Open-access Vestibular migraine

Migrânea vestibular

ABSTRACT

Vestibular migraine (VM) remains an underdiagnosed condition, often mistaken with brainstem aura. VM is defined by recurrent vestibular symptoms in at least 50% of migraine attacks. Diagnosis is established by clinical criteria based on the International Classification of Headache Disorders (ICHD-3). Estimated prevalence of VM is 1 to 2.7% of the adult population. Vestibular symptoms usually appear after the headache. VM pathophysiology remains poorly understood. Vertigo may occur before, during, after the migraine attack, or even independently, and may last seconds to hours or days. Pathophysiological mechanisms for VM are still poorly understood and are usually extrapolated from migraines. Differential diagnoses include Ménière's disease, benign paroxysmal positional vertigo, brainstem aura, transient ischemic attack, persistent perceptual postural vertigo, and episodic type 2 ataxia. Specific treatment recommendations for vestibular migraine are still scarce.

Keywords: Headache; Migraine Disorders

RESUMO

Migrânea vestibular (MV) é pouco diagnosticada e comumente confundida com aura de tronco. A MV, definida por sintomas vestibulares recorrentes em até 50% das crises de migrânea. O diagnóstico baseia-se em critérios clínicos, descritos no International Classification of Headache Disorders (ICHD-3). Estima-se prevalência de MV em 1 a 2.7% da população adulta. Sintomas vestibulares geralmente ocorrem mais tardiamente comparados à cefaleia. A vertigem pode surgir antes, durante, depois, ou mesmo independentemente da crise de enxaqueca, com duração de segundos a horas ou dias. Pouco se conhece acerca da fisiopatologia da MV, que é geralmente extrapolada dos conhecimentos sobre migrânea. Diagnósticos diferenciais incluem: Doença de Ménière, Vertigem posicional paroxística benigna, aura de tronco, ataque isquêmico transitório, vertigem postural perceptual persistente e ataxia episódica tipo 2. Especialistas recomendam o mesmo tratamento que para enxaqueca. Estudos sobre o tratamento específico da migrânea vestibular ainda são escassos.

Palavras-chave: Cefaleia; Transtornos de Enxaqueca

INTRODUCTION

Vestibular migraine (VM) is defined by recurrent vestibular symptoms occurring in at least 50% of migraine attacks, lasting hours to days. Less than 10% vestibular migraine patients meet diagnostic criteria for brainstem aura. Vestibular symptoms can be more limiting than headache. VM remains an underdiagnosed condition. Knowledge about VM is largely extrapolated from migraine, and studies specifically addressing VM are scarce.

EPIDEMIOLOGY

Understanding the epidemiology of VM is limited by lack of biological markers, and by the fact that the diagnosis is established solely on clinical grounds. Using current criteria, vestibular migraine would be the most common cause of vertigo, with a prevalence between 1 to 2.7% of the adult population1. Age at onset of vestibular migraine (38) is usually later than migraine (23)2. Patients may not present headaches for many years, until the onset of vestibular symptoms3. VM is more prevalent in women (4:1)1 and approximately two thirds of patients will report a family history of migraine2.

PATHOPHYSIOLOGY

Pathophysiology of vestibular migraine remains poorly understood (Figure 1). In addition to trigeminovascular dysfunction, considered the primary migraine mechanism, vestibular hyperexcitability, calcium voltage channel dysfunction, temporoparietal structural and functional changes also appear to play a role in VM.

Figure 1.
Vestibular migraine mechanisms (adapted from Huang TC - Vestibular migraine: An update on current understanding and future directions) 1.

Thalamocortical network disfunction

Thalamocortical network dysfunction is well established in migraine. (Goadsby, 2017). Thalamic nuclei activation modulates trigeminovascular input and other nociceptive information. Cortical hyperexcitability lowers migraine attack threshold in some patients4. VM patients are more sensitive to motion due to increased sensitivity to stimuli, and also display a lower threshold for perception of changes in body position, and more discomfort after oculocephalic reflex maneuvers, as well as more spatial perception errors. Ballet dancers, on the other hand, display higher threshold for vestibular output, and less cerebellar gray matter, suggesting that exercise interferes with vestibular processing5.

Vestibular hyperexcitability

Painful trigeminal stimulation in migraine patients elicits new or worsening pre-existing peripheral nystagmus, suggesting vestibular hyperexcitability and predisposition to vertigo. Labyrinth dysfunction may be explained by ion calcium channel dysfunction, vasospasm, or central vestibular system dysfunction through brainstem nuclei activation6.

