Abstract

Introduction

Recent research has described a new vestibular evaluation test, the ocular vestibular evoked myogenic potential (o-VEMP). This type of vestibular potential is evoked by sound stimulation and registered in the presence of ocular myogenic responses, in the same way as the cervical vestibular evoked myogenic potential (c-VEMP).¹1 Brantberg K. Vestibular evoked myogenic potentials (VEMPs): usefulness in clinical neurotology. Semin Neurol 2009;29: 541-547

Based on the results of anatomical and physiologic experimental studies in animals, it was realized that the o-VEMP can be used to evaluate otolithic activity. Differently from the c-VEMP, which analyzes the ipsilateral descending vestibular pathway, the o-VEMP has been validated for evaluation of the ascending vestibular pathway via the vestibulo-ocular reflex (VOR).¹1 Brantberg K. Vestibular evoked myogenic potentials (VEMPs): usefulness in clinical neurotology. Semin Neurol 2009;29: 541-547 ²2 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: 2745-2751 The VOR is responsible for stabilizing vision on the retina during head and body movements.²2 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: 2745-2751 ³3 Kingma H. Function tests of the otolith or statolith system. Curr Opin Neurol 2006;19:21-25 ⁴4 Leigh RJ, Zee DS. The Neurology of Eye Movements. 3th ed. Oxford, UK: Oxford University Press; 1999 Nonphysiologic stimuli such as high-intensity sounds can provoke ocular reflex movements in the absence of cephalic displacement, thus providing a method to evaluate the VOR.⁵5 Park HJ, Lee IS, Shin JE, Lee YJ, Park MS. Frequency-tuning characteristics of cervical and ocular vestibular evoked myogenic potentials induced by air-conducted tone bursts. Clin Neurophysiol 2010;121:85-89

Information from the utricle stimulates the six ocular muscles. The utricular macula is divided into different functional regions, and each one is able to generate stimuli to a particular ocular muscle.³3 Kingma H. Function tests of the otolith or statolith system. Curr Opin Neurol 2006;19:21-25 ⁵5 Park HJ, Lee IS, Shin JE, Lee YJ, Park MS. Frequency-tuning characteristics of cervical and ocular vestibular evoked myogenic potentials induced by air-conducted tone bursts. Clin Neurophysiol 2010;121:85-89 Utricular excitatory inputs protrude to the superior oblique, superior rectus, and medial rectus eye muscles ipsilaterally and the inferior oblique and inferior rectus eye muscles on the contralateral side.²2 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: 2745-2751

Every movement or new cephalic displacement causes excitement of one of the regions of the utricular macula, leading to eye movement in the opposite direction. Information from the utricle converges with information from the semicircular canals (SCCs) in the vestibular nuclei and passes through the same neural pathways to the ocular motor nuclei. The fundamental difference between the information coming from the SCCs and that from the utricle is the type of stimulation involved; the SCCs are in charge of angular acceleration (i.e., rotational movements), and the utricle is in charge of linear acceleration, especially changes in static and gravitational orientation.⁶6 Rosengren SM, AwST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008;79:559-568

The connections between the saccule and the ocular system are less extensive when compared with those related to the utricle. Thus, it is believed that there is a functional difference between the otolithic organs; although the utricle is principally related to eye movement, the saccule plays a major role in the control of postural adjustment.⁶6 Rosengren SM, AwST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008;79:559-568 ⁷7 Todd NP, Rosengren SM, Aw ST, Colebatch JG. Ocular vestibular evokedmyogenic potentials (OVEMPs) produced by air- and boneconducted sound. Clin Neurophysiol 2007;118:381-390

