Diagnostic assessment of patients with Meniere's disease through caloric testing and the video-head-impulse test

Oliveira, Lívia Noleto de Rezende; Oliveira, Cleydson Lucena de Andrada; Lopes, Karen de Carvalho; Ganança, Fernando Freitas

doi:10.1016/j.bjorl.2019.10.008

Abstract

Introduction

Meniere's disease is a labyrinth disease that usually presents with episodes of spontaneous vertigo associated with sensorineural hearing loss, tinnitus and ipsi- and unilateral aural fullness in most cases. Vestibular function tests, video-head-impulse test and the caloric test, are not specific for diagnosis of the disease, but may show alterations that help to evaluate the functional impairment.

Objective

To describe the results obtained at the caloric test and video-head-impulse test in patients with definite Meniere's disease and compare them between symptomatic, asymptomatic ears and those of the control group.

Methods

Cross-sectional and observational study including patients with definite Meniere's disease diagnosed according to the Bárány Society criteria (2015) and healthy individuals (control group) undergoing caloric test and video-head-impulse test. All subjects were assessed by neurotological anamnesis and audiological evaluation (pure-tone, vocal and immittance audiometry) to characterize the sample. The findings obtained at the caloric test and video-head-impulse test were described and compared between the symptomatic and asymptomatic ears of patients with Meniere's disease and those of the control group.

Results

Thirty-two patients with definite Meniere's disease were evaluated, with a mean age of 45.7 years, mostly females (68.8%) and unilateral disease. The control group consisted of 20 healthy individuals, with a mean age of 44.7 years, mostly females (70.0%). The groups were homogeneous in relation to age and gender. The patients' main complaint was vertigo (71.9%), and most patients had more than six episodes in the last six months (71.9%). Moderate sensorineural hearing loss was present in 38.5% of patients. The prevalence of hyporeflexia at the caloric test was higher in symptomatic (56.4%) and asymptomatic (36%) ears of patients with Meniere's disease compared to the ears of control subjects (7.5%), p < 0.001 and p = 0.004, respectively. Video-head-impulse test alterations in the lateral semicircular canals were more frequent in the symptomatic ears of patients with Meniere's disease than in the ears of control subjects (p = 0.026).

Conclusion

Most patients with definite Meniere's disease showed hyporeflexia at the caloric test and video-head-impulse test with normal function in the symptomatic ear. Vestibular hyporeflexia at the caloric test was more frequent in the symptomatic and asymptomatic ears of patients with Meniere's disease than in the control group. The video-head-impulse test showed more alterations in the lateral semicircular canals.

Keywords
Meniere's disease; Vertigo; Hearing loss; Vestibular functional test

Resumo

Introdução

Doença de Ménière é uma labirintopatia que geralmente se manifesta com episódios de vertigem espontânea, associada à perda auditiva neurossensorial, ao zumbido e à plenitude aural ipsi e unilateral, na maioria dos casos. Os testes da função vestibular, vídeo-teste do impulso cefálico e prova calórica não são específicos para a doença, porém podem apresentar alterações que ajudam a avaliar o comprometimento funcional.

Objetivo

Descrever os resultados obtidos à prova calórica e ao vídeo-teste do impulso cefálico nos pacientes com doença de Ménière definida e compará-los entre as orelhas sintomáticas, assintomáticas e com as orelhas dos indivíduos do grupo-controle.

Método

Estudo transversal e observacional que incluiu pacientes com doença de Ménière definida diagnosticados de acordo com os critérios da Sociedade Bárány (2015) e indivíduos saudáveis (grupo controle) submetidos à prova calórica e ao vídeo-teste do impulso cefálico. Todos os sujeitos foram avaliados por meio de anamnese otoneurológica e avaliação audiológica (audiometria tonal, vocal e imitanciometria) para caracterização da amostra. Os achados obtidos foram descritos e comparados entre as orelhas sintomáticas e assintomáticas dos pacientes com doença de Ménière e também com as do grupo-controle.