Voltage gated calcium channels (VGCC)

Clinical similarity between vestibular migraine and episodic type 2 ataxia, suggests shared pathophysiological mechanisms, such as voltage-gated calcium channel (CACNA1A) changes, also found in familial hemiplegic migraine3.

Structural/functional temporoparietal changes

Temporoparietal structural and functional changes may also play a role in VM. FDG-PET studies during VM attacks show increased metabolism in these areas, underscoring the role of the vestibulo-thalamo-cortical pathway in VM7.

DIAGNOSTIC CRITERIA

VM diagnosis is based on clinical criteria.

Diagnostic criteria of VM8:

Vestibular migraine [International Classification of Headache Disorders (ICHD-3) and International Classification of Vestibular Disorders (ICVD)]

  1. At least five episodes fulfilling criteria C and D;

  2. Current or past history of migraine with or without aura.

  3. Vestibular symptoms of moderate to severe intensity, lasting between five minutes and 72 hours;

  4. At least 50% of episodes are associated with at least one of the following three migrainous features:

  1. Headache with at least two of the following four characteristics:

  1. Unilateral location;

  2. Throbbing quality;

  3. Moderate to severe intensity;

  4. Worsening with routine physical activity.

  1. Photophobia and phonophobia

  2. Visual aura

  1. Not better accounted for another ICHD-3 diagnosis or another vestibular disorder.

Probable vestibular migraine (ICVD)

  1. At least five episodes of vestibular symptoms of moderate to severe intensity, lasting five minutes to 72 hours;

  2. Only one of the B and C criteria for vestibular migraine is fulfilled (migraine history or migraine features during the episode);

  3. Not better accounted for another vestibular or ICHD diagnosis, and presence of vestibular symptoms defined by Bárány Society’s Classification of Vestibular Symptoms, including9:

  • spontaneous vertigo;

  • internal vertigo, a false sensation of self-motion;

  • external vertigo, a false sensation that visual surrounding is spinning or flowing.

  • positional vertigo, occurring after head position changes;

  • visually-induced vertigo, triggered by complex or large moving visual stimulus;

  • head motion-induced vertigo, occurring during head motion;

  • head motion-induced dizziness with nausea; dizziness is characterized by sensation of disturbed spatial orientation; other forms of dizziness are currently not included in the classification of vestibular migraine.

An isolated symptom is sufficient to characterize an episode.

Vestibular symptoms are rated as “moderate”, interfering but do not hindering daily activities, and as “severe” when daily activities must be interrupted9.

The criteria underscore the importance of a directed clinical history of vertigo to accurately identify symptoms, leading to diagnosis.

CLINICAL PRESENTATION

Vertigo can antecede or may occur during, after, or even independently of the migraine attack, occurring in up to 30% of episodes, rendering diagnosis more challenging (Figure 2).

Figure 2.
Vestibular symptoms during a migraine attack (adapted from Stolte B - Vestibular Migraine)10.

Many patients consider vestibular symptoms as the most disabling feature of VM. Most patients report more than one vestibular symptom during attacks1, and up to 30% of VM episodes may be unaccompanied by headache.

Episode duration follows the “30% rule”10.

  • 30% last minutes

  • 30% last hours

  • 30% last days

  • 10% remaining last seconds.

Auditory symptoms were reported in 40% of VM patients. the most common being sensation of blocked ear. Since symptoms are nonspecific, they were not included in the diagnostic criteria3. Presence of these symptoms may lead to misdiagnosis, especially of Ménière’s disease.

Other VM symptoms include nausea, vomiting, prostration, imbalance and motion sickness9. Triggers do not differ from migraine: sleep deprivation, stress, menstrual cycle, food, weather changes and light.

Psychiatric comorbidities are very common in VM patients (50% of cases), similar to migraine; most common symptoms are depression, anxiety and insomnia1.

Several findings on physical examination, none specific, can confound diagnosis, such as presence of spontaneous or positional nystagmus consistent with central or peripheral nystagmus. Nystagmus can be evoked by positional maneuvers, and are slower and more persistent compared to BPPV nystagmus. Table 1 depicts the main neurological features, during and between VM attacks. Physical exam may be normal.

