be associated with different roles of individual vestibular nuclei in the compensatory processes. The decreased expression of the tenascin-R may suggest the extracellular facilitation of plastic modifications in the vestibular neural circuit after lesion of the labyrinthine receptors.展开更多
Damage to the vestibular sense organs evokes static and dynamic deficits in the eye movements,posture and vegetative functions.After a shorter or longer period of time,the vestibular function is partially or completel...Damage to the vestibular sense organs evokes static and dynamic deficits in the eye movements,posture and vegetative functions.After a shorter or longer period of time,the vestibular function is partially or completely restored via a series of processes such as modification in the efficacy of synaptic inputs.As the plasticity of adult central nervous system is associated with the alteration of extracellular matrix,including its condensed form,the perineuronal net,we studied the changes of brevican expression in the perineuronal nets of the superior vestibular nucleus after unilateral labyrinth lesion.Our results demonstrated that the unilateral labyrinth lesion and subsequent compensation are accompanied by the changing of brevican staining pattern in the perineuronal nets of superior vestibular nucleus of the rat.The reduction of brevican in the perineuronal nets of superior vestibular nucleus may contribute to the vestibular plasticity by suspending the non-permissive role of brevican in the restoration of perineuronal net assembly.After a transitory decrease,the brevican expression restored to the control level parallel to the partial restoration of impaired vestibular function.The bilateral changing in the brevican expression supports the involvement of commissural vestibular fibers in the vestibular compensation.All experimental procedures were approved by the 'University of Debrecen–Committee of Animal Welfare'(approval No.6/2017/DEMAB) and the 'Scientific Ethics Committee of Animal Experimentation'(approval No.HB/06/éLB/2270-10/2017;approved on June 6,2017).展开更多
BACKGROUND: Previous studies on integration mechanisms of visual and vestibular information in the central nervous system have focused on the vestibular system. Due to the lack of an appropriate animal model, few stu...BACKGROUND: Previous studies on integration mechanisms of visual and vestibular information in the central nervous system have focused on the vestibular system. Due to the lack of an appropriate animal model, few studies have addressed the visual system with regard to visual and vestibular information. OBJECTIVE: To investigate Fos protein expression differences of vestibular-related nucleus populations in a mouse model of rapid retinal degeneration and normal wild-type Kunming mice following rotary motion, and to verify integration regions of visual and vestibular information in the central nervous system. DESIGN, TIME AND SETTING: A randomized, controlled in vitro study was performed at the Key Laboratory of Aerospace Medicine of Ministry of Education, China from March 2008 to February 2009. MATERIALS: A rotary stimulation device was re-fit to an electric, rotating chair produced by the School of Aerospace Medicine, the Fourth Military Medical University. METHODS: A total of 12 rapid retinal degeneration mice and 12 normal wild-type male Kunming mice were randomly assigned to experimental and control subgroups, respectively (n = 6). Mice in the experimental group were exposed to rotary motion at a speed of 180°/s, 3 minutes per cycle, in an alternating clockwise/counterclockwise movement. Mice in the control group were not exposed to rotary motion. MAIN OUTCOME MEASURES: Differences in the number of Fos-positive neurons were determined in the vestibular nucleus, prepositus hypoglossal nucleus, inferior olive subnucleus beta, Kooy cap of the inferior olive medial nucleus, and the flocculus and paraflocculus of the cerebellum in rapid retinal degeneration mice and normal wild-type Kunming mice. RESULTS: The number of Fos-positive neurons was reduced in the prepositus hypoglossal nucleus and the Kooy cap of the inferior olive medial nucleus in the rapid retinal degeneration mice following 30 minutes of rotary motion in the experimental group, compared with the normal wild-type Kunming mice (P 〈 0.01). There was no significant difference in Fos protein expression in the vestibular nucleus, inferior olive subnucleus beta, and the flocculus and paraflocculus of the cerebellum between the rapid retinal degeneration mice and normal wild-type Kunming mice. CONCLUSION: Visual information affected neuronal activation in the prepositus hypoglossal nucleus and the Kooy cap of the inferior olive medial nucleus in mice following rotary motion. The prepositus hypoglossal nucleus and the dorsal cap of Kooy of inferior olive medial nucleus were shown to be key integration regions of visual information and vestibular information in the central nervous system.展开更多