Resultados

Foram avaliados 32 pacientes com doença de Ménière definida. A média de idade dos pacientes foi de 45,7 anos, a maioria do sexo feminino (68,8%) e unilateral. O grupo-controle foi composto por 20 indivíduos saudáveis, com média de 44,7 anos e maioria feminina (70,0%). Os grupos mostraram-se homogêneos em relação à idade e ao sexo. A principal queixa dos pacientes foi a vertigem (71,9%). A maioria dos pacientes apresentou mais de seis crises nos últimos seis meses (71,9%). A perda auditiva neurossensorial moderada esteve presente em 38,5% dos pacientes. A prevalência da hiporreflexia à prova calórica foi maior nas orelhas sintomáticas (56,4%) e assintomáticas (36%) dos pacientes com doença de Ménière quando comparadas às orelhas dos indivíduos do grupo-controle (7,5%), valor de p < 0,001 e p = 0,004 respectivamente. As alterações de vídeo-teste do impulso cefálico de canal semicircular lateral foram mais frequentes nas orelhas sintomáticas dos pacientes com doença de Ménière do que nas orelhas dos indivíduos controles, (p = 0,026).

Conclusão

A maioria dos pacientes com doença de Ménière definida apresentou hiporreflexia à prova calórica e vídeo-teste do impulso cefálico com função normal na orelha sintomática. A hiporreflexia vestibular à prova calórica foi mais frequente nas orelhas sintomáticas e assintomáticas dos pacientes com doença de Ménière do que nas orelhas do grupo-controle. O vídeo-teste do impulso cefálico apresentou mais alterações no canal semicircular lateral.

Palavras-chave
Doença de Ménière; Vertigem; Perda auditiva; Teste funcional vestibular

Introduction

Meniere's Disease (MD) is a clinical syndrome consisting of spontaneous vertigo episodes associated with sensorineural hearing loss (SNHL) and fluctuating hearing symptoms (hearing, tinnitus and aural fullness) in the affected ear.¹1 Lopez-Escamez JA, Carey J, Chung W, Goebeld JA, Magnussone M, Mandalaf M, et al. Diagnostic criteria for Menière's disease. J Vestib Res. 2015;1:1-7.

The histopathological substrate of MD corresponds to endolymphatic hydrops (EH), described in 1938 by Hallpike and Cairns and detectable in pathological studies of temporal bones.²2 Hallpike CS, Carins HBW. Observations of pathology of Meniere's syndrome. Proc R Soc Med. 1938;31:1317-36.^,³3 Foster CA, Breeze RE. Endolymphatic hydrops in Meniere's disease: cause, consequence, or epiphenomenon?. Otol Neurotol. 2013;34:1210-4. EH is the excess of endolymph in the membranous labyrinth, which leads to the dilation of the cochlear duct, saccule, semicircular canals, and utricle.

Although there are no specific findings for the diagnosis of MD in vestibular tests, functional assessment of inner ear structures is important to measure disease impairment, in order to establish prognosis and more specific treatment.

The caloric test (CT) is the oldest method for functional assessment of the vestibular system, although it only evaluates the lateral semicircular canals (SCCs), through low frequency stimuli, around 0.002-0.004 Hz, allowing the separate identification of the impaired labyrinth.⁴4 Perez N, Rama-Lopez J. Head-impulse and caloric tests in patients with dizziness. Otol Neurotol. 2013;24:913-7. There is no pathognomonic finding of MD at the CT, which may show normal responses, hyperreflexia, hyporeflexia, unilateral or bilateral arreflexia, although the most common result is hyporeflexia of the affected labyrinth.⁵5 Paparella MM. Pathogenesis and pathophysiology of Ménière's disease. Acta Otolaryngol (Stockh). 1991;485:26-35.