Table 1.
Clinical findings in VM patients (Adapted from Sohn JH - Recent Advances in the Understanding of Vestibular Migraine)

DIFFERENTIAL DIAGNOSES

The main differential diagnosis is Ménière's disease. Symptom duration is similar, ranging from 20 minutes to 12 hours, accompanied by tinnitus and hearing loss. Low frequency hearing loss seen in more advanced stages of Ménière (inverted U peak in audiometry) may aid in diagnosis. Brain MRI can be useful to rule out other causes of vestibular symptoms, and to disclose endolymphatic hydrops, found in, 90% of Ménière's cases12. Migraine prevalence is twice more common in Ménière's disease patients10.

Benign paroxysmal positional vertigo (BPPV) is another common cause of recurrent acute vertigo. Differentiation of BPPV and VM is difficult, and may only be possible by the finding of specific findings in neurological examination compatible with BPPV. Symptom duration may allow differentiating these conditions. In BPPV, symptoms last for weeks to months, and recur only after months or years. In VM, on the other hand, symptoms last hours to days, and recur several times a month or year10. Positional maneuvers are key to differentiate both conditions. Additionally, BPPV and migraine can coexist13.

Migraine with brainstem aura is commonly confused with VM, but has different diagnostic criteria. Although different, both can coexist. Migraine with aura must present two or more brainstem symptoms and/or signs (vertigo, hearing loss, dysarthria, tinnitus, diplopia, gait imbalance and decreased level of consciousness). Symptoms must be reversible, lasting from five to 60 minutes. Less than 10% of VM patients meet criteria for brainstem aura. Diagnostic criteria for brainstem aura according to ICHD-3 are the following:

  1. Attacks fulfilling criteria forMigraine with auraand criterion below

  2. Aura with both of the following:

  1. at least two of the following fully reversible brainstem symptoms:

  1. dysarthriaa;

  2. vertigob;

  3. tinnitus;

  4. hypacusisc;

  5. diplopiad;

  6. ataxia not attributable to sensory deficit;

  7. decreased level of consciousness (GCS ≤13)e.

  1. no motorfor retinal symptoms.

Notes:

aDysarthria must be distinguished from aphasia.

bVertigo does not include and should be distinguished from dizziness.

cThis criterion is not fulfilled by sensation of a blocked ear.

dDiplopia does not include (or exclude) blurred vision.

eGlasgow Coma Scale (GCS) score assessed during admission; alternatively, deficits described by the patient allow GCS estimation.

fWhen motor symptoms are present, code as 1.2.3Hemiplegic migraine.

Former phobic vertigo and current PPPV (persistent perceptual postural vertigo) should also be included in the differential diagnosis. Symptoms in these cases are nonspecific, such as empty headedness and malaise14. Episodes are recurrent, but tend to be more situational, leading to avoidance behavior. PPPV is commonly associated with psychiatric diagnoses, such as phobic anxiety disorder or depression and catastrophic thinking.

Transient ischemic attack should be included in the differential diagnosis, especially if the initial episode is of sudden onset and if there is associated imbalance, and in older patients with cardiovascular comorbidities9.

Type 2 episodic ataxia, although rare, should be included in the differential diagnosis. Type 2 episodic ataxia is a genetically inherited disease, associated CACNA1A channel changes, and is characterized by recurrent and disabling episodes of imbalance, vertigo and ataxia, that are induced by physical exertion or emotional stress. Episodes can be accompanied by headache in up to half of the cases. Outside attacks patients may display downbeat nystagmus. Head MRI may show mild anterior cerebellar vermis atrophy. Acetazolamide is the usual treatment15. Genetic testing confirms diagnosis.

Table 2displays differential diagnoses for vestibular migraine.

Table 2.
Differential diagnosis of vestibular migraine (adapted from Stolte B - Vestibular Migraine)

Diagnosis of vestibular migraine is based on clinical findings. In specific situations where clinical overlap between diagnoses is suspected, additional tests may be requested.

Audiometry, electrocochleography and caloric testing are normal in most VM patients, when performed outside attacks16. In Ménière's disease , caloric testing, is usually abnormal and audiometry shows an inverted U peak in more advanced stages.

TREATMENT

Few studies report specific treatment recommendations for vestibular migraine. A search of clinical trials in February 2022 showed 18 clinical trials, six of which were stiil in the recruitment phase, five were completed and two were interrupted. From a practical standpoint, experts recommend the same treatment as for migraine. Antiemetics may be beneficial during attacks

A randomized clinical trial showed a possible superiority of zolmitriptan17 in reducing vertigo intensity from severe/moderate to mild or absent two hours after medication intake. Design limitations and limited study power do not allow a definite conclusion, and further studies are needed.