Concept

The o-VEMP is a short latency potential, composed of extraocular myogenic responses activated by sound stimulation and registered by surface electromyography via ipsilateral otolithic and contralateral extraocular muscle activation.³3 Kingma H. Function tests of the otolith or statolith system. Curr Opin Neurol 2006;19:21-25 ⁴4 Leigh RJ, Zee DS. The Neurology of Eye Movements. 3th ed. Oxford, UK: Oxford University Press; 1999 ⁵5 Park HJ, Lee IS, Shin JE, Lee YJ, Park MS. Frequency-tuning characteristics of cervical and ocular vestibular evoked myogenic potentials induced by air-conducted tone bursts. Clin Neurophysiol 2010;121:85-89 ⁶6 Rosengren SM, AwST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008;79:559-568 ⁷7 Todd NP, Rosengren SM, Aw ST, Colebatch JG. Ocular vestibular evokedmyogenic potentials (OVEMPs) produced by air- and boneconducted sound. Clin Neurophysiol 2007;118:381-390 ⁸8 Todd NP, Rosengren SM, Colebatch JG. Ocular vestibular evoked myogenic potentials (OVEMPs) produced by impulsive transmastoid accelerations. Clin Neurophysiol 2008;119:1638-1651 The inferior oblique muscle is the most superficial of the six extraocular muscles responsible for eye movement. Therefore, measurement of o-VEMPs can be performed easily by using surface electrodes on the skin below the eyes, contralaterally to the stimulated side.⁸8 Todd NP, Rosengren SM, Colebatch JG. Ocular vestibular evoked myogenic potentials (OVEMPs) produced by impulsive transmastoid accelerations. Clin Neurophysiol 2008;119:1638-1651

Research has shown that this potential is not affected by the neural activity of the cochlear and facial nerves, providing evidence that the o-VEMP has a vestibulo-ocular origin. Although clinical studies suggest that this potential is of vestibular origin, its exact origin and pathway are not known.⁶6 Rosengren SM, AwST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008;79:559-568 ⁷7 Todd NP, Rosengren SM, Aw ST, Colebatch JG. Ocular vestibular evokedmyogenic potentials (OVEMPs) produced by air- and boneconducted sound. Clin Neurophysiol 2007;118:381-390 ⁸8 Todd NP, Rosengren SM, Colebatch JG. Ocular vestibular evoked myogenic potentials (OVEMPs) produced by impulsive transmastoid accelerations. Clin Neurophysiol 2008;119:1638-1651

Methodology and Recording Protocol

The o-VEMP can be obtained by sound stimulation, vibrations, or head taps. The stimuli used are clicks or tone bursts (∼100 to 250 promediations). Consecutive recordings are performed to evaluate reproducibility. The stimulation threshold for this potential is reported to be from 95 dB normal hearing level.⁶6 Rosengren SM, AwST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008;79:559-568 ⁷7 Todd NP, Rosengren SM, Aw ST, Colebatch JG. Ocular vestibular evokedmyogenic potentials (OVEMPs) produced by air- and boneconducted sound. Clin Neurophysiol 2007;118:381-390 ⁸8 Todd NP, Rosengren SM, Colebatch JG. Ocular vestibular evoked myogenic potentials (OVEMPs) produced by impulsive transmastoid accelerations. Clin Neurophysiol 2008;119:1638-1651 ⁹9 Welgampola MS. Evoked potential testing in neuro-otology. Curr Opin Neurol 2008;21:29-35 ¹⁰10 Zhou G, Cox LC. Vestibular evoked myogenic potentials: history and overview. Am J Audiol 2004;13:135-143

In the literature, a higher incidence of achievement of o-VEMP measurement is described using a frequency of 500 Hz. Stimulation rates vary from 3 to 5 Hz. The window for analysis is 50 milliseconds.⁵5 Park HJ, Lee IS, Shin JE, Lee YJ, Park MS. Frequency-tuning characteristics of cervical and ocular vestibular evoked myogenic potentials induced by air-conducted tone bursts. Clin Neurophysiol 2010;121:85-89 ⁶6 Rosengren SM, AwST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008;79:559-568 Positive electrodes are placed on the lower eyelid of each eye, with reference electrodes situated 1 to 2 cm below these and the ground electrode placed on the breastbone. Electrode impedance must be less than 7 kΩ. Electromyographic signals are amplified and reported band-pass filter values range from 5 to 500 Hz, 1 to 1,000 Hz, and 3 to 500 Hz.

