Abstract
Introduction:
Auditory Neuropathy/Dyssynchrony is a disorder characterized by the presence of Otoacoustic Emissions and Cochlear Microphonic Potentials, an absence or severe alteration of Brainstem Evoked Auditory Potential, auditory thresholds incompatible with speech thresholds and altered acoustic reflexes. The study of the Cochlear Microphonic Potential appears to be the most important tool for an accurate diagnosis of this pathology.
Objective:
Determine the characteristics of the Cochlear Microphonic in Auditory Neuropathy/Dyssynchrony using an integrative review.
Methods:
Bibliographic survey of Pubmed and Bireme platforms and MedLine, LILACS and SciELO data banks, with standardized searches up to July 2014, using keywords. Criteria were established for the selection and assessment of the scientific studies surveyed, considering the following aspects: author, year/place, degree of recommendation/level of scientific evidence, objective, sample, age range, mean age, tests, results and conclusion.
Results:
Of the 1959 articles found, 1914 were excluded for the title, 20 for the abstract, 9 for the text of the article, 2 for being repeated and 14 were selected for the study.
Conclusion:
The presence of the Cochlear Microphonic is a determining finding in the differential diagnosis of Auditory Neuropathy/Dyssynchrony. The protocol for the determination of Cochlear Microphonic must include the use of insert earphones, reverse polarity and blocking the stimulus tube to eliminate electrical artifact interference. The amplitude of the Cochlear Microphonic in Auditory Neuropathy/Dyssynchrony shows no significant difference from that of normal individuals. The duration of the Cochlear Microphonic is longer in individuals with Auditory Neuropathy/Dyssynchrony.
KEYWORDS
Cochlear microphonic; Cochlear microphonic potential; Hearing loss
Resumo
Introdução:
A Neuropatia/Dessincronia Auditiva é uma doença caracterizada pela presença das Emissões Otoacústicas e do Microfonismo Coclear, com ausência ou grave alteração do Potencial Evocado Auditivo de Tronco Encefálico, limiares auditivos incompatíveis com limiares vocais e reflexos acústicos alterados. O estudo do Microfonismo Coclear parece ser a ferramenta mais importante para um diagnóstico preciso desta patologia.
Objetivo:
Verificar por meio de uma revisão integrativa as características do Microfonismo Coclear na Neuropatia/Dessincronia Auditiva.
Método:
Levantamento bibliográfico nas plataformas Pubmed e Bireme e nas bases de dados MedLine, LILACS e SciELO, com buscas padronizadas até julho de 2014, utilizando-se palavraschave. Para a seleção e avaliação dos estudos científicos levantados, foram estabelecidos critérios, contemplando os aspectos: autor, ano/local, grau de recomendação/nível de evidência científica, objetivo, amostra, faixa etária, média de idade em anos, testes, resultados e conclusão.
Resultados:
Dos 1959 artigos encontrados, 1914 foram excluídos pelo título, 20 pelo resumo, nove pela leitura do artigo, dois eram repetidos e 14 foram selecionados para o estudo.
Conclusão:
A presença do Microfonismo Coclear é um achado determinante no diagnóstico diferencial da Neuropatia/Dessincronia auditiva. O protocolo de registro do Microfonismo Coclear deve contar com o uso de fones de inserção, a inversão da polaridade e o bloqueio do tubo do estímulo para impedir a interferência de artefato elétrico. A amplitude do Microfonismo Coclear na Neuropatia/Dessincronia auditiva não apresenta diferença significante entre a amplitude do Microfonismo Coclear em ouvintes normais. A duração do Microfonismo Coclear é maior em indivíduos com Neuropatia/Dessincronia auditiva.
PALAVRAS-CHAVE
Microfonismo coclear; Potencial microfônico coclear; Perda auditiva
Introduction
The term auditory neuropathy (AN) was first used in 1996 to define a group of individuals with auditory symptoms, who had in common normal cochlear function despite having abnormal cochlear nerve function. Moreover, they experienced difficulty in understanding speech especially in noisy environments, although in some cases they responded to sound stimuli.11 Starr A, Picton TW, Sininger Y, Hood LJ, Berlin CI. Auditory neuropathy. Brain. 1996;119:741-53. Today the most common denomination is auditory neuropathy/dyssynchrony (AN/AD).