A rizatriptan trial for vestibular migraine was initiated in UCLA in late 2021. The trial is still underway and results are not yet available.18 A 2010 clinical trial using rizatriptan showed reduction in motion-induced sickness in patients with migraine, but this trial was not specifically designed for patients with vestibular migraine. A retrospective chart review suggested that nortriptyline and topiramate were effective in preventing VM19. Confirmatory clinical trials are lacking.

Non-pharmacological treatment - vestibular rehabilitation - is usually recommended, and is probably effective, since there seems to be a protective effect of ballet training on modulation of the vestibular system in dancers, rendering them less sensitive to movement induced vertigo, as previously mentioned5.

Although avoiding exposure triggers and caffeine cessation are often recommended, these measures display low efficacy on VM and may negatively impact on quality of life, and, therefore, should not be recommended.

Table 3shows a summary of the main abortive and preventive medications used in vestibular migraine, in addition to non-pharmacological treatment.

Table 3.
Treatment options for Vestibular Migraine (adapted from Sohn JH. Recent Advances in the Understanding of Vestibular Migraine)11.

Vestibular migraine is a common and often underdiagnosed condition. Recognizing VM is key to adequately managing this disorder. Some VM episodes present with isolated vestibular symptoms, without headache. Careful history taking should disclose a history of associated migraine headaches..

Therapeutic measures are currently based in usual migraine treatment options. Future studies should provide more information regarding management of VM symptoms.