The video-head-impulse test (vHIT) evaluates the three SCCs on each side of the labyrinth. vHIT is the computerized quantitative analysis of the head-impulse test (HIT), which measures the angular gain of the Vestibulo-Ocular Reflex (VOR).⁶6 Weber KP, Aw ST, Todd MJ, McGarvie LA, Curthoys IS, Halmagyi GM. Head impulse test in unilateral vestibular loss: vestibulo-ocular reflex and catch-up saccades. Neurology. 2008;70:454-63. The HIT is a very specific test of the SCC function, as its response is very fast. While stimulation is performed at low frequencies in the CT, labyrinth stimulation is performed at high frequencies in the vHIT, at around 5-7 Hz.⁷7 Weber KP, MacDougall HG, Halmagy GM, Curthoysn IS. Impulsive testing of semicircular canal function using video-oculography. Ann N Y Acad Sci. 2009;1164:486-91.

Despite the several scientific studies carried out on MD, it is not yet clear how vestibular function is influenced by this disease. Considering the fact that it is a disease with clinical variants, a more detailed vestibular evaluation is extremely important. Further studies involving both tests are needed to provide a more accurate investigation and better follow-up for patients suffering from the disease.

The aim of this study was to describe the results obtained at the CT and vHIT in patients with definite MD and to compare the results obtained between symptomatic and asymptomatic ears of patients with MD and also with those of the control group.

Methods

An observational and cross-sectional study was carried out at the Neurotology Outpatient Clinic of the Otology and Neurotology Discipline of the Department of Otorhinolaryngology and Head and Neck Surgery of Universidade Federal de São Paulo.

This study was approved in 2016 by the Research Ethics Committee (REC) of the Institution, Plataforma Brasil - number 59556216.8.0000.5505.

Patients of both genders aged 18-65 years old, with a definite clinical diagnosis of MD, according to the Bárány Society criteria (2015), were consecutively recruited at the Neurotology Outpatient Clinic from April 1, 2017 to December 1, 2018.¹1 Lopez-Escamez JA, Carey J, Chung W, Goebeld JA, Magnussone M, Mandalaf M, et al. Diagnostic criteria for Menière's disease. J Vestib Res. 2015;1:1-7.

Exclusion criteria included patients with other vestibular diseases, chronic otological, cervical, and eye diseases that prevented proper visualization of the target during vHIT or eye movements, diseases of the central nervous system and those who had already been submitted to an invasive procedure in any of the ears.

The control group consisted of individuals of both genders, aged between 18 and 65 years, with no auditory-vestibular complaints or other comorbidities and who agreed to participate in the study.

The patients underwent a diagnostic routine consisting of complete neurotological history, otorhinolaryngological and neurotological exams, and audiological evaluation (pure-tone, vocal and immittance audiometry). Vestibular evaluation was performed by videonystagmography (VNG) with CT and vHIT. These two tests were performed 1 h apart and at least 72 h after the MD crisis and the first exam was vHIT, followed by CT. Both examinations were performed by the same researcher, who is an otorhinolaryngologist and the main author of this study, experienced in performing these tests, and who knew which study group each subject belonged to.

Patients were instructed not to consume alcoholic or caffeinated beverages, chocolate, avoid smoking or use medications such as painkillers, vestibular suppressants (anti-vertigo and sedative drugs) for 72 h before the vestibular function tests.

The clinical questionnaire consisted of sociodemographic and clinical data, such as the disease duration, the frequency of vertigo episodes in the last six months, disease laterality and the main symptom, i.e., the one causing the most discomfort at the time of the evaluation.

The patients were distributed according to the number of vertigo episodes in the last six months into three groups: I (≤2 episodes), II (3-5 episodes), III (≥6) and according to the audiometric staging system proposed by AAO-HNS (1995), which is based on the average of the pure-tone thresholds of the 500 Hz, 1 kHz, 2 kHz and 3 kHz frequencies, the patients' ears were classified in four stages: I (≤25 dBHL), II (26-40 dBHL), III (41-69 dBHL) and IV (≥70 dBHL).⁸8 Committee on Hearing, Equilibrium Guidelines for the Diagnosis, Evaluation of Therapy in Meniere's Disease. American Academy of Otolaryngology-Head and Neck Foundation, Inc. Otolaryngol Head Neck Surg. 1995;113:181-5.

