New Insights into Pathophysiology of Vestibular Migraine

Vestibular migraine (VM) is a common disorder in which genetic, epigenetic, and environmental factors probably contribute to its development. The pathophysiology of VM is unknown; nevertheless in the last few years, several studies are contributing to understand the neurophysiological pathways involved in VM. The current hypotheses are mostly based on the knowledge of migraine itself. The evidence of trigeminal innervation of the labyrinth vessels and the localization of vasoactive neuropeptides in the perivascular afferent terminals of these trigeminal fibers support the involvement of the trigemino-vascular system. The neurogenic inflammation triggered by activation of the trigeminal-vestibulocochlear reflex, with the subsequent inner ear plasma protein extravasation and the release of inflammatory mediators, can contribute to a sustained activation and sensitization of the trigeminal primary afferent neurons explaining VM symptoms. The reciprocal connections between brainstem vestibular nuclei and the structures that modulate trigeminal nociceptive inputs (rostral ventromedial medulla, ventrolateral periaqueductal gray, locus coeruleus, and nucleus raphe magnus) are critical to understand the pathophysiology of VM. Although cortical spreading depression can affect cortical areas involved in processing vestibular information, functional neuroimaging techniques suggest a dysmodulation in the multimodal sensory integration and processing of vestibular and nociceptive information, resulting from a vestibulo-thalamo-cortical dysfunction, as the pathogenic mechanism underlying VM. The elevated prevalence of VM suggests that multiple functional variants may confer a genetic susceptibility leading to a dysregulation of excitatory–inhibitory balance in brain structures involved in the processing of sensory information, vestibular inputs, and pain. The interactions among several functional and structural neural networks could explain the pathogenic mechanisms of VM.

[1]  A. Bronstein,et al.  Motion sickness in migraine and vestibular disorders , 2014, Journal of Neurology, Neurosurgery & Psychiatry.

[2]  Andrew Charles,et al.  The neurobiology of migraine. , 2010, Handbook of clinical neurology.

[3]  Richard Brown,et al.  What Is a Brain State? , 2006 .

[4]  Frank Birklein,et al.  Posterior insular cortex – a site of vestibular–somatosensory interaction? , 2013, Brain and behavior.

[5]  T. Brandt,et al.  Reciprocal inhibitory visual-vestibular interaction. Visual motion stimulation deactivates the parieto-insular vestibular cortex. , 1998, Brain : a journal of neurology.

[6]  P. Goadsby,et al.  Diencephalic and brainstem mechanisms in migraine , 2011, Nature Reviews Neuroscience.

[7]  Kristen L. Janky,et al.  Can Vestibular-Evoked Myogenic Potentials Help Differentiate Ménière Disease from Vestibular Migraine? , 2012, Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.

[8]  H. Diener,et al.  Central vestibular system modulation in vestibular migraine , 2014, Cephalalgia : an international journal of headache.

[9]  A. Nuttall,et al.  Capsaicin stimulation of the cochlea and electric stimulation of the trigeminal ganglion mediate vascular permeability in cochlear and vertebro-basilar arteries: a potential cause of inner ear dysfunction in headache , 2001, Neuroscience.

[10]  C. Balaban,et al.  Anterograde tracing of projections from the dorsal raphe nucleus to the vestibular nuclei , 2006, Neuroscience.

[11]  M. Moskowitz,et al.  Chaos and commotion in the wake of cortical spreading depression and spreading depolarizations , 2014, Nature Reviews Neuroscience.

[12]  C. Sabatti,et al.  A genome-wide linkage scan of familial benign recurrent vertigo: linkage to 22q12 with evidence of heterogeneity. , 2006, Human molecular genetics.

[13]  Thomas Meitinger,et al.  Genome-wide meta-analysis identifies new susceptibility loci for migraine , 2013, Nature Genetics.

[14]  C. Balaban,et al.  Vestibular migraine: clinical aspects and pathophysiology , 2013, The Lancet Neurology.

[15]  A. Siegel,et al.  Migrainous Vertigo: Mutation Analysis of the Candidate Genes CACNA1A, ATP1A2, SCN1A, and CACNB4 , 2006, Headache.