In general findings reveal the absence or severe abnormality of the Auditory Brainstem Response (ABR) with preservation of the otoacoustic emissions (OAE) and/or the Cochlear Microphonic (CM), indicating disordered function of the auditory nerve with normal function of the cochlear hair cells (HC).11 Starr A, Picton TW, Sininger Y, Hood LJ, Berlin CI. Auditory neuropathy. Brain. 1996;119:741-53.
2 Berlin CI, Bordelon J, St John P, Wilensky D, Hurley A, Kluka E, et al. Reversing click polarity may uncover auditory neuropathy in infants. Ear Hear. 1998;19:37-47.
3 Madden C, Rutter M, Hilbert L, Greinwald JH, Choo DI. Clinical and audiological features in auditory neuropathy. Arch Otolaryngol Neck Surg. 2002;128:1026-30.-44 Foerst A, Beutner D, Lang-Roth R, Huttenbrink KB, Von Wedel H, Walger M. Prevalence of auditory neuropathy/synaptopathy in a population of children with profound hearing loss. Int J Pediatr Otorhinolaryngol. 2006;70:1415-22.
It is often difficult to determine exactly the onset of AN/AD, but the disease can occur at all ages.44 Foerst A, Beutner D, Lang-Roth R, Huttenbrink KB, Von Wedel H, Walger M. Prevalence of auditory neuropathy/synaptopathy in a population of children with profound hearing loss. Int J Pediatr Otorhinolaryngol. 2006;70:1415-22. Its prevalence has been estimated at 11% in a group of 109 hearing-impaired children who failed the newborn hearing screening (NHS) and ABR.55 Rance G, Beer D, Cone-Wesson B. Clinical findings for a group of infants and young children with auditory neuropathy. Ear Hear. 1999;20:238-52. Another study reports a similar prevalence of 8.44% in 379 children evaluated with ABR alteration.44 Foerst A, Beutner D, Lang-Roth R, Huttenbrink KB, Von Wedel H, Walger M. Prevalence of auditory neuropathy/synaptopathy in a population of children with profound hearing loss. Int J Pediatr Otorhinolaryngol. 2006;70:1415-22.
The CM is a potential generated from the outer hair cells (OHC) and inner hair cells (IHC) of the cochlea and its absence is consistent with alterations in the function of these cells.22 Berlin CI, Bordelon J, St John P, Wilensky D, Hurley A, Kluka E, et al. Reversing click polarity may uncover auditory neuropathy in infants. Ear Hear. 1998;19:37-47.,66 Dallos P, Cheatham MA. Production of cochlear potentials by inner and out hair cells. J Acoust Soc Am. 1976;60:510-2. It is an electrical activity that precedes the synapses of the HC with the auditory nerve and, therefore, when recorded, it appears before wave I on ABR and maintains its latency even when the stimulus intensity is decreased.55 Rance G, Beer D, Cone-Wesson B. Clinical findings for a group of infants and young children with auditory neuropathy. Ear Hear. 1999;20:238-52.
There are still no available data regarding CM parameters in individuals with normal hearing or with hearing loss. However, recording the CM attracted renewed interest after the identification of the AN/AD,11 Starr A, Picton TW, Sininger Y, Hood LJ, Berlin CI. Auditory neuropathy. Brain. 1996;119:741-53. as the association between the cochlea and an acoustic stimulation has been used in the differential diagnosis of AN/AD, once the presence of CM can be used as evidence of OHC integrity.77 Withnell RH. Brief report: the cochlear microphonic as an indication of outer hair cell function. Ear Hear. 2001;22:75-7.
The literature recommends that tests of cochlear function, particularly CM, become part of the NHS (Newborn Hearing Screening) protocol in all children with absent or altered ABR, facilitating the diagnosis of AN/AD.55 Rance G, Beer D, Cone-Wesson B. Clinical findings for a group of infants and young children with auditory neuropathy. Ear Hear. 1999;20:238-52.
The aim of the study is to verify the characteristics of cochlear microphonism in Auditory Neuropathy/Dyssynchrony through an integrative review.
