Comparison of clinical characteristics and vestibular function test results in patients with vestibular migraine and Menière’s disease

Wu, Yuexia; Ling, Xia; Song, Ning; Yan, Shuangmei; Wang, Wenting; Yang, Xu; Gu, Ping

doi:10.1016/j.bjorl.2023.05.001

Abstract

Objectives

The differentiation between Vestibular Migraine (VM) and Meniere's Disease (MD) is difficult because of overlapping symptoms. The study aimed to compare the clinical characteristics and vestibular function test results between VM and MD patients.

Methods

Seventy-one patients with definite VM and 31 patients with definite unilateral MD were included. All patients received Caloric Test (CT), Video Head Impulse Test (vHIT) and Vestibular Evoked Myogenic Potential (VEMP) test within 7 days after visiting the hospital. Results of these tests were compared between groups.

Results

Most VM patients (64.0%) experienced spontaneous internal vertigo, while most MD patients (66.7%) experienced spontaneous external vertigo. MD patients had more severe vestibular symptoms and autonomic responses compared to VM patients during attacks (p= 0.03, p= 0.00, respectively). The nystagmus intensity of CT-induced was greater in VM patients than in MD patients (p= 0.003). More VM patients had CT intolerance and Central Positional Nystagmus (CPN) compared to MD patients (p= 0.002, p = 0.006, respectively). More MD patients had CT(+) and vHIT saccades wave compared to VM patients (p< 0.001, p= 0.002, respectively). The non-elicitation rate of cervical VEMP was higher, and the ocular VEMP amplitudes were lower in MD patients than in VM patients (p = 0.002, p= 0.018).

Conclusions

Vestibular symptoms during attacks combined with the results of vestibular function tests may be used to differentiate between VM and MD. The diverse nature of vestibular symptoms (especially internal vertigo), history of motion sickness and CT intolerance may provide clues to the diagnosis of VM, whereas spontaneous external vertigo, CT(+) with vHIT(-), and the presence of saccades may provide clues to the diagnosis of MD.

Level of evidence: 4.

Keywords
Vestibular migraine; Menière's disease; Vestibular symptoms; Vestibular tests; Motion sickness

Highlights

Spontaneous internal vertigo was experienced by most VM patients.
Most VM patients have CT intolerance.
Spontaneous external vertigo was experienced by most MD patients.
MD patients mostly have severe vestibular symptoms and autonomic responses.
Most MD patients show CT(+) with vHIT(−) with the presence of saccades.

Highlights

Spontaneous internal vertigo was experienced by most VM patients.
Most VM patients have CT intolerance.
Spontaneous external vertigo was experienced by most MD patients.
MD patients mostly have severe vestibular symptoms and autonomic responses.
Most MD patients show CT(+) with vHIT(−) with the presence of saccades.

Introduction

Episodic Vestibular Syndrome (EVS) is a disorder characterized by brief episodes of vertigo, dizziness, and unsteadiness, lasting seconds to several hours, occasionally several days. The two most common EVS are Vestibular Migraine (VM) and Meniere's Disease (MD). Clinically, VM is typically characterized by recurrent vestibular symptoms and attacks with migraine features (migraine, photophobia, phonophobia), with a prevalence of about 1%‒2.7%,¹1 Beh SC. Vestibular Migraine. Curr Neurol Neurosci Rep. 2022;22:601-9. whereas MD as an inner ear disease is typically characterized by recurrent vestibular symptoms and audiological symptoms (fluctuating sensorineural hearing loss, aural fullness and tinnitus), with a prevalence of about 0.2%‒0.5%.²2 Alexander TH, Harris JP. Current epidemiology of Meniere's syndrome. Otolaryngol Clin North Am. 2010;43:965-70.

The differential diagnosis of VM from MD is challenging, because 28% of MD patients were reported to have VM symptoms, and 23% of VM patients have MD symptoms.³3 Neff BA, Staab JP, Eggers SD, Carlson ML, Schmitt WR, Van Abel KM, et al. Auditory and vestibular symptoms and chronic subjective dizziness in patients with Ménière's disease, vestibular migraine, and Ménière's disease with concomitant vestibular migraine. Otol Neurotol. 2012;33:1235-44. In clinical practice, VM and MD have tremendous impact on patients' daily life and work activities, and they are central and peripheral vestibular disorders, respectively, treatment methods and prognosis differ between patients with VM and MD, so it is necessary to further differentiate between VM and MD.