The CT was performed with the patient wearing the closed VNG mask, in the horizontal supine position, with the head extended at 30°, verticalizing the lateral channels, with the ampules in the upward position, using the air otocalorimeter (ICS Air Cal, GN-Otometrics, Denmark) (24 °C for cold testing and 50 °C for hot testing), with a volume of 8 L of air per minute and duration of 60 s, with an interval between irrigations of 5 min. After the irrigation, we waited for the Slow Component Angular Velocity (SCAV); the patient then fixed their eyes on a bright spot, which was recorded from the beginning and for another 30 s after ocular fixation. The patient performed mental activity throughout and after irrigation to decrease cortical inhibition of the post-caloric response. The stimulation sequence followed the sequence: cold right, cold left, hot left and hot right. Absolute unilateral hyporeflexia was considered when the sum of the SCAV values of the cold and hot tests, of the right or left ear was <5°/s. Absolute bilateral hyporeflexia was considered when the sum of the SCAV values in the four tests was <12°/s. To evaluate the Labyrinthine Predominance (LP), we calculated the percentage difference between the responses of the two labyrinths, quantified according to Jongkees' formula, where the best response of the angular velocity of the slow component at each temperature and in each ear is chosen. Relative hyporeflexia was considered in cases when LP was >19%.⁹9 Albertino S, Bittar RSM, Bottino MA, Ganança MM, Gonçalves DU, Greters ME, et al. Valores de referência da prova calórica a ar. Braz J Otorhinolaryngol. 2012;78:2.

To perform v-HIT (ICS, GN Otometrics, Denmark), unpredictable manual movements were performed on the yaw axis for lateral canal testing. The impulses must have an angle between 15° and 20° from midline, velocity between 100° and 250°/s and acceleration between 1000° and 2500°/s². The vertical canal tests were performed in the diagonal plane, between the roll and pitch axes, with the head rotated 35° to the right or left from midline.

The test plane when the head is rotated to the right takes the LARP (Left Anterior and Right Posterior) plane; when turned 35° to the left, it assumes the RALP (Right Anterior and Left Posterior) plane. These movements can have an amplitude between 10° and 20°, velocity between 80° and 250°/s and acceleration between 750° and 5000°/s².⁷7 Weber KP, MacDougall HG, Halmagy GM, Curthoysn IS. Impulsive testing of semicircular canal function using video-oculography. Ann N Y Acad Sci. 2009;1164:486-91.^,¹⁰10 MacDougall HG, McGarvie LA, Halmagyi GM, Curthoys IS, Weber KP. Application of the video head impulse test to detect vertical semicircular canal dysfunction. Otol Neurotol. 2013;34:974-9.

At least 20 stimuli were obtained in each movement plane. The sensors detect eye and head movements and transcribe them into a chart visible on the computer screen.

When the chart of eye and head movements is similar, the computer program accepts the situation as normal gain and close to 1.00. However, during a cephalic impulse, if eye movement is less than necessary to keep the gaze fixed on the target, the gain will be less than 1.00 and a second eye movement occurs, the corrective saccade. The equipment considers a decrease of up to 0.20 for the lateral SCCs and 0.25 for the vertical ones as normal, due to its precision characteristics.

An altered vHIT was considered in the presence of decreased gain and of corrective saccades after the head movement.

Data were stored and tabulated using Microsoft Excel 2011® program by the researcher. Initially, all variables were analyzed descriptively. The significance level used for the tests was set at 5%.

Results

The group of patients with MD consisted of 22 women (68.8%) and 10 men (31.2%), aged between 18 and 62 years (mean = 45.7). The control group consisted of 20 individuals, 14 (70.0%) women and 6 (30.0%) men, aged 28-62 years (mean = 44.7). The groups showed homogeneity regarding age and gender.

According to the patients' clinical characteristics, the mean disease duration was 3 years, with a minimum duration of 3 months and a maximum of 42 years. Regarding disease laterality, 13 patients (40.6%) showed involvement of the right ear, 12 patients (37.5%) of the left ear and 7 patients (21.9%) had bilateral involvement.