Methods
The methodological process characterized the present study as an integrative review, to gather data from studies that help the understanding of the subject in a systematic and orderly manner, thus helping to acquire further knowledge on Cochlear Microphonic characteristics in Auditory Neuropathy/Dyssynchrony.
The integrative review was carried out from electronic searches in Pubmed and Bireme platforms and in the following databases: MedLine, LILACS and SciELO - Regional. The data search was started and concluded in July 2014. Studies published in English, Spanish or Portuguese were selected for the analysis. There was no restriction regarding the year of publication, i.e. studies published up to July 2014 were analyzed, and subsequently, the articles were selected according to inclusion and exclusion criteria.
The search strategy was performed by crossing the descriptors (DeCS and MeSH), as well as the free terms, which are terms not found in MeSH and MeSH, but that are relevant to the search. The descriptors used to locate the studies were Cochlear Microphonic and Cochlear Microphonic Potential and the free terms used were Auditory Neuropathy and Auditory Dyssynchrony.
Search strategy
The search strategy was directed by a specific question: “What are the characteristics of the Cochlear Microphonic in Auditory Neuropathy/Dyssynchrony?”. Aiming to identify the relevant articles with the proposed question, a search strategy was developed, using the descriptors in groups, with at least two keywords. The descriptors used were: Cochlear Microphonic/Auditory Neuropathy/Auditory Dyssynchrony/Cochlear Microphonic AND Auditory Neuropathy OR Auditory Dyssynchrony/Cochlear Microphonic Potential/Auditory Neuropathy/Auditory Dyssynchrony/Cochlear Microphonic Potential AND Auditory Neuropathy OR Auditory Dyssynchrony.
Selection criteria
Inclusion criteria
Articles with the following characteristics were included: original article, case report or literature review including as research subjects individuals diagnosed with auditory neuropathy.
Exclusion criteria
The articles that did not describe the findings of audiological assessment in individuals with AN/AD were excluded from this review.
Study identification, selection and inclusion
The study was independently carried out by two researchers and the points of conflict were discussed at specific meetings. After applying the search strategy containing the defined descriptors, article selection was performed in three stages:
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Identification and reading of titles in different electronic databases. Articles that clearly did not meet any of the inclusion criteria of this study were excluded.
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Reading of summaries of the studies selected at the first stage. Similarly, we excluded articles that clearly did not meet any of the pre-established inclusion criteria.
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All studies that were not excluded in these first two stages were read in full for the selection of those that would be included in this review.
All studies used met the inclusion criteria defined in the beginning of the methodological protocol of this study, aiming to answer the question that guided this integrative review. The main data of each article were fully collected and entered into a Microsoft Office Excel 2011 program database.
For better presentation of the results, it was decided to consider the following variables of the selected articles: author, year/location, type of study, grade of recommendation/level of scientific evidence, objective, sample, age range, mean age in years, tests performed, results and conclusion.
As for the level of scientific evidence, the classification used was that of Oxford Center for Evidence-Based Medicine.88 Oxford Centre for Evidence-based Medicine (CEBM). Centre for Evidence Based Medicine. Levels of Evidence; 2009.
Results
According to the performed search, 1959 articles were found in the electronic searches. According to the inclusion and exclusion criteria defined in the method and after eliminating the repeated references found in more than one database, 14 articles were selected.
In the MedLine database, via PubMed, after employing the keywords and free terms, 1959 articles were found, of which 1913 were excluded after reading the title, 44 abstracts were read and 25 articles were selected for reading in full. Of these 25, two were repeated articles and nine were excluded. In the LILACS and MEDLINE databases via Bireme, no articles were found for this search. Two articles were found in the SciELO database; one was excluded after reading the title and the other was excluded after being read in full.
The following flow chart (Fig. 1) is a synthesis of the article selection process for the integrative review.
Table 1 is a synthesis with the characteristics of the studies included in the integrative review.
Discussion
Due to the recent increase in the number of studies on AN, this review shows that most studies were published between 1996 and 2014. All selected articles associated AN with the MC recording through two specific tests, ABR and the Ecog, using invasive or non-invasive methods, in addition to other tests to assess auditory function.