However, there is a lack of objective tests that can differentiate the vestibular symptoms between VM and MD patients. A previous study⁴4 Yilmaz MS, Egilmez OK, Kara A, Guven M, Demir D, Genc Elden S. Comparison of the results of caloric and video head impulse tests in patients with Meniere's disease and vestibular migraine. Eur Arch Otorhinolaryngol. 2021;278:1829-3 compared the results of Video Head Impulse Test (vHIT) and Caloric Testing (CT) in patients VM and MD, and found that CT was helpful in differentiating between VM and MD, but the study only evaluated semicircular canal function by vHIT and CT, and did not evaluate the intensity of CT-induced nystagmus and CT intolerance. The results of another study⁵5 Dlugaiczyk J, Habs M, Dieterich M. Vestibular evoked myogenic potentials in vestibular migraine and Menière's disease: cVEMPs make the difference. J Neurol. 2020;267(Suppl 1):169-180. anayzed the reaults of Vestibular Evoked Myogenic Potential (VEMP) in patients with VM and MD and showed that dysfunction of the saccule was more common in pateints with MD than those with VM. However, only few vestibular function tests (with limited test indexes) were used in the differential diagnosis of VM and MD acorss previous studies.

Therefore, in this study, we explored the clinical characteristics of VM and MD in a multidimensional manner, and compared the results of CT, vHIT and VEMP between patients with VM and MD, so as to find a test battery to identify the two diseases.

Methods

Patients

This was an observational, retrospective record review of 102 patients presenting with dizziness who visited the Vertigo Clinic of our hospital from January 2019 to July 2021. Definite VM were diagnosed based on the Barany Society Diagnostic Criteria for VM⁶6 Lempert T, Olesen J, Furman J, Waterston J, Seemungal B, Carey J, et al. Vestibular migraine: diagnostic criteria. J Vestib Res. 2012;22:167-72. (e.g., episodes of vestibular symptoms of moderate or severe intensity and a history of migraine), definite unilateral MD were diagnosed based on the Barany Society Diagnostic Criteria for MD⁷7 Lopez-Escamez JA, Carey J, Chung WH, Goebel JA, Magnusson M, Mandalà M, et al. Diagnostic criteria for Menière's disease. J Vestib Res. 2015;25:1- (e.g., episodic vertigo syndrome, sensorineural hearing loss and fluctuating aural symptoms). All patients received CT, vHIT and VEMP tests within 7 days after visiting the hospital. Routine otologic testing was performed to exclude patients with otologic disease, intracranial space occupying lesions, central nervous system disease, cervical spondylosis, and oculomotor dysfunction.

The study was approved by Peking University Aerospace School of Clinical Medicine (Aerospace Center Hospital). Written informed consent was obtained from all patients.

Clinical data collection

Data were collected through review of medical records. Clinical data including sex, age, symptoms during attacks, duration of symptoms and accompanying symptoms, neurological examination, and other auxiliary examinations, such as head MRI were collected.

Vestibular symptoms (e.g., predominant symptoms experienced by patients during acute attacks) including internal vertigo (a false sensation of motion of self), external vertigo (a false sensation of spinning and motion of surroundings) and duration of vestibular symptoms, migraine features (migraine, photophobia, phonophobia, and visual aura), auditory symptoms (hearing loss, ear fullness, tinnitus) and autonomic responses were collected.

The severity of vestibular symptoms was assessed using a self-report rating scale of dizziness/vertigo ranging from grades 1 to 5: Grade 1—I feel dizzy, but it has no impact on my daily activities; Grade 2—When I am feeling dizzy, I have to stop what I am doing for a while, the dizziness disappeared quickly, I can resume my activities immediately, I do not have to change any plans due to dizziness; Grade 3—When I am feeling dizzy, I have to stop what I am doing for a while, the dizziness disappeared quickly, I can resume my activities immediately, I have to change some plans due to dizziness; Grade 4—I must exert a great deal of effort to deal with daily activities, but I am often unable to do these things because of dizziness; Grade 5—I am unable to deal with daily activities, and even essential activities are limited.

