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BIBLIOGRAPHY

  • 1
    Curthoys IS. A critical review of the neurophysiological evidence underlying clinical vestibular testing using sound, vibration and galvanic stimuli. Clin Neurophysiol 2010; 121: 132144.
  • 2
    Curthoys IS, Manzari L, Smulders YE, Burgess AM. A review of the scientific basis and practical application of a new test of utricular function—ocular vestibular-evoked myogenic potentials to bone-conducted vibration. Acta Otorhinolaryngol It 2009; 29: 179186.
  • 3
    Curthoys IS, Burgess AM, MacDougall HG, et al. Testing human otolith function using bone-conducted vibration. Ann N Y Acad Sci 2009; 1164: 344346.
  • 4
    Curthoys IS, Vulovic V, Burgess AM, et al. The basis for using bone conducted vibration or air conducted sound to test otolithic function. Ann N Y Acad Sci 2011, 1233: 231241.
  • 5
    Halmagyi GM, Colebatch JG, Curthoys IS. New tests of vestibular function. In: Baloh RW, ed. Neurotology. Vol. 3. London, UK: Baillieres Clinical Neurology; 1994: 485500.
  • 6
    Halmagyi GM, Curthoys IS. Clinical testing of otolith function. Ann N Y Acad Sci 1999; 871: 195204.
  • 7
    Rosengren SM, Welgampola MS, Colebatch JG. Vestibular evoked myogenic potentials: past, present and future. Clin Neurophysiol 2010; 121: 636651.
  • 8
    Welgampola MS, Colebatch JG. Characteristics and clinical application of vestibular evoked myogenic potentials. Neurology 2005; 64: 16821688.
  • 9
    Uchino Y, Kushiro K. Differences between otolith- and semicircular canal-activated neural circuitry in the vestibular system. Neurosci Res 2011; 71: 315327.
  • 10
    Baloh RW, Honrubia V. Clinical Neurophysiology of the Vestibular System. 2nd ed. Philadelphia, PA: FA Davis; 1990.
  • 11
    Zapala DA, Olsholt KF, Lundy LB. A comparison of water and air caloric responses and their ability to distinguish between patients with normal and impaired ears. Ear Hear 2008; 29: 585590.
  • 12
    Halmagyi GM, Curthoys IS. A clinical sign of canal paresis. Arch Neurol 1988; 45: 737739.
  • 13
    Halmagyi GM, Curthoys IS, Cremer PD, et al. The human horizontal vestibulo-ocular reflex in response to high acceleration stimulation before and after unilateral vestibular neurectomy. Exp Brain Res 1990; 81: 479490.
  • 14
    Halmagyi GM, Curthoys IS, Cremer PD, Henderson CJ, Staples M. Head impulses after unilateral vestibular deafferentation validate Ewald's second law. J Vestib Res 1990; 1: 187197.
  • 15
    Cremer PD, Halmagyi GM, Aw ST, et al. Semicircular canal plane head impulses detect absent function of individual semicircular canals. Brain 1998; 121: 699716.
  • 16
    Weber KP, Aw ST, Todd MJ, McGarvie LA, Curthoys IS, Halmagyi GM. Horizontal head impulse test detects gentamicin vestibulotoxicity. Neurology 2009; 72: 14171424.
  • 17
    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: 454463.
  • 18
    MacDougall HG, Weber KP, McGarvie LA, Halmagyi GM, Curthoys IS. The video head impulse test: diagnostic accuracy in peripheral vestibulopathy. Neurology 2009; 73: 11341141.
  • 19
    Weber KP, MacDougall HG, Halmagyi GM, Curthoys IS. Impulsive testing of semicircular canal function using video-oculography. Ann N Y Acad Sci 2009; 1164: 486491.
  • 20
    Curthoys IS, MacDougall HG, Manzari L, et al. Klinische Anwendung eines objektiven Tests zur Prüfung der dynamischen Bogengangsfunktion—der Video-Kompfimpuls-Test (vHIT). In: Iro H, Waldfahrer F, eds. Vertigo—Kontroverses und Bewährtes. 8, Hennig-Symposium. Vienna, Austria: Springer; 2011: 5362.
  • 21
    Gresty MA, Bronstein AM, Brandt T, Dieterich M. Neurology of otolith function. Brain 1992; 115: 647673.
  • 22
    Markham CH, Diamond SG. Ocular counterrolling in response to static and dynamic tilting: implications for human otolith function. J Vestib Res 2002; 12: 127134.