There was greater investment in research in this area in the late 90s, when AN was described.11 Starr A, Picton TW, Sininger Y, Hood LJ, Berlin CI. Auditory neuropathy. Brain. 1996;119:741-53. Since then, studies have sought to explain the location of the lesion, risk factors, prevalence and more accurate diagnostic tests in AN.
Regarding location, the literature indicates a broad possibility, as the lesion may occur in several structures or in more than one at the same time, such as the IHC, auditory nerve fibers, or in their synapses.99 Santarelli R, Arslan E. Electrocochleography in auditory neuropathy. Hear Res. 2002;170:32-47. Another study suggests that there is an abnormality in the auditory system, located in the VIII nerve, ganglion neurons, in the IHC, between their synapses or a combination of them.11 Starr A, Picton TW, Sininger Y, Hood LJ, Berlin CI. Auditory neuropathy. Brain. 1996;119:741-53.
Risk factors are usually associated to neonatal problems such as prematurity, low birth weight, anoxia, hypoxia, hyperbilirubinemia, need for mechanical ventilation and intracranial hemorrhage,1010 Rapin I, Gravel J. Auditory neuropathy: physiologic and pathologic evidence calls for more diagnostic specificity. Int J Pediatr Otorhinolaryngol. 2003;67:707-28. as well as genetic and mitochondrial disorders1111 Ngo RYS, Tan HKK, Balakrishnan A, Lim SB, Lazaroo DT. Auditory neuropathy/auditory dys-synchrony detected by universal newborn hearing screening. Int J Pediatr Otorhinolaryngol. 2006;70:1299-306. and a family history of hearing disorders.33 Madden C, Rutter M, Hilbert L, Greinwald JH, Choo DI. Clinical and audiological features in auditory neuropathy. Arch Otolaryngol Neck Surg. 2002;128:1026-30.,1212 Rance G. Auditory neuropathy/dys-synchrony and its perceptual consequences. Trends Amplif. 2005;9:1-43.
According to the studies shown in this review, the prevalence of AN in children and young individuals with severe to profound hearing loss was 13.4%99 Santarelli R, Arslan E. Electrocochleography in auditory neuropathy. Hear Res. 2002;170:32-47. and 1.2% in individuals with SNHL.1313 Shi W, Ji F, Lan L, Liang SC, Ding HN, Wang H, et al. Characteristics of cochlear microphonics in infants and young children with auditory neuropathy. Acta Otolaryngol. 2012;132:188-96. The prevalence has also been described in children with risk criteria for AN as 1 in 433 (0.23%) and in the group of children with permanent hearing deficit, it was 1 in 9 (11.01%).55 Rance G, Beer D, Cone-Wesson B. Clinical findings for a group of infants and young children with auditory neuropathy. Ear Hear. 1999;20:238-52. Another study indicates a prevalence of 8.44% in a group of 379 children with ABR alteration.44 Foerst A, Beutner D, Lang-Roth R, Huttenbrink KB, Von Wedel H, Walger M. Prevalence of auditory neuropathy/synaptopathy in a population of children with profound hearing loss. Int J Pediatr Otorhinolaryngol. 2006;70:1415-22.
There is an agreement in the reviewed literature regarding examination findings in patients with neuropathy, who have present OAE and CM, absent or very altered ABR and absent acoustical reflexes.99 Santarelli R, Arslan E. Electrocochleography in auditory neuropathy. Hear Res. 2002;170:32-47.,1010 Rapin I, Gravel J. Auditory neuropathy: physiologic and pathologic evidence calls for more diagnostic specificity. Int J Pediatr Otorhinolaryngol. 2003;67:707-28.,1212 Rance G. Auditory neuropathy/dys-synchrony and its perceptual consequences. Trends Amplif. 2005;9:1-43.
13 Shi W, Ji F, Lan L, Liang SC, Ding HN, Wang H, et al. Characteristics of cochlear microphonics in infants and young children with auditory neuropathy. Acta Otolaryngol. 2012;132:188-96.
14 Deltenre P, Mansbach AL, Bozet C, Clercx A, Hecox KE. Auditory neuropathy: a report on three cases with early onsets and major neonatal illnesses. Electroencephalogr Clin Neurophysiol. 1997;104:17-22.