Vestibular function tests

CT

Nystagmus, eye movements, and the Slow Phase Velocity (SPV) values of CT-induced were recorded with Video-Nystagmography (VNG, Interacoustics, Middelfart, Denmark). Patient in the supine position with 30° head flexion and air irrigator airflow at 50° and 24° within 60 s. Jongkees formula was used to determine Canal Paresis (CP), CP > 25% was defined as unilateral horizontal semicircular canal dysfunction, namely, CT(+). CT intolerance refers to the main symptoms, including obvious nausea, vomiting, palpitations, numbness in hands and feet, and body stiffness.

vHIT

vHIT (Interacoustics, Middelfart, Denmark) was used to evaluate the function of the three pairs of semicircular canals. 20 head impulses were delivered in each canal plane in a brief, rapid, passive manner, the angular velocity was 150-250°/s for the horizontal canal impulses, 100-200°/s for the vertical canal impulses, and the amplitude was 10-20°. The vHIT software was used to record the average slow phase Vestibulo-Ocular Reflex (VOR) gain values (the ratio of eye velocity to head velocity at 60 s). The normal VOR gain for the horizontal semicircular canals was between 0.79‒1.20.⁸8 Mossman B, Mossman S, Purdie G, Schneider E. Age dependent normal horizontal VOR gain of head impulse test as measured with video-oculography. J Otolaryngol Head Neck Surg. 2015;44:29.,⁹9 Blödow A, Pannasch S, Walther LE. Detection of isolated covert saccades with the video head impulse test in peripheral vestibular disorders. Auris Nasus Larynx. 2013;40:348-51. The presence or absence of overt or covert saccades, and the VOR gain were recorded. A reduction in VOR gain value with the presence of saccades indicated vHIT(+).

VEMP

Eclipse evoked potential system (Interacoustics, Middelfart, Denmark) was used to record the response and waveforms for the right and left ears. Normal bilateral amplitude asymmetry ratios were defined as cVEMP ≤ 0.35 and oVEMP ≤ 0.33. The normal VEMP latency values defined by our laboratory were: N18 and P25 cervical VEMP (cVEMP) latencies, N13 and P18 ocular VEMP (oVEMP) latencies. Non-elicitation of waveforms, amplitude asymmetry ratio falling outside of the normal range, and latency prolongation were considered as abnormal VEMP results.

Statistical analysis

Continuous variables were expressed as mean ± Standard Deviation (SD) or median with Interquartile Range (IQR). The normality of distribution of continuous variables was tested by Kolmogorov-Smirnov test. Comparisons for normally distributed data between groups were performed by using two independent sample t-test. The categorical variables were expressed as percentages, and comparisons between groups were performed using the Chi-Square (χ2) test with Yates' continuity correction or Fisher's exact test, as appropriate. All reported p-values are two-tailed, and a p< 0.05 was considered statistically significant. All statistical analyses were performed with SPSS 20.0 software.

Results

Clinical characteristics of patients with VM and MD

Baseline characteristics

In the VM group, there were 14 males and 57 females, with an average age of 44.00 ± 14.44 years (range 12-66 years old). In the MD group, there were 13 males and 18 females, with an average age of 58.50 ± 12.88 years (range 24-76 years old). Migraine features, motion sickness, and Central Positional Nystagmus (CPN) were more common in VM group than MD group (p= 0.001, 0.010, 0.002, respectively). Auditory symptoms were more common in MD group than VM group (p< 0.001, Table 1).

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Table 1
Clinical baseline characteristics of VM patients and MD.

Vestibular symptoms

Spontaneous and triggered dizziness/vertigo were experienced by 60.6% (43/71) and 39.4% (28/71) of VM patients, respectively, which were experienced by 80.6% (25/31) and 19.4% (6/31) of MD patients, respectively, the differences were statistically significant between two groups (Chi-Square test, p= 0.048). Further analysis of patients with spontaneous dizziness/vertigo showed that 58.1% (25/43) and 41.9% (18/43) of VM patients experienced spontaneous vertigo and spontaneous dizziness, respectively, 84.0% (21/25) and 16.0% (4/25) of MD patients experienced spontaneous vertigo and spontaneous dizziness, respectively, the differences were not statistically significant between two groups (Chi-Square test, p= 0.054). Further classification of spontaneous vertigo showed that 64.0% (16/25) and 36.0% (9/25) of VM patients experienced spontaneous internal and external vertigo, respectively, 33.3% (7/21) and 66.7% (14/21) of MD patients experienced spontaneous internal and external vertigo, respectively, the differences were statistically significant between the two groups (Chi-Square test, p= 0.035, Fig. 1).