  • 23
    Suzuki JI, Tokumasu K, Goto K. Eye movements from single utricular nerve stimulation in the cat. Acta Otolaryngol 1969; 68: 350362.
  • 24
    Toczek S, Hyde JE. Effect of vestibular nerve section on torsion and on evoked rotatory eye movements. Exp Neurol 1963; 8: 143154.
  • 25
    Halmagyi GM, Gresty MA, Gibson WPR. Ocular tilt reaction with peripheral vestibular lesion. Ann Neurol 1978; 6: 8083.
  • 26
    Curthoys IS, Dai MJ, Halmagyi GM. Human otolithic function before and after unilateral vestibular neurectomy. J Vestib Res 1990; 1: 199209.
  • 27
    Curthoys IS. The role of ocular torsion in visual measures of vestibular function. Brain Res Bull 1996; 40: 399405.
  • 28
    Curthoys IS, Dai MJ, Halmagyi GM. Human ocular torsional position before and after unilateral vestibular neurectomy. Exp Brain Res 1991; 85: 218225.
  • 29
    Dai MJ, Curthoys IS, Halmagyi GM. Linear acceleration perception in the roll plane before and after unilateral vestibular neurectomy. Exp Brain Res 1989; 77: 315328.
  • 30
    Friedmann G. The judgement of the visual vertical and horizontal with peripheral and central vestibular lesions. Brain 1970; 93: 313328.
  • 31
    Friedmann G. The influence of unilateral labyrinthectomy on orientation in space. Acta Otolaryngol 1971; 71: 289298.
  • 32
    Goonetilleke SC, Mezey LE, Burgess AM, Curthoys IS. On the relation between ocular torsion and visual perception of line orientation. Vision Res 2008; 48: 14881496.
  • 33
    Wade S, Curthoys IS. The effect of ocular torsional position on perception of the roll-tilt of visual stimuli. Vision Res 1997; 37: 10711078.
  • 34
    de Burlet HM. Zur Innervation der Macula sacculi bei Säugetieren. Anat Anzeig 1924; 58: 2632.
  • 35
    de Burlet H. Zur vergleichenden Anatomie der Labyrinthinnervation. J Comp Neurol 1929; 47: 155169.
  • 36
    Curthoys IS, Burgess AM, Iwasaki S, Chihara Y, Ushio M, McGarvie LA. Probability and the weight of evidence. Reply to Xie: “Comment on the ocular vestibular-evoked myogenic potential to air-conducted sound; probable superior vestibular nerve origin.” Clin Neurophysiol 2011; 122: 12691270.
  • 37
    Goldberg JM. Afferent diversity and the organization of central vestibular pathways. Exp Brain Res 2000; 130: 277297.
  • 38
    Curthoys IS, Kim J, McPhedran SK, Camp AJ. Bone conducted vibration selectively activates irregular primary otolithic vestibular neurons in the guinea pig. Exp Brain Res 2006; 175: 256267.
  • 39
    Curthoys IS, Vulovic V. Vestibular primary afferent responses to sound and vibration in the guinea pig. Exp Brain Res 2011; 210: 347352.
  • 40
    Iwasaki S, Smulders YE, Burgess AM, et al. Ocular vestibular evoked myogenic potentials to bone conducted vibration of the midline forehead at Fz in healthy subjects. Clin Neurophysiol 2008; 119: 21352147.
  • 41
    Curthoys IS, Vulovic V. Responses of guinea pig primary otolithic afferents to air-conducted sound (ACS) and bone-conducted vibration (BCV). Program No. 579.01. 2011 Neuroscience Meeting Planner. Washington, DC: Society for Neuroscience. http://www.abstractsonline.com/Plan/View Abstract.aspx?sKey=91270557-d479-40be-863f-c271a43f2dfc&cKey=690a3e41- 2ffd-4fa0-a170-0713693c69a3&mKey={8334BE29-8911-4991-8C31-32B32DD5E6C8} Accessed Feb 15, 2012.
  • 42
    Brantberg K. Vestibular evoked myogenic potentials (VEMPs): usefulness in clinical neurotology. Semin Neurol 2009; 29: 541547.
  • 43
    Vulovic V, Curthoys IS. Bone conducted vibration activates the vestibulo-ocular reflex in the guinea pig. Brain Res Bull 2011; 86: 7481.