15 Berlin CI, Hood L, Morlet T, Rose K, Brashears S. Auditory neuropathy/dys-synchrony: diagnosis and management. Ment Retard Dev Disabil Res Rev. 2003;9:225-31.
16 Santarelli R, Scimemi P, Dal Monte E, Arslan E. Cochlear microphonic potential recorded by transtympanic electrocochleography in normally-hearing and hearing-impaired ears. Acta Otorhinolaryngol Ital. 2006;26:78-95.
17 Anastasio AR, Alvarenga KF, Costa Filho OA. Extratympanic electrocochleography in the diagnosis of auditory neuropathy/auditory dyssynchrony. Braz J Otorhinolaryngol. 2008;74:132-6.
18 Ahmmed A, Brockbank C, Adshead J. Cochlear microphonics in sensorineural hearing loss: lesson from newborn hearing screening. Int J Pediatr Otorhinolaryngol. 2008;72:1281-5.
19 Riazi M, Ferraro JA. Observations on mastoid versus ear canal recorded cochlear microphonic in newborns and adults. J Am Acad Audiol. 2008;19:46-55.
20 Talaat HS, Kabel AH, Samy H, Elbadry M. Prevalence of auditory neuropathy (AN) among infants and young children with severe to profound hearing loss. Int J Pediatr Otorhinolaryngol. 2009;73:937-9.
21 Mo L, Yan F, Liu H, Han D, Zhang L. Audiological results in a group of children with auditory neuropathy spectrum disorder. ORL J Otorhinolaryngol Relat Spec. 2010;72:75-9.
22 Liu C, Bu X, Wu F, Xing G. Unilateral auditory neuropathy caused by cochlear nerve deficiency. Int J Otolaryngol. 2012;:914986.-2323 Penido RC, Isaac ML. Prevalence of auditory neuropathy spectrum disorder in an auditory health care service. Braz J Otorhinolaryngol. 2013;79:429-33. In audiometry, the described pattern is permanent or fluctuating hearing loss of varying degrees, with flat or ascending audiometric configurations,1212 Rance G. Auditory neuropathy/dys-synchrony and its perceptual consequences. Trends Amplif. 2005;9:1-43.,1717 Anastasio AR, Alvarenga KF, Costa Filho OA. Extratympanic electrocochleography in the diagnosis of auditory neuropathy/auditory dyssynchrony. Braz J Otorhinolaryngol. 2008;74:132-6. in addition to difficulties in speech perception, especially in the presence of noise.99 Santarelli R, Arslan E. Electrocochleography in auditory neuropathy. Hear Res. 2002;170:32-47.,1010 Rapin I, Gravel J. Auditory neuropathy: physiologic and pathologic evidence calls for more diagnostic specificity. Int J Pediatr Otorhinolaryngol. 2003;67:707-28.,1212 Rance G. Auditory neuropathy/dys-synchrony and its perceptual consequences. Trends Amplif. 2005;9:1-43.,1414 Deltenre P, Mansbach AL, Bozet C, Clercx A, Hecox KE. Auditory neuropathy: a report on three cases with early onsets and major neonatal illnesses. Electroencephalogr Clin Neurophysiol. 1997;104:17-22.
15 Berlin CI, Hood L, Morlet T, Rose K, Brashears S. Auditory neuropathy/dys-synchrony: diagnosis and management. Ment Retard Dev Disabil Res Rev. 2003;9:225-31.