[16]  D. Guidetti,et al.  Migraine and Stroke: “Vascular” Comorbidity , 2014, Front. Neurol..

[17]  M. Ferrari,et al.  Infarcts in the posterior circulation territory in migraine. The population-based MRI CAMERA study. , 2005, Brain : a journal of neurology.

[18]  T. Brandt,et al.  Episodic vertigo related to migraine (90 cases): vestibular migraine? , 1999, Journal of Neurology.

[19]  A. Charles Migraine: a brain state. , 2013, Current opinion in neurology.

[20]  S. Nelson,et al.  Familial migraine with vertigo: no mutations found in CACNA1A. , 1998, American journal of medical genetics.

[21]  J. Seidman,et al.  Locus for Familial Migrainous Vertigo Disease Maps to Chromosome 5q35 , 2009, The Annals of otology, rhinology, and laryngology.

[22]  H. Sutherland,et al.  Studies on the Pathophysiology and Genetic Basis of Migraine , 2013, Current genomics.

[23]  Tzeng-Ji Chen,et al.  Migraine is a risk factor for sudden sensorineural hearing loss: A nationwide population-based study , 2013, Cephalalgia : an international journal of headache.

[24]  R. Burstein,et al.  The science of migraine. , 2011, Journal of vestibular research : equilibrium & orientation.

[25]  E. Marciano,et al.  Trigeminal Stimulation Elicits a Peripheral Vestibular Imbalance in Migraine Patients , 2005, Headache.

[26]  J. Koo,et al.  Serotonin-Induced Plasma Extravasation in the Murine Inner Ear: Possible Mechanism of Migraine-Associated Inner ear Dysfunction , 2006, Cephalalgia : an international journal of headache.

[27]  P. Haggard,et al.  How the vestibular system interacts with somatosensory perception: A sham-controlled study with galvanic vestibular stimulation , 2013, Neuroscience Letters.

[28]  R. Slater Benign recurrent vertigo , 1979, Journal of neurology, neurosurgery, and psychiatry.

[29]  Joseph M Furman,et al.  Neurologic bases for comorbidity of balance disorders, anxiety disorders and migraine: neurotherapeutic implications , 2011, Expert review of neurotherapeutics.

[30]  D. Newman-Toker,et al.  Classification of vestibular symptoms: towards an international classification of vestibular disorders. , 2009, Journal of vestibular research : equilibrium & orientation.

[31]  C. H. Park,et al.  Vestibular-Evoked Myogenic Potentials in Migrainous Vertigo , 2011, Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.

[32]  H. Neuhauser,et al.  Vestibular migraine – validity of clinical diagnostic criteria , 2011, Cephalalgia : an international journal of headache.

[33]  F. Mast,et al.  The human vestibular cortex revealed by coordinate-based activation likelihood estimation meta-analysis , 2012, Neuroscience.

[34]  O. Blanke,et al.  The thalamocortical vestibular system in animals and humans , 2011, Brain Research Reviews.

[35]  Yu Kyeong Kim,et al.  Altered brain metabolism in vestibular migraine: Comparison of interictal and ictal findings , 2014, Cephalalgia : an international journal of headache.

[36]  Stefan Brodoehl,et al.  Components of vestibular cortical function , 2013, Behavioural Brain Research.

[37]  Dan Levy,et al.  Activation of central trigeminovascular neurons by cortical spreading depression , 2011, Annals of neurology.

[38]  J. Olesen,et al.  Origin of pain in migraine: evidence for peripheral sensitisation , 2009, The Lancet Neurology.

[39]  Hyung Lee Isolated Vascular Vertigo , 2014, Journal of stroke.

[40]  T. Requena,et al.  Genetics of dizziness: cerebellar and vestibular disorders. , 2014, Current opinion in neurology.

[41]  Susan A. King,et al.  Central Integration of Canal and Otolith Signals is Abnormal in Vestibular Migraine , 2014, Front. Neurol..

[42]  A. Bisdorff Migraine and dizziness. , 2014, Current opinion in neurology.

[43]  Dan Levy,et al.  Activation of Meningeal Nociceptors by Cortical Spreading Depression: Implications for Migraine with Aura , 2010, The Journal of Neuroscience.