  • 44
    Kushiro K, Zakir M, Ogawa Y, Sato H, Uchino Y. Saccular and utricular inputs to sternocleidomastoid motoneurons of decerebrate cats. Exp Brain Res 1999; 126: 410416.
  • 45
    Isu N, Graf, W, Sato H, et al. Sacculo-ocular reflex connectivity in cats. Exp Brain Res 2000; 131: 262268.
  • 46
    Uchino Y, Sato H, Sasaki M, et al. Sacculocollic reflex arcs in cats. J Neurophysiol 1997; 77: 30033012.
  • 47
    Sato H, Imagawa M, Isu N, Uchino Y. Properties of saccular nerve-activated vestibulospinal neurons in cats. Exp Brain Res 1997; 116: 381388.
  • 48
    Goto F, Meng H, Bai R, et al. Eye movements evoked by selective saccular nerve stimulation in cats. Auris Nasus Larynx 2004; 31: 220225.
  • 49
    Uchino Y, Ikegami H, Sasaki M, Endo K, Imagawa M, Isu N. Monosynaptic and disynaptic connections in the utriculo-ocular reflex arc of the cat. J Neurophysiol 1994; 71: 950958.
  • 50
    Uchino Y, Sasaki M, Sato H, Imagawa M, Suwa H, Isu N. Utriculoocular reflex arc of the cat. J Neurophysiol 1996; 76: 18961903.
  • 51
    Goto F, Meng H, Bai R, et al. Eye movements evoked by the selective stimulation of the utricular nerve in cats. Auris Nasus Larynx 2003; 30: 341348.
  • 52
    Colebatch JG. Sound conclusions? Clin Neurophysiol 2010; 121: 124126.
  • 53
    Curthoys IS. A balanced view of the evidence leads to sound conclusions. A reply to J.G. Colebatch “Sound conclusions?” Clin Neurophysiol 2010; 121: 977978.
  • 54
    Young ED, Fernandez C, Goldberg JM. Responses of squirrel monkey vestibular neurons to audio-frequency sound and head vibration. Acta Otolaryngol 1977; 84: 352360.
  • 55
    Iwasaki S, McGarvie LA, Halmagyi GM, et al. Head taps evoke a crossed vestibulo-ocular reflex. Neurology 2007; 68: 12271229.
  • 56
    Jombik P, Bahyl V, Drobny M, Spodniak P. Vestibulo-ocular (oVEMP) responses produced by bone-conducted sound stimuli applied to the mid-sagittal plane of the head. J Vestib Res 2008; 18: 117128.
  • 57
    Brantberg K, Tribukait A, Fransson P-A. Vestibular evolved myogenic potentials to skull taps for patients with vestibular neuritis. J Vestib Res 2003; 13: 121130.
  • 58
    Cornell ED, Burgess AM, MacDougall HG, Curthoys IS. Vertical and horizontal eye movement responses to unilateral and bilateral bone conducted vibration to the mastoid. J Vestib Res 2009; 19: 17.
  • 59
    McCue MP, Guinan JJ. Acoustically responsive fibers in the vestibular nerve of the cat. J Neurosci 1994; 14: 60586070.
  • 60
    McCue MP, Guinan JJ. Spontaneous activity and frequency selectivity of acoustically responsive vestibular afferents in the cat. J Neurophysiol 1995; 74: 15631572.
  • 61
    McCue MP, Guinan JJ. Sound-evoked activity in primary afferent neurons of a mammalian vestibular system. Am J Otol 1997; 18: 355360.
  • 62
    Murofushi T, Curthoys IS, Topple AN, Colebatch JG, Halmagyi GM. Responses of guinea pig primary vestibular neurons to clicks. Exp Brain Res 1995; 103: 174178.
  • 63
    Murofushi T, Curthoys IS. Physiological and anatomical study of click-sensitive primary vestibular afferents in the guinea pig. Acta Otolaryngol 1997; 117: 6672.
  • 64
    Murofushi T, Curthoys IS, Gilchrist DP. Response of guinea pig vestibular nucleus neurons to clicks. Exp Brain Res 1996; 111: 149152.
  • 65
    Uchino Y, Sasaki M, Sato H, Bai R, Kawamoto E. Otolith and canal integration on single vestibular neurons in cats. Exp Brain Res 2005; 164: 271285.
  • 66
    Colebatch JC, Halmagyi GM. Vestibular-evoked potentials in human neck muscles before and after unilateral vestibular deafferentation. Neurology 1992; 42: 16351636.