16 Santarelli R, Scimemi P, Dal Monte E, Arslan E. Cochlear microphonic potential recorded by transtympanic electrocochleography in normally-hearing and hearing-impaired ears. Acta Otorhinolaryngol Ital. 2006;26:78-95.-1717 Anastasio AR, Alvarenga KF, Costa Filho OA. Extratympanic electrocochleography in the diagnosis of auditory neuropathy/auditory dyssynchrony. Braz J Otorhinolaryngol. 2008;74:132-6.,2222 Liu C, Bu X, Wu F, Xing G. Unilateral auditory neuropathy caused by cochlear nerve deficiency. Int J Otolaryngol. 2012;:914986.,2323 Penido RC, Isaac ML. Prevalence of auditory neuropathy spectrum disorder in an auditory health care service. Braz J Otorhinolaryngol. 2013;79:429-33. The OAE are present, but they may disappear with time.1616 Santarelli R, Scimemi P, Dal Monte E, Arslan E. Cochlear microphonic potential recorded by transtympanic electrocochleography in normally-hearing and hearing-impaired ears. Acta Otorhinolaryngol Ital. 2006;26:78-95. The results of objective electrophysiological tests such as presence of TOAE, absent or very altered ABR and presence of CM have emerged as the first diagnostic tool for AN in infants.44 Foerst A, Beutner D, Lang-Roth R, Huttenbrink KB, Von Wedel H, Walger M. Prevalence of auditory neuropathy/synaptopathy in a population of children with profound hearing loss. Int J Pediatr Otorhinolaryngol. 2006;70:1415-22.,2424 Starr A, Sininger Y, Nguyen T, Michalewski HJ, Oba S, Abdala C. Cochlear receptor (microphonic and summating potentials, otoacoustic emissions) and auditory pathway (auditory brain stem potentials) activity in auditory neuropathy. Ear Hear. 2001;22:91-9. Additionally, patients with AN have an alteration in OAE suppression effect caused by the efferent auditory pathways.2525 Spinelli M, Breuel MLF, Silva CMS. Neuropatia auditiva: aspectos clínicos, diagnósticos e terapêuticos. Rev Bras Otorrinolaringol. 2001;67:863-7. The absence of OAE suppression suggests that the olivocochlear efferent function is altered.2424 Starr A, Sininger Y, Nguyen T, Michalewski HJ, Oba S, Abdala C. Cochlear receptor (microphonic and summating potentials, otoacoustic emissions) and auditory pathway (auditory brain stem potentials) activity in auditory neuropathy. Ear Hear. 2001;22:91-9.
Considering the findings of the auditory function tests, the presence of CM becomes the determinant finding in the differential diagnosis of AN.1616 Santarelli R, Scimemi P, Dal Monte E, Arslan E. Cochlear microphonic potential recorded by transtympanic electrocochleography in normally-hearing and hearing-impaired ears. Acta Otorhinolaryngol Ital. 2006;26:78-95.
The protocol used to record the CM by ECoG or ABR should always reverse the stimulus polarities to confirm the recording inversion and, therefore, confirm CM.1313 Shi W, Ji F, Lan L, Liang SC, Ding HN, Wang H, et al. Characteristics of cochlear microphonics in infants and young children with auditory neuropathy. Acta Otolaryngol. 2012;132:188-96.,1616 Santarelli R, Scimemi P, Dal Monte E, Arslan E. Cochlear microphonic potential recorded by transtympanic electrocochleography in normally-hearing and hearing-impaired ears. Acta Otorhinolaryngol Ital. 2006;26:78-95.,1717 Anastasio AR, Alvarenga KF, Costa Filho OA. Extratympanic electrocochleography in the diagnosis of auditory neuropathy/auditory dyssynchrony. Braz J Otorhinolaryngol. 2008;74:132-6.,1919 Riazi M, Ferraro JA. Observations on mastoid versus ear canal recorded cochlear microphonic in newborns and adults. J Am Acad Audiol. 2008;19:46-55.,2222 Liu C, Bu X, Wu F, Xing G. Unilateral auditory neuropathy caused by cochlear nerve deficiency. Int J Otolaryngol. 2012;:914986. Furthermore, the use of insert earphones is important to allow the blocking of the plastic tube, indispensable to confirm the biological response, discarding the presence of electrical signal artifact.1313 Shi W, Ji F, Lan L, Liang SC, Ding HN, Wang H, et al. Characteristics of cochlear microphonics in infants and young children with auditory neuropathy. Acta Otolaryngol. 2012;132:188-96.,1717 Anastasio AR, Alvarenga KF, Costa Filho OA. Extratympanic electrocochleography in the diagnosis of auditory neuropathy/auditory dyssynchrony. Braz J Otorhinolaryngol. 2008;74:132-6.,2020 Talaat HS, Kabel AH, Samy H, Elbadry M. Prevalence of auditory neuropathy (AN) among infants and young children with severe to profound hearing loss. Int J Pediatr Otorhinolaryngol. 2009;73:937-9. Insert earphones should always be used in the ABR to allow stimulus artifacts to be separated from cochlear potentials.22 Berlin CI, Bordelon J, St John P, Wilensky D, Hurley A, Kluka E, et al. Reversing click polarity may uncover auditory neuropathy in infants. Ear Hear. 1998;19:37-47. Another study also confirmed the CM response by closing the stimulus tube to prevent the acoustic signal from reaching the ear canal, eliminating the artifacts.55 Rance G, Beer D, Cone-Wesson B. Clinical findings for a group of infants and young children with auditory neuropathy. Ear Hear. 1999;20:238-52.