Introduction: Simultaneous exposure to certain chemical agents and noise may cause synergistic, additive or potentiating effects on the auditory and vestibular system. However, there is still a lack of studies investi...Introduction: Simultaneous exposure to certain chemical agents and noise may cause synergistic, additive or potentiating effects on the auditory and vestibular system. However, there is still a lack of studies investigating simultaneous exposure to pesticides and noise in the vestibular system. Purpose: To analyze the findings of the vestibular evaluation of endemic diseases combat agents when simultaneously exposed to pesticides and noise. Method: Thirty-three male pesticide-exposed and noise-fighting endemic diseases combat agents participated in the study. The age range was 48 to 67 years (mean = 56 years). All participants underwent vestibular examinations, such as positional nystagmus research, spontaneous nystagmus with open and closed eyes, semi-spontaneous nystagmus, optokinetic nystagmus, pendular screening, per rotatory, caloric tests and tonal audiometry. Data were analyzed by descriptive statistics. Results: Altered exams were presented in 36.4% of the cases. There was no statistically significant relationship between pesticide handling time and test results (p = 0.2825). The results of pure tone audiometry correlated significantly (p = 0.0494) with the vestibular exams, as participants who presented with worse hearing thresholds at the frequency of 4000 Hz in the right ear also presented altered results in the vestibular exam. Conclusion: The present study concluded that more than 1/3 of the studied population presented with vestibular dysfunction, which was related to anterior and posterior labyrinth alteration (Cochlear-Vestibular Syndrome). No central vestibular alteration was noted in this population.展开更多
The classical washout algorithm had fixed gains and manually constructed filters, so that it led to poor adaptability. Furthermore, it lost the sustained acceleration cues of high-and mid-frequency in cross-over(tilt-...The classical washout algorithm had fixed gains and manually constructed filters, so that it led to poor adaptability. Furthermore, it lost the sustained acceleration cues of high-and mid-frequency in cross-over(tilt-coordination) channel, and the acceleration of cross-over frequency was also limited by angular velocity limiter, so the false cues in flight simulation process were clearly perceived by pilots. The paper studied the characteristics of the classical washout algorithm and flight simulator motion platform, tried to redesign the source of cross-over acceleration channel and translation acceleration channel, and transferred the part of cross-over acceleration that was unsimulated sustained acceleration to translation acceleration channel. Comparisons were mainly made between classical washout algorithm and revised algorithm in a longitudinal/pitch direction. The evaluation was based on the implementation of human vestibular perception system. The results demonstrated that the revised algorithm could significantly reduce the phase lag, and improved the spikes tracking performance. Furthermore, sensory angular velocity and the error of sensory acceleration were strictly controlled within the threshold of human perception system, and the displacement was a little broader than the classical washout algorithm. Therefore, it was proved that the new algorithm could diminish the filters parameters and heighten the self-adaptability for the washout algorithm. In addition, the magnitude of false cues was remarkably reduced during flight simulator, and the workspace utilization of the motion platform was developed by "closed-loop" control system.展开更多
Vestibular schwannoma(VS) is a slow-growing benign neoplasm. There has been an evolution in the management of VS from active treatments(microsurgery and stereotactic radiotherapy) to conservative management(wait and s...Vestibular schwannoma(VS) is a slow-growing benign neoplasm. There has been an evolution in the management of VS from active treatments(microsurgery and stereotactic radiotherapy) to conservative management(wait and scan). Regular MRI scanning is necessary to monitor tumor progression. Conservative management causes significantly less complications and offers a higher quality of life compared with active treatments. The mean growth rate of VS varies from 0.4 to 2.9 mm/year, and spontaneous shrinkage is observed in 3.8 percent of tumors during observation. If significant growth occurs, active treatment is considered. Significant growth is defined as an increase of at least 3 mm in the largest extrameatal diameter in any plane between the first and last available scans. The vestibulocochlear nerve is surrounded by cerebrospinal fluid, which provides natural contrast for MRI; thus, gadolinium may not be needed to detect VS. Specific sequences have high sensitivity, specificity, and accuracy for detection of progression. Hypointense signal in the ipsilateral inner ear fluid might be a useful sign to distinguish VS from meningioma. In this paper, we summarize the current status of research on conservative management and non-contrast MRI for the detection of VS.展开更多
