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Characteristics of ipsilateral, contralateral and bilateral masseter vestibular-evoked myogenic potential in healthy adults

Published online by Cambridge University Press:  25 January 2023

V P Thirusangu Open the ORCID record for V P Thirusangu [Opens in a new window]  and
S K Sinha
V P Thirusangu*
Affiliation:
Department of Audiology, All India Institute of Speech and Hearing, Manasagangothri, Mysore, India
S K Sinha
Affiliation:
Department of Audiology, All India Institute of Speech and Hearing, Manasagangothri, Mysore, India
*
Corresponding author: Dr V P Thirusangu; Email: vinayagar122@gmail.com
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Abstract

Objective

This study aimed to characterise the ipsilateral, contralateral and bilateral masseter vestibular-evoked myogenic potential using clicks and 500 Hz tone burst stimuli in healthy adults.

Method

Masseter vestibular-evoked myogenic potential was recorded from 20 healthy participants aged 19–28 years (11 males and 9 females). Masseter vestibular-evoked myogenic potential was recorded using 500 Hz tone burst and click stimuli in ipsilateral, contralateral and bilateral modes.

Results

A statistically significant difference was observed between ipsilateral and contralateral stimulation for p11 latency, n21 latency and p11-n21 amplitude for both click and 500 Hz tone burst stimuli. The amplitude of the p11-n21 complex was higher for ipsilateral, contralateral and bilateral stimulations for 500 Hz tone burst than for click stimulus.

Conclusion

This study showed a significant difference for p11-n21 amplitude between click and 500 Hz tone burst evoked masseter vestibular-evoked myogenic potential. In addition, bilateral stimulation elicited a larger response than ipsilateral and contralateral stimulation.

Keywords

Vestibular evoked myogenic potentialsmasseter musclebrainstemotolithic membraneVEMPsevoked potentials
Type
Main Article
Information
The Journal of Laryngology & Otology , Volume 137 , Issue 12 , December 2023 , pp. 1359 - 1367
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press on behalf of J.L.O. (1984) LIMITED

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Footnotes

Dr V P Thirusangu takes responsibility for the integrity of the content of the paper