Figure 1
Classification of vestibular symptoms in VM patients and MD.

Severity of vestibular symptoms and autonomic responses

MD patients had more severe vestibular symptoms compared to VM patients during attacks (Nonparametric test, p= 0.035, Table 2). MD patients also had more severe autonomic responses during attacks (Nonparametric test, p< 0.001, Table 3).

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Table 2
Severity of vestibular symptoms in VM patients and MD during attacks.

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Table 3
Severity of autonomic responses in VM patients and MD during attacks.

Duration of vestibular symptoms

The duration of vestibular symptoms in VM patients varied widely, the symptoms lasted less than 1 min in 18.3% (13/71) of patients, between 1 min and 1 h in 38.0% (27/71) of patients, several hours in 18.3% (13/71) of patients, more than 24 h in 25.4% (18/71) of patients. The duration of vestibular symptoms in MD patients usually lasted several hours, between 1 min and 1 h in 19.4% (6/31), several hours in 71.0% (22/31), and more than 24 h in 9.7% (3/31). The differences were statistically significant between two groups (p< 0.001, Fig. 2).

Figure 2
The duration of vestibular symptoms in VM patients and MD. The duration of vestibular symptoms was divided into: <1 min, 1 min-1 h, hours, and >24 h.

Vestibular function test results

CT

The incidence of CT(+) was higher in MD patients than in VM patients (77.4% [24/31] vs. 21.1% [15/71], Chi-Square test, p< 0.001, Fig. 3A). The nystagmus intensity of CT-induced (the SPV values of CT-induced nystagmus) was greater in VM patients than in MD patients (89.14 ± 39.88 vs. 65.23 ± 27.82, p= 0.003, Fig. 3B). The incidence of CT intolerance was significantly higher in VM patients than in MD patients (62.0% [44/71] vs. 32.3% [10/31], Chi-Square test, p= 0.006, Fig. 3C).

Figure 3
Comparison of CT results between VM patients and MD. (A) Horizontal semicircular canal function in VM and MD patients. (B) The SPV of caloric-induced nystagmus in VM and MD patients. (C) The incidence of CT intolerance in VM and MD patients.

vHIT

Fewer VM patients had overt and covert saccades in the horizontal semicircular canal compared with MD patients (21.6% [8/37] vs. 59.3% [16/27], Chi-Square test, p= 0.002, Fig. 4A). No statistically significant difference was found in VOR gains of all semicircular canals between the two groups (p> 0.05, Fig. 4B). 2.7% (1/37) of VM and 3.7% (1/27) of MD patients had abnormal vHIT (Chi-square test, p> 0.05).

Figure 4
Comparison of vHIT results between VM patients and MD. (A) The presence or absence of saccades. (B) VOR gains of all semicircular canals. LC, Horizontal Canal; PC, Posterior Canal; AC, Anterior Canal; VC, Vertical Canal.

The combined results of CT and vHIT

CT(−) with vHIT(−) was the most common pattern in VM group, which was observed more frequently when compared with MD group (78.4% [29/37] vs. 18.5% [5/27], Chi-Square test, p< 0.001, Table 4), whereas CT(+) with vHITT(−) was the most common pattern in the MD group (18.9% [7/37) vs. 77.8% [21/27], Chi-Square test, p< 0.001, Table 4).

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Table 4
Comparison of the combined results of CT and vHIT between VM patients and MD.

VMEP

There were no significant differences in the abnormal rates of oVEMP and cVEMP between the two groups (oVEMP, 19.2% [5/26] vs. 32.1% [9/28], Chi-Square test, p= 0.279; cVEMP, 8.5% [5/27] vs. 30.8% [8/26], Chi-Square test, p= 0.300). However, the non-elicitation rate of cVEMP was higher in the MD group than in the VM group (19.2% [5/26] vs. 0.0% [0/27], Fisher's Exact test, p= 0.002). There were significant differences in oVEMP amplitude between VM and MD groups (5.00 [4.00-5.67] vs. 4.33 [3.67-5.00], Nonparametric test, p= 0.018, Fig. 5), no statistically significant difference in cVEMP amplitude between the two groups (9.00 ± 1.96 vs. 8.33 ± 1.85, t-test, p= 0.181, Fig. 5).