Objectives: The aim of our study is to examine vestibular-evoked myogenic potentials(VEMPs) elicited by the galvanic vestibular stimulation in the sternocleidomastoid muscle(SCM) in healthy subjects for clinical appli...Objectives: The aim of our study is to examine vestibular-evoked myogenic potentials(VEMPs) elicited by the galvanic vestibular stimulation in the sternocleidomastoid muscle(SCM) in healthy subjects for clinical applications of auditory neuropathy or vestibular neuropathy in the future.Methods: We enrolled sixteen healthy subjects to record the average responses of SCM to galvanic vestibular stimulation(GVS) [current 3 mA;duration 1 ms] by electromyography(EMG). SPSS 18.0 software was used to analyze the obtained data for mean and standard deviation.Results: In all healthy subjects mastoid-forehead galvanic vestibular stimulation produced a positive-negative biphasic EMG responses on SCM ipsilateral to the cathodal electrode. The latency of p13 was 11.7 ± 3.0 ms. The latency of n23 was 17.8 ± 3.4 ms. The amplitude of p13-n23 was147.0 ± 69.0 μV. The interaural asymmetry ratio(AR) of p13, n23 latency and the amplitude was respectively 0.12 ± 0.09, 0.08 ± 0.08 and0.16 ± 0.10.Discussions: Galvanic vestibular stimulation could elicit biphasic EMG responses from SCM via the vestibular nerve but not from the otolith organs. Galvanic stimulation together with air conducted sound(ACS) or bone conducted vibration(BCV) can elicit VEMPs and may enable the differentiation of retrolabyrinthine lesions from labyrinthine lesions in vestibular system.展开更多
文摘Given the interdependence of multiple factors in age-related vestibular loss (e.g., balance, vision,cognition), it is important to examine the individual contributions of these factors with ARVL. While therelationship between the vestibular and visual systems has been well studied (Bronstein et al., 2015),little is known about the association of the peripheral vestibular system with neurodegenerative disorders (Cronin et al., 2017). Further, emerging research developments implicate the vestibular system asan opportunity for examining brain function beyond balance, and into other areas, such as cognition andpsychological functioning. Additionally, the bidirectional impact of psychological functioning is understudied in ARVL. Recognition of ARVL as part of a multifaceted aging process will help guide thedevelopment of integrated interventions for patients who remain at risk for decline. In this review, wewill discuss a wide variety of characteristics of the peripheral vestibular system and ARVL, how it relatesto neurodegenerative diseases, and correlations between ARVL and balance, vision, cognitive, and psychological dysfunction. We also discuss clinical implications as well as future directions for research, withan emphasis on improving care for patients with ARVL.
文摘Whereas much has been learned about age-related auditory changes in the inner ear, relatively little is known about the aging effects on the vestibular part of the inner ear-the peripheral vestibular system. Here we review relevant literature with regard to the prevalence of vestibular dysfunction, vestibular functional and structural changes in the elderly. The prevalence of vestibular dysfunction increases with age. Functionally, as age increases, VEMP amplitudes decrease, VEMP thresholds increase, VOR gain of HIT decreases. Due to the complexity of the vestibular system, variations in subject age and measurement techniques, findings in VEMP latency and caloric tests are conflicting. To address this, a direct measure of the peripheral vestibular system should be applied. Structurally, age-related loss in vestibular ganglion and otoconia have been noted; hair cell changes are not well defined; while subcellular changes remain to be explored. Defining how the onset of vestibular dysfunction correlates with structural degeneration will offer insights into the mechanisms underlying vestibular aging.
基金supported by the National Natural Science Foundation of China(82271159,82071049,82425018,and 82101219)the STI2030-Major Projects(2022ZD0205400).
文摘Vestibular hair cells(HCs)in the inner ear,crucial for balance and spatial orientation,are classified into type I and type II subtypes,but the mechanisms regulating their differentiation remain unclear.In this study,we examined the role of Pou4f3,an important transcription factor,in vestibular HC differentiation using Pou4f3^(DTR/DTR)(deficient)and Pou4f3CreER/CreER(knockout)mouse models.In Pou4f3-deficient mice,the HC number decreased,and immature HCs failed to develop type I characteristics,indicating a developmental arrest.While type II HCs differentiated normally,Pou4f3 deficiency disrupted HC bundle formation and cell polarity.Findings from knockout models further confirmed the essential role of Pou4f3 in vestibular HC subtype specification.This study underscores the critical role of Pou4f3 in determining vestibular HC subtypes and offers insights into potential strategies for restoring vestibular function through HC regeneration.