As for the MD classification, according to the number of episodes in the previous 6 months, 28.1% reported up to two episodes in the previous 6 months and 71.9% reported more than six episodes in that period. The stage of hearing loss observed in most patients was Type III (33.3%), which represented moderate sensorineural hearing loss, according to the AAO-HNS criteria. As for the major discomfort symptom, 68.8% of the patients reported vertigo, 28.1% reported tinnitus and 3.1% reported hearing loss.

Regarding the prevalence of absolute or CT-related hyporeflexia, in the symptomatic, asymptomatic ears and control group it was 22 (56.4%); 9 (36%) and 3 (7.5%), respectively. The symptomatic and asymptomatic ears showed a higher occurrence of absolute or relative hyporeflexia compared to the control (Table 1).

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Table 1
Prevalence of absolute or relative hyporeflexia at the caloric test in Meniere's disease patients and control subjects.

The frequency of alterations in the vHIT, when considering the decreased gain and presence of covert and/or overt saccades, was more frequent in the lateral SCCs in symptomatic ears when compared to the control group, with a statistically significant difference (Table 2).

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Table 2
Frequency of alterations at the vHIT when considering decreased vestibular-ocular reflex gain and presence of saccades in the evaluation of lateral, anterior and posterior semicircular canals in patients with Meniere's Disease and in the control group individuals.

Most patients with MD showed no alterations when submitted to the vHIT. The symptomatic ears that had altered vHIT also showed CT with hyporeflexia (Table 3).

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Table 3
Clinical presentation of absolute or caloric test-related hyporeflexia in symptomatic ears in the presence or absence of alterations in the video-head-impulse test.

Discussion

The study group included a predominance of women with a mean age of 45.7 years, unilateral involvement and no preference for laterality. These data are consistent with other studies, which found a higher prevalence of women over 40 years and unilateral disease presentation.¹¹11 Minor LB, Schessel DA, Carey JP. Ménière's disease. Curr Opin Neurol. 2004;17:9-16.^,¹²12 Bruderer SG, Bodmer D, Stohler NA, Jick SS, Meier CR. Population-based study on the epidemiology of Meniere's disease. Audiol Neurootol. 2017;22:74-82.

The symptom that caused the greatest discomfort in patients with MD in the current study was vertigo. Most patients reported more than six episodes of vertigo in the previous six months, with a negative impact of the disease on quality of life. According to Neuhauser et al., vertigo of vestibular origin accounts for 41% of sick leave cases in Germany. Vertigo patients have low performance, interruption of daily activities and avoid leaving home.¹³13 Neuhauser HK, Radtke A, von Brevern M, Lezius F, Feldmann M, Lempert T. Burden of dizziness and vertigo in the community. Arch Intern Med. 2008;168:2118-24.^,¹⁴14 Neuhauser HK. The epidemiology of dizziness and vertigo. Handb Clin Neurol. 2016;137:67-82.

Regarding SNHL, moderate hearing loss was present in 38.5% of patients in the current sample. The hearing is usually fluctuating in the early years and reversible after episodes of vertigo. However, over time, hearing loss becomes permanent, moderate to severe.¹⁵15 Belinchon A, Perez-Garrigues H, Tenias JM, Lopez A. Hearing assessment in Meniere's disease. Laryngoscope. 2011;121:622-6.^,¹⁶16 Espinosa-Sanchez JM, Lopez-Escamez JA. Menière's disease. Handb Clin Neurol. 2016;137:257-77.