  • 67
    Colebatch JG, Halmagyi GM, Skuse NF. Myogenic potentials generated by a click-evoked vestibulocollic reflex. J Neurol Neurosurg Psychiatry 1994; 57: 190197.
  • 68
    Halmagyi GM, Yavor RA, Colebatch JG. Tapping the head activates the vestibular system: a new use for the clinical reflex hammer. Neurology 1995; 45: 19271929.
  • 69
    Rosengren SM, Todd NPM, Colebatch JG. Vestibular-evoked extraocular potentials produced by stimulation with bone-conducted sound. Clin Neurophysiol 2005; 116: 19381948.
  • 70
    Todd NPM, Rosengren SM, Aw ST, Colebatch JG. Ocular vestibular evoked myogenic potentials (OVEMPs) produced by air- and bone-conducted sound. Clin Neurophysiol 2007; 118: 381390.
  • 71
    Smulders YE, Welgampola MS, Burgess AM, McGarvie LA, Halmagyi GM, Curthoys IS. The n10 component of the ocular vestibular-evoked myogenic potential (oVEMP) is distinct from the R1 component of the blink reflex. Clin Neurophysiol 2009; 120: 15671576.
  • 72
    Chiarovano E, Zamith F, Vidal PP, de Waele C. Ocular and cervical VEMPs: a study of 74 patients suffering from peripheral vestibular disorders. Clin Neurophysiol 2011; 122: 16501659.
  • 73
    Chihara Y, Iwasaki S, Ushio M, Murofushi T. Vestibular-evoked extraocular potentials by air-conducted sound: another clinical test for vestibular function. Clin Neurophysiol 2007; 118: 27452751.
  • 74
    Piker EG, Jacobson GP, McCaslin DL, Hood LJ. Normal characteristics of the ocular vestibular evoked myogenic potential. J Am Acad Audiol 2011; 22: 222230.
  • 75
    Iwasaki S, Murofushi T, Chihara Y, et al. Ocular vestibular evoked myogenic potentials to bone-conducted vibration in vestibular schwannomas. Otol Neurotol 2010; 31: 147152.
  • 76
    Iwasaki S, Smulders YE, Burgess AM, et al. Ocular vestibular evoked myogenic potentials in response to bone-conducted vibration of the midline forehead at Fz: a new indicator of unilateral otolithic loss. Audiol Neurotol 2008; 13: 396404.
  • 77
    Manzari L, Burgess AM, Curthoys IS. Effect of bone-conducted vibration of the midline forehead (Fz) in unilateral vestibular loss (uVL). Evidence for a new indicator of unilateral otolithic function. Acta Otorhinolaryngol It 2010; 30: 175181.
  • 78
    Aw ST, Fetter M, Cremer PD, Karlberg M, Halmagyi GM. Individual semicircular canal function in superior and inferior vestibular neuritis. Neurology 2001; 57: 768774.
  • 79
    Fetter M, Dichgans J. Vestibular neuritis spares the inferior division of the vestibular nerve. Brain 1996; 119: 755763.
  • 80
    Govender S, Rosengren SM, Colebatch JG. Vestibular neuritis has selective effects on air- and bone-conducted cervical and ocular vestibular-evoked myogenic potentials. Clin Neurophysiol 2011; 122: 12461253.
  • 81
    Halmagyi GM, Weber KP, Curthoys IS. Vestibular function after acute vestibular neuritis. Restor Neurol Neurosci 2010; 28: 3746.
  • 82
    Kim HA, Hong JH, Lee H, et al. Otolith dysfunction in vestibular neuritis: recovery pattern and a predictor of symptom recovery. Neurology 2008; 70: 449453.
  • 83
    Strupp M, Brandt T. Vestibular neuritis. In: Buttner U, ed. Vestibular Dysfunction And Its Therapy. Adv Otorhinolaryngol 1999; 55: 111136.
  • 84
    Goto F, Ban Y, Tsutumi T. Acute audiovestibular deficit with complete ocular tilt reaction and absent VEMPs. Eur Arch Otorhinolaryngol 2011; 268: 10931096.
  • 85
    Shin B-S, Oh S-Y, Kim JS, et al. Cervical and ocular vestibular-evoked myogenic potentials in acute vestibular neuritis. Clin Neurophysiol 2012; 123: 369375.
