Journal of Otolaryngology and Ophthalmology of Shandong University ›› 2020, Vol. 34 ›› Issue (5): 67-71.doi: 10.6040/j.issn.1673-3770.1.2020.071
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[1] Akin FW, Murnane OD, Proffitt TM. The effects of click and tone-burst stimulus parameters on the vestibular evoked myogenic potential(VEMP)[J]. J Am Acad Audiol, 2003, 14(9):500-509. doi:10.3766/jaaa.14.9.5. [2] Papathanasiou ES, Murofushi T, Akin FW, et al. International guidelines for the clinical application of cervical vestibular evoked myogenic potentials: an expert consensus report[J]. Clin Neurophysiol, 2014, 125(4):658-666. doi:10.1016/j.clinph.2013.11.042. [3] Janky KL, Shepard N. Vestibular evoked myogenic potential(VEMP)testing: normative threshold response curves and effects of age[J]. J Am Acad Audiol, 2009, 20(8):514-522. doi:10.3766/jaaa.20.8.6. [4] Kelsch TA, Schaefer LA, Esquivel CR. Vestibular evoked myogenic potentials in young children: test parameters and normative data[J]. Laryngoscope, 2006, 116(6):895-900. doi:10.1097/01.mlg.0000214664.97049.3e. [5] Curthoys IS. A critical review of the neurophysiological evidence underlying clinical vestibular testing using sound, vibration and galvanic stimuli[J]. Clin Neurophysiol, 2010, 121(2):132-144. doi:10.1016/j.clinph.2009.09.027. [6] Wang SJ, Hsieh WS, Young YH. Development of ocular vestibular-evoked myogenic potentials in small children[J]. Laryngoscope, 2013, 123(2):512-517. doi:10.1002/lary.23535. [7] Inoue A, Iwasaki S, Ushio M, et al. Effect of vestibular dysfunction on the development of gross motor function in children with profound hearing loss[J]. Audiol Neurotol, 2013, 18(3):143-151. doi:10.1159/000346344. [8] Tribukait A, Brantberg K, Bergenius J. Function of semicircular canals, utricles and saccules in deaf children[J]. Acta Otolaryngol, 2004, 124(1):41-48. doi:10.1080/00016480310002113. [9] Hsu YS, Wang SJ, Young YH. Ocular vestibular-evoked myogenic potentials in children using air conducted sound stimulation[J]. Clin Neurophysiol, 2009, 120(7):1381-1385. doi:10.1016/j.clinph.2009.04.009. [10] 胡琛, 孔维佳, 钟刚, 等. 前庭诱发肌源性电位的正常人群观察[J]. 临床耳鼻咽喉科杂志, 2005, 19(22):1012-1014. doi:10.3969/j.issn.1001-1781.2005.22.002. HU Chen, KONG Weijia, ZHONG Gang, et al. Vestibular evoked myogenic potentials in normal young people[J]. Journal of Clinical Otorhinolaryngology, 2005, 19(22):1012-1014. doi:10.3969/j.issn.1001-1781.2005.22.002. [11] 张青, 宋辉, 胡娟, 等. 气导短纯音诱发的眼肌前庭诱发肌源性电位在健康青年人群中的波形特征[J]. 中华耳鼻咽喉头颈外科杂志, 2012, 47(1):15-18. doi:10.3760/cma.j.issn.1673-0860.2012.01.005. ZHANG Qing, SONG Hui, HU Juan, et al. Characteristics of the air-conducted ocular evoked myogenic potential in the young normal Chinese subjects[J]. Chinese Journal of Otorhinolaryngology Head and Neck Surgery, 2012, 47(1):15-18. doi:10.3760/cma.j.issn.1673-0860.2012.01.005. [12] Park HJ, Lee IS, Shin JE, et al. Frequency-tuning characteristics of cervical and ocular vestibular evoked myogenic potentials induced by air-conducted tone bursts[J]. Clin Neurophysiol, 2010, 121(1):85-89. doi:10.1016/j.clinph.2009.10.003. [13] Rodriguez AI, Thomas MLA, Fitzpatrick D, et al. Effects of high sound exposure during air-conducted vestibular evoked myogenic potential testing in children and young adults[J]. Ear Hear, 2018, 39(2):269-277. doi:10.1097/aud.0000000000000484. [14] 张青, 许信达, 牛晓蓉, 等. 年龄因素对气导声刺激诱发的眼肌和颈肌前庭诱发肌源性电位的影响[J]. 中华耳鼻咽喉头颈外科杂志, 2014, 49(11):897-901. doi:10.3760/cma.j.issn.1673-0860.2014.11.005. ZHANG Qing, XU Xinda, NIU Xiaorong, et al. Effects of aging on air-conducted sound elicited ocular vestibular-evoked myogenic potential and cervical vestibular-evoked myogenic potential[J]. Chinese Journal of Otorhinolaryngology Head and Neck Surgery, 2014, 49(11):897-901. doi:10.3760/cma.j.issn.1673-0860.2014.11.005. [15] Piker EG, Jacobson GP, Burkard RF, et al. Effects of age on the tuning of the cVEMP and oVEMP[J]. Ear Hear, 2013, 34(6):e65-e73. doi:10.1097/aud.0b013e31828fc9f2. [16] Strömberg AK, Olofsson Å, Westin M, et al. Changes in cochlear function related to acoustic stimulation of cervical vestibular evoked myogenic potential stimulation[J]. Hear Res, 2016, 340:43-49. doi:10.1016/j.heares.2015.12.022. [17] Rodriguez AI, Thomas MLA, Janky KL. Air-conducted vestibular evoked myogenic potential testing in children, adolescents, and young adults: thresholds, frequency tuning, and effects of sound exposure[J]. Ear Hear, 2019, 40(1):192-203. doi:10.1097/aud.0000000000000607. |
[1] | . Diagnosis and management of peripheral vestibular diseases [J]. Journal of Otolaryngology and Ophthalmology of Shandong University, 2020, 34(5): 1-6. |
[2] | . Effects of aging on galvanic vestibular stimulation elicited vestibular evoked myogenic potential [J]. Journal of Otolaryngology and Ophthalmology of Shandong University, 2020, 34(5): 7-13. |
[3] | . A new grade of vestibular function abnormality in Menieres disease: a pilot study [J]. Journal of Otolaryngology and Ophthalmology of Shandong University, 2020, 34(5): 14-19. |