文摘BACKGROUND Due to the increasing rate of thyroid nodules diagnosis,and the desire to avoid the unsightly cervical scar,remote thyroidectomies were invented and are increasingly performed.Transoral endoscopic thyroidectomy vestibular approach and trans-areolar approaches(TAA)are the two most commonly used remote approaches.No previous meta-analysis has compared postoperative infections and swallowing difficulties among the two procedures.AIM To compared the same among patients undergoing lobectomy for unilateral thyroid carcinoma/benign thyroid nodule.METHODS We searched PubMed MEDLINE,Google Scholar,and Cochrane Library from the date of the first published article up to August 2025.The term used were transoral thyroidectomy vestibular approach,trans areolar thyroidectomy,scarless thyroidectomy,remote thyroidectomy,infections,postoperative,inflammation,dysphagia,and swallowing difficulties.We identified 130 studies,of them,30 full texts were screened and only six studies were included in the final meta-analysis.RESULTS Postoperative infections were not different between the two approaches,odd ratio=1.33,95%confidence interval:0.50-3.53,theχ2 was 1.92 and the P-value for overall effect of 0.57.Similarly,transient swallowing difficulty was not different between the two forms of surgery,with odd ratio=0.91,95%confidence interval:0.35-2.40;theχ2 was 1.32,and the P-value for overall effect of 0.85.CONCLUSION No significant statistical differences were evident between trans-oral endoscopic Mirghani H.Infections and swallowing difficulty in scarless thyroidectomy WJCC https://www.wjgnet.com 2 January 6,2026 Volume 14 Issue 1 thyroidectomy vestibular approach and trans-areolar approach regarding postoperative infection and transient swallowing difficulties.Further longer randomized trials are needed.
文摘The innervation of cholinergic efferent fibers in the vestibular endorgans of the rat was investigated using a modified preembedding immunostaining technique of immunoelectron microscopy. A monoclonal antibody to choline acetyltransferase (ChAT) was used as a marker of cholinergic fibers. It was found that there were four types of cholinergic innervation in the vestibular endorgans of the rat: (1) cholinergic nerve endings formed axo-dendritic synapses with afferent chalice surrounding the type I sensory hair cells; (2) cholinergic nerve endings formed axo-somatic synapses with type Ⅱ hair cells; (3) cholinergic fibers synapse with afferent nerve fibers and (4) a synaptic contact developed between cholinergic nerve endings. The results demonstrated that a multiform innervation of the cholinergic efferents exists in the rat vestibular periphery.
文摘Vestibular Migraine (VM) is a common neurological disorder characterized by recurrent episodes of vertigo and migraine symptoms. The pathogenesis of VM is complex and involves multiple genetic and environmental factors. Recent studies have suggested that the pathogenesis of vestibular migraine may be associated with variations in the CACNA1A gene, which is an important gene target for controlling calcium ion channels. Such variations may further affect the functions of the vestibular nervous system, thereby causing a series of vestibular nervous system-related symptoms. This article will summarize the genetic association studies of vestibular migraine, vestibular function studies, and research on how to establish relevant animal models to illustrate the possible association between CACNA1A variations and the pathogenesis of VM, providing new ideas for clarifying the pathogenesis of VM.
基金supported by grants from the National Key Research and Development Program of China(Nos.2023YFC2508002&2023YFC2508403)the National Natural Science Foundation of China(Nos.82371168 and 82171152)the Hubei Provincial Key Research and Development Program(No.2023BCB027).
文摘Recent years have seen a burgeoning interest in elucidating the intricate relationship between vestibular dysfunction and sleep disorders,owing to their substantial impact on daily functioning and overall health.Despite significant advancements,the precise mechanisms underpinning this interplay remain elusive.This review aims to synthesize the current literature on the association between vestibular dysfunction and sleep disorders,focusing on potential causal mechanisms and therapeutic implications.We systematically examine various sleep disorders,including insomnia,circadian rhythm disorders,and sleep apnea,in association with specific vestibular dysfunctions,such as Meniere’s disease(MD),vestibular migraine(VM),benign paroxysmal positional vertigo(BPPV),vestibular neuritis(VN),and persistent postural perceptual dizziness(PPPD).By exploring these complex interactions,our goal is to provide a comprehensive understanding that contributes to the ongoing discourse in this field.We seek to encourage further investigations into innovative diagnostic and therapeutic strategies,ultimately aiming to improve the clinical management and enhance the quality of life for patients affected by both vestibular dysfunction and sleep disorders.