Figure 5
Comparison of VEMP results between VM patients and MD.

Discussion

Vestibular symptoms in VM and MD

Few studies have been conducted to differentiate the vestibular symptoms between VM and MD patients. In this study, we found that the nature of vestibular symptoms during attacks in VM patients was diverse, with both spontaneous and triggered dizziness/vertigo being common. Numerous studies have found that spontaneous vertigo accounted for 20%‒85% of VM patients, head motion intolerance and positional vertigo accounted for 20%‒85% and 18%‒60% of VM pateints, respectively.¹⁰10 Beh SC, Masrour S, Smith SV, Friedman DI. The spectrum of vestibular migraine: clinical features, triggers, and examination findings. Headache. 2019;59(5):727-40.,¹¹11 Chen JY, Guo ZQ, Wang J, Liu D, Tian E, Guo JQ, Kong WJ, Zhang SL. Vestibular migraine or Meniere's disease: a diagnostic dilemma. J Neurol. 2023;270:1955-68. In contrast, spontaneous vertigo is the most common complaint among MD patients. In terms of internal/external vertigo, we found that VM patients experienced spontaneous internal vertigo, whereas MD patients experienced spontaneous external vertigo. Our results are consistent with the finding from a prospective multi-center study.¹²12 Teggi R, Colombo B, Albera R, Asprella Libonati G, Balzanelli C, Batuecas Caletrio A, et al. Clinical features, familial history, and migraine precursors in patients with definite vestibular migraine: The VM-phenotypes projects. Headache. 2018;58:534-44. showing that internal vertigo was more common than external vertigo in VM patients. We also found that the duration of vestibular symptoms in VM patients varied widely, while MD patients lasted mainly for several hours. Additionally, the results of this study showed that MD patients had more severe vestibular symptoms and autonomic responses than those with VM during attacks. A previous study¹²12 Teggi R, Colombo B, Albera R, Asprella Libonati G, Balzanelli C, Batuecas Caletrio A, et al. Clinical features, familial history, and migraine precursors in patients with definite vestibular migraine: The VM-phenotypes projects. Headache. 2018;58:534-44. showed VM patients often experience nausea (59.9%), and rarely experience vomiting (17.8%). MD patients complain of more severe vestibular symptoms than VM patients during the attacks, our results further confirm that VM is a central vestibular disorder, and MD is a peripheral vestibular disorder, and indicate that the diverse nature of vestibular symptom episodes (especially internal vertigo) may provide clues to the diagnosis of VM. In contrast, external vertigo, vestibular symptoms lasing several hours, and more severe vestibular symptoms and autonomic responses may provide clues to the diagnosis of MD.

Accompanying symptoms in VM and MD

In this study, we found that 36.6% of VM patients had auditory symptoms, and 29.0% of MD patients had migraine features. The overlap of symptoms during vertigo attacks in MD and VM makes it more difficult to distinguish between them. We also found that motion sickness was more common in VM patients than in MD patients. The result is consistent with previous studies showing that VM patients were more vulnerable to motion sickness,¹⁰10 Beh SC, Masrour S, Smith SV, Friedman DI. The spectrum of vestibular migraine: clinical features, triggers, and examination findings. Headache. 2019;59(5):727-40.,¹³13 Sharon JD, Hullar TE. Motion sensitivity and caloric responsiveness in vestibular migraine and Meniere's disease. Laryngoscope. 2014;124:969-73.,¹⁴14 Abouzari M, Cheung D, Pham T, Goshtasbi K, Sarna B, Tajran S, et al. The relationship between vestibular migraine and motion sickness susceptibility. Otol Neurotol. 2020;41:1116-21. indicating that VM patients exhibit vestibular hypersensitivity and visual-vestibular mismatch. Therefore, motion sickness may provide clues to the diagnosis of VM.