References

  • 1. Beh SC, Masrour S, Smith SV, Friedman DI. The spectrum of vestibular migraine: clinical features, triggers, and examination findings. Headache. 2019 May;59(5):727-40. https://doi.org/10.1111/head.13484
    » https://doi.org/10.1111/head.13484
  • 2. Teggi R, Colombo B, Albera R, Libonati GA, Balzanelli C, Caletrio AB, et al. Clinical features, familial history, and migraine precursors in patients with definite vestibular migraine: the VM-Phenotypes projects. Headache. 2018 Apr;58(4):534-44. https://doi.org/10.1111/head.13240
    » https://doi.org/10.1111/head.13240
  • 3. Huang T-C, Wang S-J, Kheradmand A. Vestibular migraine: an update on current understanding and future directions. Cephalalgia. 2020 Jan 1;40(1):107-21. https://doi.org/10.1177/0333102419869317
    » https://doi.org/10.1177/0333102419869317
  • 4. Goadsby PJ, Holland PR, Martins-Oliveira M, Hoffmann J, Schankin C, Akerman S. Pathophysiology of migraine: a disorder of sensory processing. Physiol Rev. 2017 Feb 8;97(2):553-622. https://doi.org/10.1152/physrev.00034.2015
    » https://doi.org/10.1152/physrev.00034.2015
  • 5. Marano E, Marcelli V, Stasio ED, Bonuso S, Vacca G, Maganelli F, et al. Trigeminal stimulation elicits a peripheral vestibular imbalance in migraine patients. Headache. 2005 Apr;45(4):325-31. https://doi.org/10.1111/j.1526-4610.2005.05069.x
    » https://doi.org/10.1111/j.1526-4610.2005.05069.x
  • 6. Shin JH, Kim YK, Kim H-J, Kim J-S. Altered brain metabolism in vestibular migraine: comparison of interictal and ictal findings. Cephalalgia. 2014 Jan 1;34(1):58-67. https://doi.org/10.1177/0333102413498940
    » https://doi.org/10.1177/0333102413498940
  • 7. IHS Classification ICHD-3. The International Classification of Headache Disorders 3rd edition (Beta version) [Internet]. [cited 2020 Nov 11]. Available from: https://ichd-3.org/
    » https://ichd-3.org/
  • 8. Lempert T, Olesen J, Furman J, Waterston J, Seemungal B, Carey J, et al. Vestibular migraine: diagnostic criteria. J Vestib Res. 2012 Nov 1;22(4):167-72. https://doi.org/10.3233/VES-2012-0453
    » https://doi.org/10.3233/VES-2012-0453
  • 9. Stolte B, Holle D, Naegel S, Diener H-C, Obermann M. Vestibular migraine. Cephalalgia. 2015 Mar 1;35(3):262-70. https://doi.org/10.1177/0333102414535113
    » https://doi.org/10.1177/0333102414535113
  • 10. Sohn J-H. Recent advances in the understanding of vestibular migraine. Behav Neurol. 2016 Oct 16;2016:1801845. https://doi.org/10.1155/2016/1801845
    » https://doi.org/10.1155/2016/1801845
  • 11. Baráth K, Schuknecht B, Naldi AM, Schrepfer T, Bockisch CJ, Hegemann SCA. Detection and grading of endolymphatic hydrops in Ménière disease using MR imaging. AJNR Am J Neuroradiol. 2014 Jul;35(7):1387-92. https://doi.org/10.3174/ajnr.A3856
    » https://doi.org/10.3174/ajnr.A3856
  • 12. Kim SK, Hong SM, Park I, Choi HG. Association between migraine and benign paroxysmal positional vertigo among adults in South Korea. JAMA Otolaryngol Head Neck Surg. 2019 Apr 1;145(4):307-12. https://doi.org/10.1001/jamaoto.2018.4016
    » https://doi.org/10.1001/jamaoto.2018.4016
  • 13. Staab JP, Eckhardt-Henn A, Horii A, Jacob R, Strupp M, Brandt T, et al. Diagnostic criteria for persistent postural-perceptual dizziness (PPPD): consensus document of the committee for the Classification of Vestibular Disorders of the Bárány Society. J Vestib Res. 2017 Oct 21;27(4):191-208. https://doi.org/10.3233/VES-170622
    » https://doi.org/10.3233/VES-170622
  • 14. Strupp M, Zwergal A, Brandt T. Episodic ataxia type 2. Neurotherapeutics. 2007 Apr;4(2):267-73. https://doi.org/10.1016/j.nurt.2007.01.014
    » https://doi.org/10.1016/j.nurt.2007.01.014
  • 15. Young AS, Nham B, Bradshaw AP, Calic Z, Pogson JM, D'Souza M, et al. Clinical, oculographic, and vestibular test characteristics of vestibular migraine. Cephalalgia. 2021 Sep 1;41(10):1039-52. https://doi.org/10.1177/03331024211006042
    » https://doi.org/10.1177/03331024211006042
  • 16. Neuhauser H, Radtke A, von Brevern M, Lempert T. Zolmitriptan for treatment of migrainous vertigo: a pilot randomized placebo-controlled trial. Neurology. 2003 Mar 11;60(5):882-3. https://doi.org/10.1212/01.wnl.0000049476.40047.a3
    » https://doi.org/10.1212/01.wnl.0000049476.40047.a3
  • 17. Furman JM, Marcus DA, Baladan CD. Rizatriptan reduces vestibular-induced motion sickness in migraineurs. J Headache Pain. 2011 Feb;12(1):81-8. https://doi.org/10.1007/s10194-010-0250-z
    » https://doi.org/10.1007/s10194-010-0250-z
  • 18. Mikulec AA, Faraji F, Kinsella LJ. Evaluation of the efficacy of caffeine cessation, nortriptyline, and topiramate therapy in vestibular migraine and complex dizziness of unknown etiology. Am J Otolaryngol. 2012 Jan-Feb;33(1):121-7. https://doi.org/10.1016/j.amjoto.2011.04.010
    » https://doi.org/10.1016/j.amjoto.2011.04.010
  • 19. Nigmatullina Y, Hellyer PJ, Nachev P, Sharp DJ, Seemungal BM. The neuroanatomical correlates of training-related perceptuo-reflex uncoupling in dancers. Cereb Cortex. 2015 Feb;25(2):554-62. https://doi.org/10.1093/cercor/bht266
    » https://doi.org/10.1093/cercor/bht266

Publication Dates

  • Publication in this collection
    12 Aug 2022
  • Date of issue
    May 2022

History

  • Received
    15 Mar 2022
  • Accepted
    29 Apr 2022
location_on
Academia Brasileira de Neurologia - ABNEURO R. Vergueiro, 1353 sl.1404 - Ed. Top Towers Offices Torre Norte, 04101-000 São Paulo SP Brazil, Tel.: +55 11 5084-9463 | +55 11 5083-3876 - São Paulo - SP - Brazil
E-mail: revista.arquivos@abneuro.org
rss_feed Acompanhe os números deste periódico no seu leitor de RSS
Acessibilidade / Reportar erro