[4] | . Clinical value of vestibular evoked myogenic potential to predict prognosis of unilateral idiopathic sudden sensorineural hearing loss [J]. Journal of Otolaryngology and Ophthalmology of Shandong University, 2020, 34(5): 27-32. |
[5] | . Relationship between prognosis and vestibular symptoms/function in patients with unilateral profound sudden sensorineural hearing loss: A retrospective analysis [J]. Journal of Otolaryngology and Ophthalmology of Shandong University, 2020, 34(5): 33-38. |
[6] | . Location and frequency characteristics of vestibular dysfunction in patients with nonsyndromic auditory neuropathy [J]. Journal of Otolaryngology and Ophthalmology of Shandong University, 2020, 34(5): 39-45. |
[7] | . Abnormality rate of vestibular evoked myogenic potentials in patients with primary and recurrent benign paroxysmal positional vertigo: a clinical observation [J]. Journal of Otolaryngology and Ophthalmology of Shandong University, 2020, 34(5): 51-55. |
[8] | To record the bone-conducted vestibular-evoked myogenic potential(BC-VEMP)in order to provide a reference for the clinical evaluation of vestibular function in normal-hearing children. MethodsThirty-one normal-hearing children(62 ears)aged 4-12 years were selected to undergo BC-VEMP determination. These children were divided into two groups according to age. Those aged 4-5 years(11 children, 22 ears)belonged to one group while those aged 6-12 years(20 children, 40 ears)belonged to the other. A 60 dB nHL was used as the initial stimulus intensity by which the N1 latency, P1 latency, n1-p1 interval, n1-p1 amplitude, amplitude asymmetry ratio, and threshold of cervical VEMP(CVMP)and ocular VEMP(ocular VEMP)were recorded. The SPSS software was used for statistical analysis. ResultsThere was no significant difference in P1, N1 latency, P1-N1 wave interval, P1-N1 amplitude, threshold, and amplitude asymmetry ratio of BC-oVEMP between the 4-5-year-old and the 6-12-year-old groups(P>0.05). There was no significant difference in N1, P1 latency, n1-p1 wave interval, n1-p1 amplitude, threshold, and amplitude asymmetry ratio of BC-VEMP between the two groups(P>0.05). ConclusionBC-VEMP is a feasible auxiliary examination of vestibular function. The establishment of normal values of BC-VEMP in different age groups can provide a reference for clinical evaluation of vestibular function in children.. The establishment of a normal value of bone-conducted vestibular-evoked myogenic potential in normal-hearing children [J]. Journal of Otolaryngology and Ophthalmology of Shandong University, 2020, 34(5): 72-77. |
[9] | Newborns and infants with hearing loss often suffer from vestibular dysfunction, which may aggravate with the gradual deterioration of hearing, resulting in delayed motor development or motor dysplasia. The motor development of newborns and infants depends on the function of the vestibular organs; thus, early vestibular function evaluation has positive prognostic significance. However, newborns and infants lack the language skills to fully express their symptoms. Furthermore, a series of complex vestibular function tests may cause them discomfort, such as vertigo and nausea, and the equipment and environment often scare them, which make vestibular assessment very challenging. Additionally, the structure and function of the vestibular, visual, and proprioceptive systems gradually mature with growth and development. Therefore, the clinical data of vestibular quantitative tests in different age groups cannot be compared with the standard reference range in adults. Hence, not all types of vestibular tests are necessary or appropriate in newborns and infants and should be adjusted according to the stage of development. In this study, we performed a literature review with focus on the common vestibular function tests according to the age and developmental stage of newborns and infants.. Update on the development and evaluation of vestibular function in newborns and Infants [J]. Journal of Otolaryngology and Ophthalmology of Shandong University, 2020, 34(5): 82-88. |
[10] | LIU Bing, LI Bei, ZHANG Li, CHEN Min, ZHANG Jie. Clinical Analysis of Benign Paroxysmal Vertigo in preschool and school-age children [J]. J Otolaryngol Ophthalmol Shandong Univ, 2018, 32(5): 58-60. |
[11] | LIU Ye, SUN Dianshui, YIN Jinjun, XIA Ming, XU Ying, SUN Jianhua. Vestibular function damage mechanisms in nasopharyngeal carcinoma patients after intensity-modulated radiotherapy. [J]. JOURNAL OF SHANDONG UNIVERSITY (OTOLARYNGOLOGY AND OPHTHALMOLOGY), 2016, 30(6): 14-17. |
[12] | YIN Xueling. Changes of vestibular function in patients with obstructive sleep apnea-hypopnea syndrome [J]. JOURNAL OF SHANDONG UNIVERSITY (OTOLARYNGOLOGY AND OPHTHALMOLOGY), 2015, 29(3): 9-12. |
[13] | JIAN Hui-rong, YU Gang, CHEN Gang, LIN Nai-fen, WANG Hai-bo. Correlation between levels of estrogen and auditory and vestibular functions in post-menopause with Meniere′s disease [J]. JOURNAL OF SHANDONG UNIVERSITY (OTOLARYNGOLOGY AND OPHTHALMOLOGY), 2012, 26(2): 39-41. |
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