基金a grant from the Beijing Hospitals Authority Youth Programme(grant:QML20230204)a grant from National Natural Science Foundation of China(No.82471179)a grant from the National Key Research and Development Plan(grant:2022YFC2402705)。
文摘Objective:To assess the effectiveness of machine learning in automating the prediction of vestibular abnormalities after cochlear implantation(CI)in patients with sensorineural hearing loss(SNHL),with the goal of developing a practical model that can accurately predict long-term vestibular function outcomes and identify associated risk factors.Methods:Clinical data,including imaging,vestibular evoked myogenic potentials(VEMPs),and auditory information,were collected from patients with sensorineural hearing loss(SNHL)before and after CI.The decision tree algorithm was employed to address missing values and screen pre-CI clinical features.Six machine learning methods were subsequently utilized to predict the relationships between the extracted features and post-CI vestibular dysfunction.The best-performing method determined the ranking of feature importance,which was regarded as risk factors for predicting symptoms and VEMPs results after CI.Results:Logistic regression models effectively predicted both post-CI vestibular dysfunction and abnormal cervical VEMP(c VEMP),with accuracies of 80%and 78%,respectively.The relative importance of the features,in descending order,was as follows:c VEMP latency,c VEMP amplitude,and residual hearing threshold.Moreover,the support vector machine(SVM)model attained an accuracy of 88%in predicting abnormal ocular VEMP(o VEMP)post-CI.For the SVM model,the feature importance ranking was as follows:o VEMP latency,o VEMP amplitude,and residual hearing threshold.Conclusions:This study successfully leverages machine learning techniques,specifically support vector machines(SVM)and logistic regression models,to predict the impact of CI on vestibular function.These predictive models provide valuable insights for presurgical planning and decision-making in CI procedures.Moreover,the findings highlight the critical risk factors associated with vestibular dysfunction,offering a robust reference for guiding vestibular rehabilitation strategies.
基金supported bsy NSERC (RGPIN-2022-04402)by the Fonds de Recherche en Santédu Québec (FRQS-329974) both awarded to Dr Maheu
文摘Background:It has been reported that factors such as age and vestibular pathology (i.e. vestibular migraine) could impact self-motion perception during vestibular stimulation. However, to our knowledge, no objective test has been developed to quantify self-motion perception during clinical vestibular evaluation.ObjectiveThe main objective of the present study was to quantify vestibular perception during caloric vestibular stimulation using a tachometer.MethodsTwenty-two participants were divided into three groups: 1) younger healthy adults, 2) older healthy adults and 3) vestibular impaired adults. All participants performed bithermal water caloric irrigation during which slow-phase eye velocity (SPV) was measured using videonystagmography and self-motion velocity perception was assessed using a handheld tachometer (RPM).ResultsThe results revealed a significant difference in SPV between vestibular impaired ears and both healthy groups, and a significant difference in self-motion velocity perception between healthy young and vestibular impaired participants.ConclusionsThis study suggest that the SPV similarly to self-motion perception (RPM) can differentiate between vestibular impaired and young healthy participants. Future work is required to assess the influence of self-motion perception in aging.
文摘Objective:To analyze the necessity and effectiveness of vestibular rehabilitation training instruction in the treatment of sudden deafness accompanied by vertigo.Methods:Sixty medical staff who learned the treatment methods for sudden deafness accompanied by vertigo(vestibular rehabilitation training)from January 2024 to February 2025 were selected as the research subjects.They were divided into two groups according to the time of study:the control group,who participated in the training teaching first,and the observation group,who participated later.Each group had 30 people.The control group received conventional training,while the observation group underwent continuous quality improvement.The effects and assessment results of different teaching methods were compared.Results:The theoretical and practical assessment scores of medical staff in the observation group were higher than those in the control group(p<0.05);the satisfaction of medical staff in the observation group with the teaching mode was higher than that in the control group(p<0.05).Conclusion:Vestibular rehabilitation training has significant effects on sudden deafness accompanied by vertigo.Training medical staff not only enhances their understanding of training methods but also enables them to provide specialized guidance to patients,improving their vertigo condition.
基金supported by General Program of National Natural Science Foundation of China(No.82071549,82371483)Key Research&Development Program of Heilongjiang(No.2023ZX06C02)Youth Foundation of the first Affiliated Hospital of Harbin Medical University(No.2024YQ22).