In the CT analysis, the current study showed that patients with MD have a higher occurrence of absolute or relative hyporeflexia in the symptomatic and asymptomatic ears, when compared to the controls. The prevalence of hyporeflexia in the symptomatic ear was in agreement with Proctor. The current sample also showed a prevalence of 36% of hyporeflexia in asymptomatic ears, which differs from that found by this author, in which only 19% of patients with unilateral MD had hyporeflexia in the asymptomatic side.¹⁷17 Proctor LR. Results of serial vestibular testing in unilateral Méniere's disease. Am J Otol. 2000;21:552-8. This can occur due to the fact that most patients have bilateral hydrops, but do not always manifest MD or they do not have the audiological criteria to define the condition as MD.¹⁸18 Nakashima T, Naganawa S, Sugiura M, Teranishi M, Sone M, Hayashi H, et al. Visualization of endolymphatic hydrops in patients with Meniere's disease. Laryngoscope. 2007;117:415-20. Another explanation for hyporeflexia in the asymptomatic ear of MD patients would be the decrease in the contralateral SCAV, which may be part of a vestibular compensation mechanism.¹⁹19 Smith PF, Curthoys IS. Mechanisms of recovery following unilateral labyrinthectomy: a review. Brain Res Rev. 1989;14:155-80.

Regarding the vHIT, in the current study, there was a higher prevalence of vHIT alterations in lateral SCCs in the symptomatic ears of patients with MD when compared to the control group. This fact may be attributed to a higher technical sensitivity of the lateral canal tests than the vertical ones. In contrast, Fukushima et al. showed that alterations in the vHIT was more frequently observed in the posterior SCCs, followed by the lateral ones.²⁰20 Fukushima M, Oya R, Nozaki K, Eguchi H, Akahani S, Inohara H, et al. Vertical head impulse and caloric are complementary but react opposite to Meniere's disease hydrops. Laryngoscope. 2018;4:1-7.

It was observed that hyporeflexia in the CT occurred in more than 50% of the patients; however, most vHIT results were within the normal range. The alterations in the CT are consistent with the study by Blodow et al., who found altered CT in 67% of patients with MD, whereas the vHIT showed alterations in 37% of the cases, a higher percentage than that found in the current study, which was 12%. However, in that study, unlike the present one, the inclusion criteria did not specify whether the patients had probable and/or definite MD.²¹21 Blödow A, Heinze M, Bloching MB, von Brevern M, Radtke A, Lempert T. Caloric stimulation and video-head impulse testing in Ménière's disease and vestibular migraine. Acta Otolaryngol. 2014;134:1239-44. Another study by Rubin et al. found an altered CT in 94% and a normal vHIT in 100% of patients with definite MD; however, all patients were at the advanced stage of the disease.²²22 Rubin F, Simon F, Verillaud B, Herman P, Kania R, Hautefort C. Comparison of Video Head Impulse Test and Caloric Reflex Test in advanced unilateral definite Menière's disease. Eur Ann Otorhinolaryngol Head Neck Dis. 2018;135:167-9.

In the present sample, all ears that showed altered vHIT also had hyporeflexia at the CT. Mahringer et al. performed a study comparing CT and vHIT in patients with complaints of vertigo or dizziness in a community hospital. These patients had different clinical diagnoses of vestibular diseases and 15% of these had MD. The authors considered only the patients that had hyporeflexia at the CT, of which 41% also had vHIT alterations.²³23 Mahringer A, Rambold HA. Caloric test and video-head-impulse: a study of vertigo/dizziness patients in a community hospital. Eur Arch Otorhinolaryngol. 2014;271:463-72. According to Rambold, although vHIT is a time-saving test that optimizes the work, in patients with MD, the CT is more efficient for diagnosing vestibular function alterations.²⁴24 Rambold HA. Economic management of vertigo/dizziness disease in a county hospital: video-head-impulse test vs. caloric irrigation. Eur Arch Otorhinolaryngol. 2015;272:2621-8.