References

Deriu, F, Tolu, E, Rothwell, JC. A short latency vestibulomasseteric reflex evoked by electrical stimulation over the mastoid in healthy humans. J Physiol 2003;553:267–79CrossRefGoogle Scholar
Deriu, F, Tolu, E, Rothwell, JC. A sound-evoked vestibulomasseteric reflex in healthy humans. J Neurophysiol 2005;93:2739–51CrossRefGoogle ScholarPubMed
Magnano, I, Pes, GM, Pilurzi, G, Cabboi, MP, Ginatempo, F, Giaconi, E et al. Exploring brainstem function in multiple sclerosis by combining brainstem reflexes, evoked potentials, clinical and MRI investigations. Clin Neurophysiol 2014;125:2286–96CrossRefGoogle ScholarPubMed
Magnano, I, Pes, GM, Cabboi, MP, Pilurzi, G, Ginatempo, F, Achene, A et al. Comparison of brainstem reflex recordings and evoked potentials with clinical and MRI data to assess brainstem dysfunction in multiple sclerosis: a short-term follow-up. Neurol Sci 2016;37:1457–65CrossRefGoogle ScholarPubMed
de Natale, ER, Ginatempo, F, Paulus, KS, Manca, A, Mercante, B, Pes, GM et al. Paired neurophysiological and clinical study of the brainstem at different stages of Parkinson's disease. Clin Neurophysiol 2015;126:1871–8CrossRefGoogle ScholarPubMed
de Natale, ER, Ginatempo, F, Paulus, KS, Pes, GM, Manca, A, Tolu, E et al. Abnormalities of vestibular-evoked myogenic potentials in idiopathic Parkinson's disease are associated with clinical evidence of brainstem involvement. Neurol Sci 2015;36:9951001CrossRefGoogle ScholarPubMed
de Natale, ER, Ginatempo, F, Laccu, I, Figorilli, M, Manca, A, Mercante, B et al. Vestibular evoked myogenic potentials are abnormal in idiopathic REM sleep behaviour disorder. Front Neurol 2018;9:18CrossRefGoogle Scholar
de Natale, ER, Ginatempo, F, Mercante, B, Manca, A, Magnano, I, Ortu, E et al. Vestibulo masseteric reflex and acoustic masseteric reflex. Normative data and effects of age and gender. Clin Neurophysiol 2019;130:1511–19Google ScholarPubMed
Puligheddu, M, Figorilli, M, Serra, A, Laccu, I, Congiu, P, Tamburrino, L et al. REM Sleep without atonia correlates with abnormal vestibular-evoked myogenic potentials in isolated REM sleep behaviour disorder. Sleep 2019;42:18CrossRefGoogle Scholar
Loi, N, Manca, A, Ginatempo, F, Deriu, F. The vestibulo-masseteric reflex and the acoustic-masseteric reflex: a reliability and responsiveness study in healthy subjects. Exp Brain Res 2020;238:1769–79CrossRefGoogle ScholarPubMed
Vignesh, SS, Singh, NK, Rajalakshmi, K. Tone burst masseter vestibular-evoked myogenic potentials: normative values and test-retest reliability. J Am Acad Audiol 2021;32:308–14Google ScholarPubMed
Thirusangu, VP, Sinha, SK. Effect of electrode montage on 500-Hz tone burst evoked masseter vestibular evoked myogenic potential. Am J Audiol 2022;31:403–10CrossRefGoogle ScholarPubMed
Vignesh, SS, Bhoopathy, RM, Singh, NK, Rajalakshmi, K. Usefulness of masseter vestibular evoked myogenic potentials in identifying brainstem dysfunction among individuals with multiple sclerosis. Int J Audiol 2022;8:19Google Scholar
Deriu, F, Ortu, E, Capobianco, S, Giaconi, E, Melis, F, Aiello, E et al. Origin of sound-evoked EMG responses in human masseter muscles. J Physiol 2007;580:195209CrossRefGoogle ScholarPubMed
Deriu, F, Podda, MV, Milia, M, Chessa, G, Sau, G, Pastorino, M et al. Masseter muscle activity during vestibular stimulation in man. Arch Ital Biol 2000;138:205–15Google ScholarPubMed
Kumar, K, Sinha, SK, Bharti, AK, Barman, A. Comparison of vestibular evoked myogenic potentials elicited by click and short duration tone burst stimuli. J Laryngol Otol 2011;125:343–7CrossRefGoogle ScholarPubMed
Viciana, D, Lopez-Escamez, JA. Short tone bursts are better than clicks for cervical vestibular-evoked myogenic potentials in clinical practice. Eur Arch Otorhinolaryngol 2012;269:1857–63CrossRefGoogle ScholarPubMed
Ozgur, A, Erdivanlı, ÇO, Coskun, OZ, Terzi, S, Yigit, E, Demirci, M et al. Comparison of tone burst, click and chirp stimulation in vestibular evoked myogenic potential testing in healthy people. J Int Adv Otol 2015;11:33–5CrossRefGoogle ScholarPubMed
Wu, HJ, Shiao, AS, Yang, YL, Lee, GS. Comparison of short tone burst-evoked and click-evoked vestibular myogenic potentials in healthy individuals. J Chin Med Assoc 2007;70:159–63CrossRefGoogle ScholarPubMed
Deepak, DT, Bhat, JS, Kumar, K. Ocular vestibular evoked myogenic potential using different test stimuli. ISRN Otolaryngol 2013;161937Google ScholarPubMed
Carhart, R, Jerger, JF. Preferred method for clinical determination of pure-tone thresholds. J Sp Hear Dis 1959;24:330–45CrossRefGoogle Scholar
Tolu, E, Pugliatti, M, Lacana, P, Chessa, G, Caria, MA, Simula, ME. Vestibular and somatosensory afferents modulate masseter muscle activity. J Vestib Res 1994;4:303–11Google ScholarPubMed
Tolu, E, Caria, MA, Chessa, G, Melis, F, Simula, ME, Podda, MV et al. Trigeminal motoneuron responses to vestibular stimulation in the guinea pig. Arch Ital Biol 1996;134:141–51Google ScholarPubMed
Deriu, F, Podda, MV, Chessa, G, Tolu, E. Trigeminal integration of vestibular and forelimb nerve inputs. Arch Ital Biol 1999;137:6373Google ScholarPubMed
Deriu, F, Giaconi, E, Rothwell, JC, Tolu, E. Reflex responses of masseter muscles to sound. Clin Neurophysiol 2010;12:1690–9CrossRefGoogle Scholar
Tolu, E, Pugliatti, M. The vestibular system modulates masseter muscle activity. J Vestib Res 1993; 3:163–71CrossRefGoogle ScholarPubMed
Cheng, PW, Huang, TW, Young, YH. The influence of clicks versus short tone bursts on the vestibular evoked myogenic potentials. Ear Hear 2003;24:195–7CrossRefGoogle ScholarPubMed
Todd, NP, Rosengren, SM, Govender, S, Colebatch, JG. Low frequency tuning in the human vestibular-ocular projection is determined by both peripheral and central mechanisms. Neurosci Lett 2009;458:43–7CrossRefGoogle ScholarPubMed