文摘Background:Vestibular migraine(VM)is a common disorder characterized by recurrent dizziness or vertigo,often aggravated by cold exposure.This study aimed to identify differentially expressed circular RNAs(circRNAs)in cold-region VM and explore the underlying molecular mechanisms.Methods:Peripheral blood samples from long-term residents of Heilongjiang Province profiled by circRNA microarray,and differentially expressed circRNAs were validated by quantitative reverse transcription polymerase chain reaction(qRT-PCR).A competing endogenous RNA(ceRNA)network and enriched pathways were inferred by bioinformatics.A VM-like mouse model was established using nitroglycerin(NTG)and kainic acid(KA)and confirmed by behavioral testing and western blot.The hsa_circ_0003201/miR-31-5p/triggering receptor expressed on myeloid cells 2(TREM2)axis and related pathways were examined in clinical samples and in the trigeminal nucleus caudalis(TNC)and vestibular nuclei(VN)of mice using qRT-PCR,enzyme-linked immunosorbent assay(ELISA),and western blot.CircRNA microarray profiling also compared expression patterns between VM and migraine patients.Results:Hsa_circ_0003201 was significantly upregulated in cold-region VM patients.Bioinformatic analyses revealed that hsa_circ_0003201 may regulate the miR-31-5p/TREM2 axis and be associated with phosphoinositide 3-kinase(PI3K)/protein kinase B(AKT)signaling,pyruvate metabolism,and transient receptor potential(TRP)pathways.Clinical validation confirmed increased hsa_circ_0003201 and TREM2 and decreased miR-31-5p.VM-like mice exhibited central sensitization and vestibular dysfunction,with increased TREM2,decreased miR-31-5p,and PI3K/AKT activation in the TNC and VN.Comparative circRNA analysis between VM and migraine patients indicated distinct expression patterns.Conclusion:Hsa_circ_0003201 shows potential as a diagnostic biomarker for cold-region VM,and the hsa_circ_0003201/miR-31-5p/TREM2 axis may contribute to pathogenesis through PI3K/AKT signaling,pyruvate metabolism,and TRP-related pathways.
文摘Objective:To confirm that double-axis rotation activates vestibular nuclear complex(VNC)via stimulating vestibular endorgans.Methods:Sixteen male Sprague-Dawley rats were randomly divided equally into four groups:control,rotation,vestibular-lesioned and vestibular-lesioned plus roatation.Lesion of vestibular endorgans were accomplished through tanstympanic injection of 100 mg of sodium arsanilate.All animals were singly restrained in custommade Perspex containers and placed in darkness.Rats in rotation and vestibular-lesioned plus rotation groups were subjected to double-axis rotation for 2 h,while others as control were positioned close to the stimulator.Following stimulation,all rats were anesthetically killed and the brain tissues removed to examine Fos expression level using Western Blot.Results:Compared with normal control,rats in rotation group exhibited a tendency to increase in Fos expression in the VNC,although without statistical significance(P>0.05).The Fos expression levels in vestibular-lesioned and vestibular-lesioned plus rotation groups approximated.When normalized to the Fos expression in normal control group,the values representing Fos level in rotation,vestibular-lesioned and vestibular-leioned plus rotation groups were 1.129±0.0631,0.959±0.0487 and 1.023±0.237,respectively.Conclusion:Double-axis rotation can activate VNC neurons,and sodium arsanilate can functionally disrupt vestibular endorgans.
基金supported by a grant from the Hungarian Academy of Sciences(MTA-TKI 11008)a grant from the European Union and the State of Hungarythe European Social Fund in the framework of TáMOP-4.2.4.A/2-11/1-2012-0001‘National Excellence Program’
文摘We have previously found that unilateral labyrinthectomy is accompanied by modification of hyaluronan and chondroitin sulfate proteoglycan staining in the lateral vestibular nucleus of rats and the time course of subsequent reorganization of extracellular matrix assembly correlates to the restoration of impaired vestibular function. The tenascin-R has repelling effect on pathfinding during axonal growth/regrowth, and thus inhibits neural circuit repair. By using immunohistochemical method, we studied the modification of tenascin-R expression in the superior, medial, lateral, and descending vestibular nuclei of the rat following unilateral labyrin- thectomy. On postoperative day 1, tenascin-R reaction in the perineuronal nets disappeared on the side of labyrinthectomy in the superior, lateral, medial, and rostral part of the descending vestibular nuclei. On survival day 3, the staining intensity of tenascin-R reaction in perineuronal nets recovered on the operated side of the medial vestibular nucleus, whereas it was restored by the time of postoperative day 7 in the superior, lateral and rostral part of the descending vestib- ular nuclei. The staining intensity of tenascin-R reaction remained unchanged in the caudal part of the descending vestibular nucleus bilaterally. Regional differences in the modification of tena- scin-R expression presented here may be associated with different roles of individual vestibular nuclei in the compensatory processes. The decreased expression of the tenascin-R may suggest the extracellular facilitation of plastic modifications in the vestibular neural circuit after lesion of the labyrinthine receptors.