The VHIT and CT measure different aspects of VOR.²⁵25 Zellhuber S, Mahringer A, Rambold HA. Relation of video-head-impulse test and caloric irrigation: a study on the recovery in unilateral vestibular neuritis. Eur Arch Otorhinolaryngol. 2014;271:2375-83.^,²⁶26 Bell SL, Barker F, Heselton H, MacKenzie E, Dewhurst D, Sanderson A. A study of the relationship between the video head impulse test and air calorics. Eur Arch Otorhinolaryngol. 2015;272:1287-94. As with the CT, the vHIT also showed no pathognomonic signs in MD. However, unlike that observed at the CT, there was no significant difference in vHIT results between patients' and controls' ears. This difference between the results of both vestibular tests can be explained by the neurological semiology of the semicircular canal ampullary crest, in which MD preferentially damages Type II cells located on the organ periphery, while Type I cells located in the central region, are usually spared. The vHIT preferentially stimulates Type I cells, while the CT stimulates Type II cells.²⁷27 Hanque A, Angelaki DE, Dickman JD. Spatial turning and dynamics of vestibular semicircular canal afferents in rhesus monkeys. Exp Brain Res. 2004;155:81-90.^,²⁸28 McCaslin DL, Rivas A, Jacobson GP, Bennett ML. The dissociation of Video Head Impulse Test (vHIT) and bithermal caloric test results provide topological localization of vestibular system impairment in patients with “Definite” Ménière's Disease. Am J Audiol. 2015;24:1-10. Another explanation for this difference is due to the fact that in EH, there is an increase in the diameter of the SCCs which, in turn, may result in lower pressure induced through the cupula during caloric stimulation, thus causing hyporeflexia. However, the increase in the diameter of the SCCs would have little effect on the vHIT.²⁹29 McGarvie LA, Cruthoys LS, MacDougall HG, Halmagyi GM. What does 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. Although several studies show a higher prevalence of CT alterations when compared to the vHIT, this test cannot be considered as the gold standard for the evaluation of vestibular function alterations. The authors stressed the fact that both tests are complementary to each other.²¹21 Blödow A, Heinze M, Bloching MB, von Brevern M, Radtke A, Lempert T. Caloric stimulation and video-head impulse testing in Ménière's disease and vestibular migraine. Acta Otolaryngol. 2014;134:1239-44.^,²³23 Mahringer A, Rambold HA. Caloric test and video-head-impulse: a study of vertigo/dizziness patients in a community hospital. Eur Arch Otorhinolaryngol. 2014;271:463-72.^,²⁴24 Rambold HA. Economic management of vertigo/dizziness disease in a county hospital: video-head-impulse test vs. caloric irrigation. Eur Arch Otorhinolaryngol. 2015;272:2621-8. According to a study by Hannigan et al., altered CT with normal vHIT of the horizontal canals is more commonly associated with MD and may function as a diagnostic marker of the disease.³⁰30 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.

This research confirms the need for the evaluation of both ears, even in cases of unilateral disease, showing that functional impairment may be present before the clinical manifestation of symptoms. Similarly, it emphasizes the importance of global assessment of all sensory structures of the inner ear.

Conclusion

Most patients with definite MD had hyporeflexia at the CT in the symptomatic ear and no abnormalities at the vHIT.

Absolute or relative hyporeflexia was more frequent in symptomatic and asymptomatic ears of patients with definite MD when compared to controls. Alterations in the vHIT were more frequent in the lateral canals of symptomatic ears of patients with MD.

Peer Review under the responsibility of Associação Brasileira de Otorrinolaringologia e Cirurgia Cérvico-Facial.