[44]  M. Dieterich,et al.  Vestibular-evoked myogenic potentials in vestibular migraine , 2009, Journal of Neurology.

[45]  D. Della-Morte,et al.  Migraine and stroke. , 2005, Harvard heart letter : from Harvard Medical School.

[46]  H. Neuhauser,et al.  The interrelations of migraine, vertigo, and migrainous vertigo , 2001, Neurology.

[47]  C. Balaban Migraine, vertigo and migrainous vertigo: Links between vestibular and pain mechanisms. , 2011, Journal of vestibular research : equilibrium & orientation.

[48]  L. Griffiths,et al.  The Biology of the Glutamatergic System and Potential Role in Migraine , 2013, International journal of biomedical science : IJBS.

[49]  Bradley L Schlaggar,et al.  Enhanced pain-induced activity of pain-processing regions in a case-control study of episodic migraine , 2014, Cephalalgia : an international journal of headache.

[50]  François Mauguière,et al.  Vestibular responses to direct stimulation of the human insular cortex , 2014, Annals of neurology.

[51]  L. Larrea,et al.  The posterior insular-opercular region and the search of a primary cortex for pain , 2017 .

[52]  K. Alberti,et al.  Diagnostic criteria , 1976, Diabetologia.

[53]  C. Balaban,et al.  Vestibular migraine , 2015, Annals of the New York Academy of Sciences.

[54]  Gabriella Bottini,et al.  Caloric vestibular stimulation: interaction between somatosensory system and vestibular apparatus , 2013, Front. Integr. Neurosci..

[55]  R. Burstein,et al.  Sensitization of the Trigeminovascular Pathway: Perspective and Implications to Migraine Pathophysiology , 2012, Journal of clinical neurology.

[56]  Daniele Marinazzo,et al.  Altered processing of sensory stimuli in patients with migraine , 2014, Nature Reviews Neurology.

[57]  S. Nelson,et al.  Phenotypic and Genetic Analysis of a Large Family With Migraine‐Associated Vertigo , 2008, Headache.

[58]  Z Vass,et al.  Trigeminal ganglion innervates the auditory brainstem , 2000, The Journal of comparative neurology.

[59]  P. Monstad,et al.  Vestibular sensitivity in vestibular migraine: VEMPs and motion sickness susceptibility , 2011, Cephalalgia : an international journal of headache.

[60]  P. Goadsby,et al.  Pathophysiology of migraine , 2012, Annals of Indian Academy of Neurology.

[61]  Rolf-Detlef Treede,et al.  Interoceptive and multimodal functions of the operculo-insular cortex: Tactile, nociceptive and vestibular representations , 2013, NeuroImage.

[62]  J. Lopez-Escamez,et al.  Ménière's Syndrome and Migraine , 2014 .

[63]  Z. Sen,et al.  Spreading Depression Triggers Headache by Activating Neuronal Panx1 Channels , 2013, Science.

[64]  F. Couraud,et al.  [Calcium channels and migraine]. , 2000, Pathologie-biologie.

[65]  A. Nuttall,et al.  Co-localization of the vanilloid capsaicin receptor and substance P in sensory nerve fibers innervating cochlear and vertebro-basilar arteries , 2004, Neuroscience.

[66]  R. Baloh Neurotology of Migraine , 1997, Headache.

[67]  C. Balaban,et al.  Colocalization of 5-HT1F receptor and calcitonin gene-related peptide in rat vestibular nuclei , 2009, Neuroscience Letters.

[68]  Richard F. Lewis,et al.  Dynamic tilt thresholds are reduced in vestibular migraine. , 2011, Journal of vestibular research : equilibrium & orientation.

[69]  A. Nuttall,et al.  Direct evidence of trigeminal innervation of the cochlear blood vessels , 1998, Neuroscience.

[70]  Jeffrey D. Sharon,et al.  Motion sensitivity and caloric responsiveness in vestibular migraine and Meniere's disease , 2014, The Laryngoscope.

[71]  C. Balaban,et al.  Organization of projections from the raphe nuclei to the vestibular nuclei in rats , 2003, Neuroscience.