Vestibular function in VM and MD

Results of this study showed that the nystagmus intensity of CT-induced was greater in VM patients than that in MD patients. Similar results were obtained by a previous study.¹⁵15 Chang YE, Zhuang JH, Zhou LL, Tong B, Zhou XW, Gao B. Comparison of caloric responses between vestibular migraine and Ménière disease patients. Er Be Yan Hou Tou Jing Wai Ke Za Zhi. 2016;30:15-18. However, another study¹³13 Sharon JD, Hullar TE. Motion sensitivity and caloric responsiveness in vestibular migraine and Meniere's disease. Laryngoscope. 2014;124:969-73. showed that the nystagmus intensity of CT-induced was not different between VM and MD patients. The results of the present study also showed that compared with MD patients, VM patients were more likely to develop CT intolerance, and intolerance-related symptoms may persist for several hours after completion of CT. Previous studies¹³13 Sharon JD, Hullar TE. Motion sensitivity and caloric responsiveness in vestibular migraine and Meniere's disease. Laryngoscope. 2014;124:969-73.,¹⁶16 Vitkovic J, Paine M, Rance G. Neuro-otological findings in patients with migraine- and nonmigraine-related dizziness. Audiol Neurootol. 2008;13:113-22.,¹⁷17 Li ZY, Shen B, Si LH, Ling X, Li KZ, Yang X. Clinical characteristics of definite vestibular migraine diagnosed according to criteria jointly formulated by the Bárány Society and the International Headache Society. Braz J Otorhinolaryngol. 2022;88 Suppl 3(Suppl 3):S147-S154. also found that CT intolerance occurred more frequently in VM patients, and the mechanism may be related to the increase in VOR time constant caused by hypersensitivity of vestibular system.¹⁸18 Jeong SH, Oh SY, Kim HJ, Koo JW, Kim JS. Vestibular dysfunction in migraine: effects of associated vertigo and motion sickness. J Neurol. 2010;257:905-12.

19 King S, Priesol AJ, Davidi SE, Merfeld DM, Ehtemam F, Lewis RF. Self-motion perception is sensitized in vestibular migraine: pathophysiologic and clinical implications. Sci Rep. 2019;9:14323.-²⁰20 Li ZY, Si LH, Shen B, Yang X. Altered brain network functional connectivity patterns in patients with vestibular migraine diagnosed according to the diagnostic criteria of the Bárány Society and the International Headache Society. J Neurol. 2022;269:3026-36. VM patients were more likely to develop CT-induced nystagmus and CT intolerance, we hypothesized that vestibular hypersensitivity may be a possible mechanism for VM, and vestibular hypersensitivity is possibly caused by the disinhibition of sensorimotor network and vestibular cortical network.¹⁷17 Li ZY, Shen B, Si LH, Ling X, Li KZ, Yang X. Clinical characteristics of definite vestibular migraine diagnosed according to criteria jointly formulated by the Bárány Society and the International Headache Society. Braz J Otorhinolaryngol. 2022;88 Suppl 3(Suppl 3):S147-S154.

In this study, we found that the majority of MD patients had CT(+) and vHIT(−), the result is consistent with previous studies.²¹21 Hannigan IP, Welgampola MS, Watson SRD. Dissociation of caloric and head impulse tests: a marker of Meniere's disease. J Neurol. 2021;268:431-9.,²²22 Oliveira LNR, Oliveira CLA, Lopes KC, Ganança FF. Diagnostic assessment of patients with Meniere's disease through caloric testing and the video-head-impulse test. Braz J Otorhinolaryngol. 2021;87:428-33. The mechanism for dissociation between CT and vHIT results is believed to be endolymphatic hydrops.²¹21 Hannigan IP, Welgampola MS, Watson SRD. Dissociation of caloric and head impulse tests: a marker of Meniere's disease. J Neurol. 2021;268:431-9.,²³23 McGarvie LA, Curthoys IS, MacDougall HG, Halmagyi GM. What does the dissociation between the results of video head impulse versus caloric testing reveal about the vestibular dysfunction in Ménière's disease? Acta Otolaryngol. 2015;135:859-65. Endolymphatic hydrops expands the volume of endolymphatic duct, causing convective currents between low- and high-density endolymph, resulting in pressure gradient created near the crista ampullaris and the reduction of the buoyant force, which counteract the hydrostatic pressure acting on the crista ampullaris, thus weakening the degree of hair cell deflection on the crista ampullaris. Therefore, MD patients had CT(+). However, since the volume or shape of the entire bony labyrinth does not change, there is no change in the stimulation velocity produced by vHIT, the vHIT gain was normal in MD patients. A previous study²⁴24 Choi JE, Kim YK, Cho YS, Lee K, Park HW, Yoon SH, et al. Morphological correlation between caloric tests and vestibular hydrops in Ménière's disease using intravenous Gd enhanced inner ear MRI. PLoS One. 2017;12:e0188301. found that in MD patients with normal vHIT gain, the reduction in caloric response was correlated with the degree of endolymphatic hydrops. In this study, we also found that the majority of MD patients had normal vHIT gain but exhibited horizontal canal saccades, suggesting that in addition to the impairment of low-frequency semicircular canal function, MD patients may also have mild impairment of high-frequency semicircular canal function. Several studies have shown that during vHIT, saccades were usually found in MD patients.²⁵25 Jerin C, Maxwell R, Gürkov R. High-frequency horizontal semicircular canal function in certain Menière's Disease. Ear Hear. 2019;40:128-34.,²⁶26 Bharadwaj S, Petrak MR, Bahner CM, Sharp LE, Mosey-Claycomb SF, Matsuoka AJ. Diagnostic value of refixation saccades in the Video Head Impulse Test (vHIT) in unilateral definite Meniere's disease. Acta Otolaryngol. 2020;140:537-43. A study²⁷27 Du Y, Liu X, Ren L, Wu N, Guo W, Wu Z, et al. Exploratory saccades data analysis of video head impulse test in different Meniere's disease stages. J Vestib Res. 2022;32:183-92. also showed that the 1st saccade velocity on the affected side could indicate the duration and severity of MD.