References

¹
Lopez-Escamez JA, Carey J, Chung W, Goebeld JA, Magnussone M, Mandalaf M, et al. Diagnostic criteria for Menière's disease. J Vestib Res. 2015;1:1-7.
²
Hallpike CS, Carins HBW. Observations of pathology of Meniere's syndrome. Proc R Soc Med. 1938;31:1317-36.
³
Foster CA, Breeze RE. Endolymphatic hydrops in Meniere's disease: cause, consequence, or epiphenomenon?. Otol Neurotol. 2013;34:1210-4.
⁴
Perez N, Rama-Lopez J. Head-impulse and caloric tests in patients with dizziness. Otol Neurotol. 2013;24:913-7.
⁵
Paparella MM. Pathogenesis and pathophysiology of Ménière's disease. Acta Otolaryngol (Stockh). 1991;485:26-35.
⁶
Weber KP, Aw ST, Todd MJ, McGarvie LA, Curthoys IS, Halmagyi GM. Head impulse test in unilateral vestibular loss: vestibulo-ocular reflex and catch-up saccades. Neurology. 2008;70:454-63.
⁷
Weber KP, MacDougall HG, Halmagy GM, Curthoysn IS. Impulsive testing of semicircular canal function using video-oculography. Ann N Y Acad Sci. 2009;1164:486-91.
⁸
Committee on Hearing, Equilibrium Guidelines for the Diagnosis, Evaluation of Therapy in Meniere's Disease. American Academy of Otolaryngology-Head and Neck Foundation, Inc. Otolaryngol Head Neck Surg. 1995;113:181-5.
⁹
Albertino S, Bittar RSM, Bottino MA, Ganança MM, Gonçalves DU, Greters ME, et al. Valores de referência da prova calórica a ar. Braz J Otorhinolaryngol. 2012;78:2.
¹⁰
MacDougall HG, McGarvie LA, Halmagyi GM, Curthoys IS, Weber KP. Application of the video head impulse test to detect vertical semicircular canal dysfunction. Otol Neurotol. 2013;34:974-9.
¹¹
Minor LB, Schessel DA, Carey JP. Ménière's disease. Curr Opin Neurol. 2004;17:9-16.
¹²
Bruderer SG, Bodmer D, Stohler NA, Jick SS, Meier CR. Population-based study on the epidemiology of Meniere's disease. Audiol Neurootol. 2017;22:74-82.
¹³
Neuhauser HK, Radtke A, von Brevern M, Lezius F, Feldmann M, Lempert T. Burden of dizziness and vertigo in the community. Arch Intern Med. 2008;168:2118-24.
¹⁴
Neuhauser HK. The epidemiology of dizziness and vertigo. Handb Clin Neurol. 2016;137:67-82.
¹⁵
Belinchon A, Perez-Garrigues H, Tenias JM, Lopez A. Hearing assessment in Meniere's disease. Laryngoscope. 2011;121:622-6.
¹⁶
Espinosa-Sanchez JM, Lopez-Escamez JA. Menière's disease. Handb Clin Neurol. 2016;137:257-77.
¹⁷
Proctor LR. Results of serial vestibular testing in unilateral Méniere's disease. Am J Otol. 2000;21:552-8.
¹⁸
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Publication Dates

Publication in this collection
20 Aug 2021
Date of issue
Jul-Aug 2021

History

Received
8 July 2019
Accepted
8 Oct 2019
Published
22 Nov 2019

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] Peer Review under the responsibility of Associação Brasileira de Otorrinolaringologia e Cirurgia Cérvico-Facial.

CT	Symptomatic ear (n = 39)	Asymptomatic ear (n = 25)	Control (n = 40)	p-value
Hyporeflexia	22 (56.4%)	9 (36%)	3 (7.5%)
p-value_{(Sympt.×control)}	-	-	-	<0.001
p-value_{(Assympt.×control)}	-	-	-	=0.004
p-value(_{Sympt.×Assympt.)}	-	-	-	=0.111

SCCs	Symptomatic ear	Asymptomatic ear	Control	p-value
Lateral	5 (12.8%)	1 (4.0%)	0 (0.0%)
p-value_{(Sympt.×control)}	-	-	-	0.026
p-value_{(Assympt.×control)}	-	-	-	0.385
p-value(_{Sympt.×Assympt.)}	-	-	-	0.391
Anterior	2 (5.1%)	0 (0.0%)	0 (0.0%)	-
p-value_{(Sympt.×control)}	-	-	-	0.241
p-value_{(Assympt.×control)}	-	-	-	1.000
p-value(_{Sympt.×Assympt.)}	-	-	-	0.516
Posterior	3 (7.7%)	0 (0.0%)	0 (0.0%)
p-value_{(Sympt.×control)}	-	-	-	0.116
p-value_{(Assympt.×control)}	-	-	-	1.000
p-value(_{Sympt.×Assympt.)}	-	-	-	0.275

Symptomatic ear	vHIT with alteration	vHIT with no alteration
CT with hyporeflexia	5 (12.8%)	17 (43.6%)
CT with no hyporeflexia	0 (0.0%)	17 (43.6%)