The amplitude of the o-VEMP is widely influenced by eye direction. It is high when looking up, low when looking ahead, and abolished when looking down.⁶6 Rosengren SM, AwST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008;79:559-568 ⁷7 Todd NP, Rosengren SM, Aw ST, Colebatch JG. Ocular vestibular evokedmyogenic potentials (OVEMPs) produced by air- and boneconducted sound. Clin Neurophysiol 2007;118:381-390 ⁸8 Todd NP, Rosengren SM, Colebatch JG. Ocular vestibular evoked myogenic potentials (OVEMPs) produced by impulsive transmastoid accelerations. Clin Neurophysiol 2008;119:1638-1651 During measurement of o-VEMPs, therefore, the patient is instructed to look upward, staring at a fixed point, because responses are of higher amplitude when the subject looks in this direction.³3 Kingma H. Function tests of the otolith or statolith system. Curr Opin Neurol 2006;19:21-25 ⁶6 Rosengren SM, AwST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008;79:559-568 ⁷7 Todd NP, Rosengren SM, Aw ST, Colebatch JG. Ocular vestibular evokedmyogenic potentials (OVEMPs) produced by air- and boneconducted sound. Clin Neurophysiol 2007;118:381-390 ⁸8 Todd NP, Rosengren SM, Colebatch JG. Ocular vestibular evoked myogenic potentials (OVEMPs) produced by impulsive transmastoid accelerations. Clin Neurophysiol 2008;119:1638-1651 It is recommended that the fixed point is more than 2 m from the patient's eyes. Throughout the examination, the eyes must remain steady. The registered responses are ipsilateral to the applied stimulation and contralateral to the inferior oblique extraocular muscle. Thus, the amplitude of the potential becomes more prominent when looking up, as in this situation the inferior oblique muscle stays near the register electrode.²2 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: 2745-2751 A possible additional explanation for this phenomenon is that when the muscle contracts during looking up, more motor units are activated synchronously, producing a component of larger amplitude.²2 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: 2745-2751 ⁶6 Rosengren SM, AwST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008;79:559-568 Continuous and repetitive testing can cause eyestrain and/or involuntary blinking, deteriorating the quality of the waveform. Therefore, binaural stimulation has been suggested as an option for reducing the duration of testing.⁷7 Todd NP, Rosengren SM, Aw ST, Colebatch JG. Ocular vestibular evokedmyogenic potentials (OVEMPs) produced by air- and boneconducted sound. Clin Neurophysiol 2007;118:381-390

The o-VEMP tracing obtained consists of a biphasic waveform. The first peak has a negative deflection (N) latency of ∼10 milliseconds, followed by a positive peak (P) with a mean latency of 15 milliseconds, which are called N1 and P1, respectively. Because responses are recorded by surface electromyography, control of muscle contraction is imperative for reproducible and reliable results.⁶6 Rosengren SM, AwST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008;79:559-568 ⁷7 Todd NP, Rosengren SM, Aw ST, Colebatch JG. Ocular vestibular evokedmyogenic potentials (OVEMPs) produced by air- and boneconducted sound. Clin Neurophysiol 2007;118:381-390 ⁸8 Todd NP, Rosengren SM, Colebatch JG. Ocular vestibular evoked myogenic potentials (OVEMPs) produced by impulsive transmastoid accelerations. Clin Neurophysiol 2008;119:1638-1651

Clinical Usefulness

Pathologic studies have been performed to verify the clinical applicability of this test. The most commonly studied vestibular changes are superior canal dehiscence syndrome (SCDS) and multiple sclerosis. In SCDS, the threshold for responses is lower and the amplitude of recorded o-VEMPs is 5 to 20 times higher when compared with control group responses. Research has suggested that o-VEMP testing can be performed as a screening test for SCDS.⁶6 Rosengren SM, AwST, Halmagyi GM, Todd NP, Colebatch JG. Ocular vestibular evoked myogenic potentials in superior canal dehiscence. J Neurol Neurosurg Psychiatry 2008;79:559-568 A delay in latency was observed in individuals with multiple sclerosis; this was justified by the finding of plaques of demyelination in the vestibular nerve. In addition, o-VEMP testing could aid in obtaining information on brainstem lesions.⁹9 Welgampola MS. Evoked potential testing in neuro-otology. Curr Opin Neurol 2008;21:29-35 ¹⁰10 Zhou G, Cox LC. Vestibular evoked myogenic potentials: history and overview. Am J Audiol 2004;13:135-143

Discussion

To identify the cause of dizziness in patients, it is necessary to obtain information concerning the function of the vestibular end organs of both ears. Although SCC function can be tested with caloric or head impulse testing,¹¹11 Halmagyi GM, Curthoys IS. A clinical sign of canal paresis. Arch Neurol 1988;45:737-739 safe and simple tests of otolith function are not common. Recently, two important tests of otolith function have been reported: the c-VEMP and the o-VEMP.¹²12 Rosengren SM, Kingma H. New perspectives on vestibular evoked myogenic potentials. Curr Opin Neurol 2013;26:74-80 Unlike the c-VEMP test, which assesses the descending vestibular pathway via the ipsilateral sacculocollic reflex, the o-VEMP test has been validated for evaluation of the ascending vestibular pathway via the crossed VOR.¹³13 Iwasaki S, McGarvie LA, Halmagyi GM, et al. Head taps evoke a crossed vestibulo-ocular reflex. Neurology 2007;68: 1227-1229