  • 86
    Iwasaki S, Chihara Y, Smulders YE, et al. The role of the superior vestibular nerve in generating ocular vestibular-evoked myogenic potentials to bone conducted vibration at Fz. Clin Neurophysiol 2009; 120: 588593.
  • 87
    Manzari L, Tedesco AR, Burgess AM, Curthoys IS. Ocular vestibular-evoked myogenic potentials to bone conducted vibration in superior vestibular neuritis show utricular function. Otolaryngol Head Neck Surg 2010; 143: 274280.
  • 88
    Curthoys IS, Iwasaki S, Chihara Y, Ushio M, McGarvie LA, Burgess AM. The ocular vestibular-evoked myogenic potential to air-conducted sound; probable superior vestibular nerve origin. Clin Neurophysiol 2011; 122: 611616.
  • 89
    Manzari L, Burgess AM, Curthoys IS. Dissociation between cVEMP and oVEMP responses: different vestibular origins of each VEMP? Eur Arch Otorhinolaryngol 2010; 267: 14871489.
  • 90
    Manzari L, Burgess AM, MacDougall HG, Curthoys IS. Objective verification of full recovery of dynamic vestibular function after superior vestibular neuritis. Laryngoscope 2011; 121: 24962500.
  • 91
    Halmagyi GM, Aw ST, Karlberg M, Curthoys IS, Todd MJ. Inferior vestibular neuritis. Ann N Y Acad Sci 2002; 956: 306313.
  • 92
    Iwasaki S, Takai Y, Ito K, Murofushi T. Abnormal vestibular evoked myogenic potentials in the presence of normal caloric responses. Otol Neurotol 2005; 26: 11961199.
  • 93
    Manzari L, Burgess AM, Curthoys IS. Ocular and cervical vestibular-evoked myogenic potentials to bone conducted vibration in patients with probable inferior vestibular neuritis. J Laryngol Otol In press.
  • 94
    Curthoys IS, Manzari L. Evidence missed: ocular vestibular-evoked myogenic potential and cervical vestibular-evoked myogenic potential differentiate utricular from saccular function. Otolaryngol Head Neck Surg 2011; 144: 751752.
  • 95
    Welgampola MS, Myrie OA, Minor LB, Carey JP. Vestibular-evoked myogenic potential thresholds normalize on plugging superior canal dehiscence. Neurology 2008; 70: 464472.
  • 96
    Rosengren SM, Aw ST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008; 79: 559568.
  • 97
    Manzari L, Tedesco AR, Burgess AM, Curthoys IS. Ocular and cervical vestibular-evoked myogenic potentials to bone conducted vibration in Meniere's disease during quiescence vs during acute attacks. Clin Neurophysiol 2010; 121: 10921101.
  • 98
    Wen M-H, Cheng P-W, Young Y-H. Augmentation of ocular vestibular-evoked myogenic potentials via bone-conducted vibration stimuli in Meniere's Disease. Otolaryngol Head Neck Surg. DOI: 10.1177/0194599811433982.
  • 99
    Wang SJ, Weng WJ, Jaw FS, Young YH. Ocular and cervical vestibular evoked myogenic potentials: a study to determine whether bone conducted vibration or air conducted sound to optimize response. Ear Hear 2010; 31: 283288.
  • 100
    Hess BJ, Dieringer N. Spatial organization of linear vestibuloocular reflexes of the rat: responses during horizontal and vertical linear acceleration. J Neurophysiol 1991; 66: 18051818.
  • 101
    Szentagothai J. Pathways and synaptic articulation patterns connecting vestibular receptors and oculomotor nuclei. In: Bender MB, ed. The Oculomotor System. New York, NY: Hoeber Medical Division, Harper & Row; 1962: 205223.
  • 102
    Eatock RA, Songer JE. Vestibular hair cells and afferents: two channels for head motion signals. Ann Rev Neurosci 2011; 34: 501534.
  • 103
    Murofushi T, Halmagyi GM, Yavor RA, Colebatch JG. Absent vestibular evoked myogenic potentials in vestibular neurolabyrinthitis. An indicator of inferior vestibular nerve involvement? Arch Otolaryngol Head Neck Surg 1996; 122: 845848.
  • 104
    Monstad P, Okstad S, Mygland A. Inferior vestibular neuritis: 3 cases with clinical features of acute vestibular neuritis, normal calorics but indications of saccular failure. BMC Neurol 2006; 6: 45.
  • 105
    Zhang D, Fan Z, Han Y, Yu G, Wang H. Inferior vestibular neuritis: a novel subtype of vestibular neuritis. J Laryngol Otol 2010; 124: 477481.