基金supported by the Hungarian Academy of Sciences–Office for Supported Research Groups:MTA-TKI 355University of Debrecen–Medical and Health Sciences Center Bridging FundHungarian Scientific Research Fund K115471.Obtained by Clara Matesz and colleagues。
文摘Damage to the vestibular sense organs evokes static and dynamic deficits in the eye movements,posture and vegetative functions.After a shorter or longer period of time,the vestibular function is partially or completely restored via a series of processes such as modification in the efficacy of synaptic inputs.As the plasticity of adult central nervous system is associated with the alteration of extracellular matrix,including its condensed form,the perineuronal net,we studied the changes of brevican expression in the perineuronal nets of the superior vestibular nucleus after unilateral labyrinth lesion.Our results demonstrated that the unilateral labyrinth lesion and subsequent compensation are accompanied by the changing of brevican staining pattern in the perineuronal nets of superior vestibular nucleus of the rat.The reduction of brevican in the perineuronal nets of superior vestibular nucleus may contribute to the vestibular plasticity by suspending the non-permissive role of brevican in the restoration of perineuronal net assembly.After a transitory decrease,the brevican expression restored to the control level parallel to the partial restoration of impaired vestibular function.The bilateral changing in the brevican expression supports the involvement of commissural vestibular fibers in the vestibular compensation.All experimental procedures were approved by the 'University of Debrecen–Committee of Animal Welfare'(approval No.6/2017/DEMAB) and the 'Scientific Ethics Committee of Animal Experimentation'(approval No.HB/06/éLB/2270-10/2017;approved on June 6,2017).
文摘BACKGROUND: Previous studies on integration mechanisms of visual and vestibular information in the central nervous system have focused on the vestibular system. Due to the lack of an appropriate animal model, few studies have addressed the visual system with regard to visual and vestibular information. OBJECTIVE: To investigate Fos protein expression differences of vestibular-related nucleus populations in a mouse model of rapid retinal degeneration and normal wild-type Kunming mice following rotary motion, and to verify integration regions of visual and vestibular information in the central nervous system. DESIGN, TIME AND SETTING: A randomized, controlled in vitro study was performed at the Key Laboratory of Aerospace Medicine of Ministry of Education, China from March 2008 to February 2009. MATERIALS: A rotary stimulation device was re-fit to an electric, rotating chair produced by the School of Aerospace Medicine, the Fourth Military Medical University. METHODS: A total of 12 rapid retinal degeneration mice and 12 normal wild-type male Kunming mice were randomly assigned to experimental and control subgroups, respectively (n = 6). Mice in the experimental group were exposed to rotary motion at a speed of 180°/s, 3 minutes per cycle, in an alternating clockwise/counterclockwise movement. Mice in the control group were not exposed to rotary motion. MAIN OUTCOME MEASURES: Differences in the number of Fos-positive neurons were determined in the vestibular nucleus, prepositus hypoglossal nucleus, inferior olive subnucleus beta, Kooy cap of the inferior olive medial nucleus, and the flocculus and paraflocculus of the cerebellum in rapid retinal degeneration mice and normal wild-type Kunming mice. RESULTS: The number of Fos-positive neurons was reduced in the prepositus hypoglossal nucleus and the Kooy cap of the inferior olive medial nucleus in the rapid retinal degeneration mice following 30 minutes of rotary motion in the experimental group, compared with the normal wild-type Kunming mice (P 〈 0.01). There was no significant difference in Fos protein expression in the vestibular nucleus, inferior olive subnucleus beta, and the flocculus and paraflocculus of the cerebellum between the rapid retinal degeneration mice and normal wild-type Kunming mice. CONCLUSION: Visual information affected neuronal activation in the prepositus hypoglossal nucleus and the Kooy cap of the inferior olive medial nucleus in mice following rotary motion. The prepositus hypoglossal nucleus and the dorsal cap of Kooy of inferior olive medial nucleus were shown to be key integration regions of visual information and vestibular information in the central nervous system.
文摘Introduction: Simultaneous exposure to certain chemical agents and noise may cause synergistic, additive or potentiating effects on the auditory and vestibular system. However, there is still a lack of studies investigating simultaneous exposure to pesticides and noise in the vestibular system. Purpose: To analyze the findings of the vestibular evaluation of endemic diseases combat agents when simultaneously exposed to pesticides and noise. Method: Thirty-three male pesticide-exposed and noise-fighting endemic diseases combat agents participated in the study. The age range was 48 to 67 years (mean = 56 years). All participants underwent vestibular examinations, such as positional nystagmus research, spontaneous nystagmus with open and closed eyes, semi-spontaneous nystagmus, optokinetic nystagmus, pendular screening, per rotatory, caloric tests and tonal audiometry. Data were analyzed by descriptive statistics. Results: Altered exams were presented in 36.4% of the cases. There was no statistically significant relationship between pesticide handling time and test results (p = 0.2825). The results of pure tone audiometry correlated significantly (p = 0.0494) with the vestibular exams, as participants who presented with worse hearing thresholds at the frequency of 4000 Hz in the right ear also presented altered results in the vestibular exam. Conclusion: The present study concluded that more than 1/3 of the studied population presented with vestibular dysfunction, which was related to anterior and posterior labyrinth alteration (Cochlear-Vestibular Syndrome). No central vestibular alteration was noted in this population.