In this study, the majority of VM patients showed CT(−) and vHIT(−), 21.1% of VM patients showed CT(+), and 2.7% showed vHIT(+). In previous studies, the abnormal rates of CT and vHIT in VM patients were reported to be 8%‒22 %,²⁸28 Young AS, Nham B, Bradshaw AP, Calic Z, Pogson JM, D'Souza M, et al S. Clinical, oculographic, and vestibular test characteristics of vestibular migraine. Cephalalgia. 2021;41:1039-52. and 9%‒11%,²⁸28 Young AS, Nham B, Bradshaw AP, Calic Z, Pogson JM, D'Souza M, et al S. Clinical, oculographic, and vestibular test characteristics of vestibular migraine. Cephalalgia. 2021;41:1039-52.,²⁹29 Kang WS, Lee SH, Yang CJ, Ahn JH, Chung JW, Park HJ. Vestibular function tests for vestibular migraine: clinical implication of video head impulse and caloric tests. Front Neurol. 2016;7:166. respectively. This evidence seemed to support that peripheral vestibular deficit also contributes to the pathogenesis of VM.

Therefore, a battery of CT and vHIT can be used to differentiate between MD and VM. Multiple vestibular function test indexes can be evaluated. For example, during CT, CP values, the intensity of CT-induced nystagmus, and CT intolerance can be assessed. The stronger intensity of CT-induced nystagmus and CT intolerance may provide clues to the diagnosis of VM, while CT(+) with vHIT(−), and the presence of overt and covert saccades may provide clues to the diagnosis of MD.

VEMP has been used to assist in differentiating between VM and MD, but the results are controversial.⁵5 Dlugaiczyk J, Habs M, Dieterich M. Vestibular evoked myogenic potentials in vestibular migraine and Menière's disease: cVEMPs make the difference. J Neurol. 2020;267(Suppl 1):169-180.,³⁰30 Rizk HG, Liu YF, Strange CC, Van Ausdal CH, English RC, McRackan TR, et al. Predictive value of vestibular evoked myogenic potentials in the diagnosis of menière's disease and vestibular migraine. Otol Neurotol. 2020;41:828-35. A prospective cohort study showed that VEMP were not able to discriminate between VM and MD, but MD patients showed reduced oVEMP amplitude.³¹31 Zuniga MG, Janky KL, Schubert MC, Carey JP. Can vestibular-evoked myogenic potentials help differentiate Ménière disease from vestibular migraine? Otolaryngol Head Neck Surg. 2012;146:788-96. In this study, oVEMP amplitude was lower in MD patients than in VM patients, but the non-elicitation rate of cVEMP was higher in MD patients than that in VM patients. We hypothesized that most MD patients have saccular dysfunction.