  • 106
    Manzari L, Burgess AM, McGarvie LA, Curthoys IS. Ocular and cervical vestibular-evoked myogenic potentials to 500Hz Fz bone conducted vibration in superior semicircular canal dehiscence. Ear Hear In press.
  • 107
    Minor LB, Cremer PD, Carey JP, Della Santina CC, Streubel S-O, Weg N. Symptoms and signs in superior canal dehiscence syndrome. Ann NY Acad Sci 2001; 942: 259273.
  • 108
    Carey JP, Migliaccio AA, Minor LB. Semicircular canal function before and after surgery for superior canal dehiscence. Otol Neurotol 2007; 28: 356364.
  • 109
    Aw ST, Haslwanter T, Halmagyi GM, Curthoys IS, Yavor RA, Todd MJ. Three-dimensional vector analysis of the human vestibuloocular reflex in response to high-acceleration head rotations. I. Responses in normal subjects. J Neurophysiol 1996; 76: 40094020.
  • 110
    Cremer PD, Henderson CJ, Curthoys IS, Halmagyi GM. Horizontal vestibulo-ocular reflexes in humans with only one horizontal semicircular canal. Adv Otorhinolaryngol 1988; 42: 180184.
  • 111
    Halmagyi GM, Weber KP, Aw ST, Todd MJ, Curthoys IS. Impulsive testing of semicircular canal function. In: Kaga K, Starr A, eds. Neuropathies of the Auditory and Vestibular Eighth Cranial Nerves. Tokyo, Japan: Springer; 2009: 93109.
  • 112
    Halmagyi GM, Weber KP, Aw ST, Todd MJ, Curthoys IS. Impulsive testing of semicircular canal function. In: Kennard C, Leigh RJ, eds. Using Eye Movements as an Experimental Probe of Brain Function—A Symposium in Honor of Jean Buttner-Ennever. Amsterdam, The Netherlands: Elsevier. Prog Brain Res 2008; 171: 187194.
  • 113
    Aw ST, Halmagyi GM, Haslwanter T, Curthoys IS, Yavor RA, Todd MJ. Three-dimensional vector analysis of the human vestibuloocular reflex in response to high-acceleration head rotations. II. Responses in subjects with unilateral vestibular loss and selective semicircular canal occlusion. J Neurophysiol 1996; 76: 40214030.
  • 114
    Aw ST, Halmagyi GM, Black RA, Curthoys IS, Yavor RA, Todd MJ. Head impulses reveal loss of individual semicircular canal function. J Vestib Res 1999; 9: 173180.
  • 115
    Halmagyi GM, Curthoys IS, Aw S, Todd MJ. The human vestibulo-ocular reflex after unilateral vestibular deafferentation. In: Sharpe JA, Barber HO, eds. The Vestibulo-ocular Reflex and Vertigo. New York, NY: Raven Press; 1993: 4554.
  • 116
    Halmagyi GM, Black RA, Thurtell MJ, Curthoys IS. The human horizontal vestibulo-ocular reflex in response to active and passive head impulses after unilateral vestibular deafferentation. Ann N Y Acad Sci 2003; 1004: 325336.
  • 117
    Aw ST, Halmagyi GM, Pohl DV, Curthoys IS, Yavor RA, Todd MJ. Compensation of the human vertical vestibulo-ocular reflex following occlusion of one vertical semicircular canal is incomplete. Exp Brain Res 1995; 103: 471475.
  • 118
    Aw ST, Halmagyi GM, Curthoys IS, Yavor RA. Unilateral vestibular deafferentation causes permanent impairment of the human vestibulo-ocular reflex in the pitch plane. Exp Brain Res 1994; 102: 121130.
  • 119
    Cremer PD, Migliaccio AA, Halmagyi GM, Curthoys IS. Vestibulo-ocular reflex pathways in internuclear ophthalmoplegia. Ann Neurol 1999; 45: 529532.
  • 120
    Manzari L, Burgess AM, MacDougall HG, Curthoys IS. Enhanced otolithic function in semicircular canal dehiscence. Acta Otolaryngol 2011; 131: 107112.
  • 121
    Streubel SO, Cremer PD, Carey JP, et al. Vestibular-evoked myogenic potentials in the diagnosis of superior canal dehiscence syndrome. Acta Otolaryngol Suppl 2001; 545: 4149.