基金Supported by Wuhan Technical College of Communications Fund(Q2018001)China Institute of Communications Education Fund(1602-248)Wuhan Technical College of Communications Innovation Team(CX2018A07)
文摘The classical washout algorithm had fixed gains and manually constructed filters, so that it led to poor adaptability. Furthermore, it lost the sustained acceleration cues of high-and mid-frequency in cross-over(tilt-coordination) channel, and the acceleration of cross-over frequency was also limited by angular velocity limiter, so the false cues in flight simulation process were clearly perceived by pilots. The paper studied the characteristics of the classical washout algorithm and flight simulator motion platform, tried to redesign the source of cross-over acceleration channel and translation acceleration channel, and transferred the part of cross-over acceleration that was unsimulated sustained acceleration to translation acceleration channel. Comparisons were mainly made between classical washout algorithm and revised algorithm in a longitudinal/pitch direction. The evaluation was based on the implementation of human vestibular perception system. The results demonstrated that the revised algorithm could significantly reduce the phase lag, and improved the spikes tracking performance. Furthermore, sensory angular velocity and the error of sensory acceleration were strictly controlled within the threshold of human perception system, and the displacement was a little broader than the classical washout algorithm. Therefore, it was proved that the new algorithm could diminish the filters parameters and heighten the self-adaptability for the washout algorithm. In addition, the magnitude of false cues was remarkably reduced during flight simulator, and the workspace utilization of the motion platform was developed by "closed-loop" control system.
基金supported by the National Natural Science Foundation of China (81170914/H1304)
文摘Vestibular schwannoma(VS) is a slow-growing benign neoplasm. There has been an evolution in the management of VS from active treatments(microsurgery and stereotactic radiotherapy) to conservative management(wait and scan). Regular MRI scanning is necessary to monitor tumor progression. Conservative management causes significantly less complications and offers a higher quality of life compared with active treatments. The mean growth rate of VS varies from 0.4 to 2.9 mm/year, and spontaneous shrinkage is observed in 3.8 percent of tumors during observation. If significant growth occurs, active treatment is considered. Significant growth is defined as an increase of at least 3 mm in the largest extrameatal diameter in any plane between the first and last available scans. The vestibulocochlear nerve is surrounded by cerebrospinal fluid, which provides natural contrast for MRI; thus, gadolinium may not be needed to detect VS. Specific sequences have high sensitivity, specificity, and accuracy for detection of progression. Hypointense signal in the ipsilateral inner ear fluid might be a useful sign to distinguish VS from meningioma. In this paper, we summarize the current status of research on conservative management and non-contrast MRI for the detection of VS.
基金supported by Japan China Sasakawa Medical Fellowship 2016(YL)
文摘Objectives: The aim of our study is to examine vestibular-evoked myogenic potentials(VEMPs) elicited by the galvanic vestibular stimulation in the sternocleidomastoid muscle(SCM) in healthy subjects for clinical applications of auditory neuropathy or vestibular neuropathy in the future.Methods: We enrolled sixteen healthy subjects to record the average responses of SCM to galvanic vestibular stimulation(GVS) [current 3 mA;duration 1 ms] by electromyography(EMG). SPSS 18.0 software was used to analyze the obtained data for mean and standard deviation.Results: In all healthy subjects mastoid-forehead galvanic vestibular stimulation produced a positive-negative biphasic EMG responses on SCM ipsilateral to the cathodal electrode. The latency of p13 was 11.7 ± 3.0 ms. The latency of n23 was 17.8 ± 3.4 ms. The amplitude of p13-n23 was147.0 ± 69.0 μV. The interaural asymmetry ratio(AR) of p13, n23 latency and the amplitude was respectively 0.12 ± 0.09, 0.08 ± 0.08 and0.16 ± 0.10.Discussions: Galvanic vestibular stimulation could elicit biphasic EMG responses from SCM via the vestibular nerve but not from the otolith organs. Galvanic stimulation together with air conducted sound(ACS) or bone conducted vibration(BCV) can elicit VEMPs and may enable the differentiation of retrolabyrinthine lesions from labyrinthine lesions in vestibular system.