Additionally, 29.6% (21/71) of VM patients showed CPN. We hypothesized that the vestibular nuclei is activated by brainstem regions associated with migraine (e.g., locus coeruleus; dorsal raphe nucleus) during VM attacks, inhibition of the cerebellar nodulus and uvula is no longer sufficient to maintain stability, so changes in the head position often result in positional nystagmus and vertigo.¹⁹19 King S, Priesol AJ, Davidi SE, Merfeld DM, Ehtemam F, Lewis RF. Self-motion perception is sensitized in vestibular migraine: pathophysiologic and clinical implications. Sci Rep. 2019;9:14323.,³²32 Lemos J, Strupp M. Central positional nystagmus: an update. J Neurol. 2022;269:1851-60. Brain dysfunction may be a mechanism for VM.

Limitation

First, this is a sigle-center, retrospective study with a small sample size, future studies with larger sample sizes are needed to confirm our findings. Second, the present did not performe audiologic tests in pateints with VM and MD, it is worth further investigating whether a battery of audiologic tests can be used to distinguish these between the two disorders.

Conclusions

Vestibular symptoms during attacks combined with the vestibular function tests may be used to differentiate between VM and MD. The diverse nature of vestibular symptoms (especially internal vertigo), history of motion sickness and CT intolerance may provide clues to the diagnosis of VM. Vestibular hypersensitivity and brain dysfunction are speculated to be the possible mechanisms of VM. Spontaneous external vertigo, CT(+) with vHIT(−), and the present of saccades may provide clues to the diagnosis of MD.

Funding

This study was supported by Aerospace Center Hospital (HP2021-03-50703).

References

¹
Beh SC. Vestibular Migraine. Curr Neurol Neurosci Rep. 2022;22:601-9.
²
Alexander TH, Harris JP. Current epidemiology of Meniere's syndrome. Otolaryngol Clin North Am. 2010;43:965-70.
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Publication Dates

Publication in this collection
25 Aug 2023
Date of issue
2023

History

Received
23 Oct 2022
Accepted
3 May 2023
Published
16 May 2023

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Funding

This study was supported by Aerospace Center Hospital (HP2021-03-50703).

	VM (n= 71)	MD (n= 31)	p-value
Sex ratio (male:female)	14 (19.7%):57 (80.3%)	13 (41.9%):18 (58.1%)	p= 0.019^a a p< 0.05.
migraine features (yes)	71 (100%)	9 (29.0%)	p= 0.00^a a p< 0.05.
Auditory symptoms (yes)	26 (36.6%)	31 (100%)	p= 0.000^a a p< 0.05.
History of motion sickness	38 (53.5%)	8 (25.8%)	p= 0.010^a a p< 0.05.
Central positional nystagmus	28 (39.4%)	2 (6.5%)	p= 0.002^a a p< 0.05.

Groups	Severity of vestibular symptoms					Z value	p-value
Groups	1 Grade	2 Grade	3 Grade	4 Grade	5 Grade	Z value	p-value
VM (n= 71)	2	32	33	3	1	−2.958	0.03
MD (n= 31)	0	7	17	4	3	−2.958	0.03

Groups	Severity of autonomic response			Z value	p-value
Groups	None	Mild	Severe	Z value	p-value
VM (n= 71)	27	19	15	−4.082	<0.001
MD (n= 31)	5	3	23	−4.082	<0.001

Group	CT(−) vHIT(−)	CT(−) vHIT(+)	CT(+) vHIT(−)	CT(+) vHIT(+)
VM (n= 37)	29 (78.4%)	0 (0.00%)	7 (18.9%)	1 (2.7%)
MD (n= 27)	5 (18.5%)	0 (0.00%)	21 (77.8%)	1 (3.7%)
p-value	<0.001		<0.001	1.000

Brasil

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Comparison of clinical characteristics and vestibular function test results in patients with vestibular migraine and Menière’s disease

Abstract

Objectives

Methods

Results

Conclusions

Highlights

Highlights

Introduction

Methods

Patients

Clinical data collection

Vestibular function tests

CT

vHIT

VEMP

Statistical analysis

Results

Clinical characteristics of patients with VM and MD

Baseline characteristics

Vestibular symptoms

Severity of vestibular symptoms and autonomic responses

Duration of vestibular symptoms

Vestibular function test results

CT

vHIT

The combined results of CT and vHIT

VMEP

Discussion

Vestibular symptoms in VM and MD

Accompanying symptoms in VM and MD

Vestibular function in VM and MD

Limitation

Conclusions

References

Publication Dates

History