The o-VEMP may be easily obtained from the skin surface beneath the eye, contralaterally to the acoustically stimulated ear.¹⁴14 Felipe L, Kingma H, Goncalves DU. Vestibular evoked myogenic potential. Int Arch Otorhinolaryngol 2012;16:103-107 ¹⁵15 Clarke AH, Schönfeld U,Helling K. Unilateral examination of utricle and saccule function. J Vestib Res 2003;13:215-225 The amplitude of the o-VEMP becomes more prominent when the subject looks upward, as the belly of the inferior oblique muscle is brought close to the recording electrode. An additional possible explanation for this phenomenon is that when this muscle contracts during looking upward, its motor units (motor neurons and/or muscle fibers) are activated more synchronously, producing compound action potentials of larger amplitude. However, continuous and repeated upward gaze may cause eye strain and involuntary blinking, deteriorating the quality of the waveforms obtained.¹⁶16 Wang SJ, Jaw FS, Young YH. Ocular vestibular-evoked myogenic potentials elicited from monaural versus binaural acoustic stimulations. Clin Neurophysiol 2009;120:420-423 Binaural acoustic stimulation with bilateral recordings can help to reduce the duration of the recording session.

Eliciting o-VEMPs by bone-conducted stimulation requires the extra cost of adding an amplifier to the original instrument. Vestibular activation by air-conducted sound in healthy adults is highly reproducible between experiments and more symmetrical than activation by head taps or bone-conducted vibration.¹⁷17 Welgampola MS, Rosengren SM, Halmagyi GM, Colebatch JG. Vestibular activation by bone conducted sound. J Neurol Neurosurg Psychiatry 2003;74:771-778 Binaural air-conducted sound selectively stimulates the saccular macula, and bone-conducted vibration stimulates both the utricular and saccular maculae.¹⁸18 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: 256-267 Consequently, binaural air-conducted acoustic stimulation is plausibly more specific, reliable, and practicable than bone-conducted vibration in eliciting o-VEMPs to investigate the function of the saccule and inferior vestibular nerve in subjects without conductive hearing loss, which can be excluded by conventional audiometry.⁹9 Welgampola MS. Evoked potential testing in neuro-otology. Curr Opin Neurol 2008;21:29-35 ¹⁶16 Wang SJ, Jaw FS, Young YH. Ocular vestibular-evoked myogenic potentials elicited from monaural versus binaural acoustic stimulations. Clin Neurophysiol 2009;120:420-423

Studies presenting the latencies and amplitudes of monaural o-VEMPs and binaural o-VEMPs showed similar results.²2 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: 2745-2751 ¹⁶16 Wang SJ, Jaw FS, Young YH. Ocular vestibular-evoked myogenic potentials elicited from monaural versus binaural acoustic stimulations. Clin Neurophysiol 2009;120:420-423 In addition, significant correlations without differences between monaural o-VEMPs and binaural o-VEMPs were demonstrated with respect to threshold, latency, and amplitude, indicating that the binaural o-VEMP test provides the same information as the monaural o-VEMP test. However, the recording duration of the former is shorter than that of the latter. Thus, the binaural test may be a more convenient screening tool for assessment of the crossed VOR.¹⁶16 Wang SJ, Jaw FS, Young YH. Ocular vestibular-evoked myogenic potentials elicited from monaural versus binaural acoustic stimulations. Clin Neurophysiol 2009;120:420-423

Conclusion

The number of studies investigating the o-VEMP is increasing. However, to define the clinical usefulness of measurement of the o-VEMP, it is very important to establish its neural course. In addition, it is vital to document normal values, standardized protocols, and defined applications in vestibular pathologies for this technique. Once this information has been established, the o-VEMP may be an alternative measurement in the otoneurologic battery of tests used for the assessment of otolith function, as it can be used as an assessment tool for the vestibulo-ocular pathway to complement the findings of c-VEMP testing.

Financial Support

This work was supported by FAPERJ (Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro).

References

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