Some studies have reported the use of Ecog as a diagnostic test for AN. But there are reports suggesting that the Transtympanic Electrocochleography (EcogT) is the gold standard tool to evaluate CM,99 Santarelli R, Arslan E. Electrocochleography in auditory neuropathy. Hear Res. 2002;170:32-47.,1616 Santarelli R, Scimemi P, Dal Monte E, Arslan E. Cochlear microphonic potential recorded by transtympanic electrocochleography in normally-hearing and hearing-impaired ears. Acta Otorhinolaryngol Ital. 2006;26:78-95.,1717 Anastasio AR, Alvarenga KF, Costa Filho OA. Extratympanic electrocochleography in the diagnosis of auditory neuropathy/auditory dyssynchrony. Braz J Otorhinolaryngol. 2008;74:132-6. because Ecog allows a more detailed analysis of cochlear function in relation to ABR.99 Santarelli R, Arslan E. Electrocochleography in auditory neuropathy. Hear Res. 2002;170:32-47.,1717 Anastasio AR, Alvarenga KF, Costa Filho OA. Extratympanic electrocochleography in the diagnosis of auditory neuropathy/auditory dyssynchrony. Braz J Otorhinolaryngol. 2008;74:132-6. However, promontory recordings are considered more sensitive than the ear canal and that results in a better signal-to-noise ratio, as the CM comes first from the basal portions of the cochlea, with a negligible contribution of the apical regions.77 Withnell RH. Brief report: the cochlear microphonic as an indication of outer hair cell function. Ear Hear. 2001;22:75-7.
In one of the reviewed studies, no significant difference was found between the amplitude of the CM in normal hearing individuals and those with AN. The maximum amplitudes of CM for almost all patients were around 0.6 ms after the stimulus.1313 Shi W, Ji F, Lan L, Liang SC, Ding HN, Wang H, et al. Characteristics of cochlear microphonics in infants and young children with auditory neuropathy. Acta Otolaryngol. 2012;132:188-96. The literature reports that CM in patients with AN are especially prominent and persist for several milliseconds after a transient stimulus.22 Berlin CI, Bordelon J, St John P, Wilensky D, Hurley A, Kluka E, et al. Reversing click polarity may uncover auditory neuropathy in infants. Ear Hear. 1998;19:37-47.,2424 Starr A, Sininger Y, Nguyen T, Michalewski HJ, Oba S, Abdala C. Cochlear receptor (microphonic and summating potentials, otoacoustic emissions) and auditory pathway (auditory brain stem potentials) activity in auditory neuropathy. Ear Hear. 2001;22:91-9. Another study reported that the mean amplitudes of the CM was 0.4 ms in patients with AN, significantly higher than in individuals with normal hearing.2424 Starr A, Sininger Y, Nguyen T, Michalewski HJ, Oba S, Abdala C. Cochlear receptor (microphonic and summating potentials, otoacoustic emissions) and auditory pathway (auditory brain stem potentials) activity in auditory neuropathy. Ear Hear. 2001;22:91-9.
The duration of the CM was longer in the group with AN than in the group with normal hearing.1313 Shi W, Ji F, Lan L, Liang SC, Ding HN, Wang H, et al. Characteristics of cochlear microphonics in infants and young children with auditory neuropathy. Acta Otolaryngol. 2012;132:188-96.,1616 Santarelli R, Scimemi P, Dal Monte E, Arslan E. Cochlear microphonic potential recorded by transtympanic electrocochleography in normally-hearing and hearing-impaired ears. Acta Otorhinolaryngol Ital. 2006;26:78-95. In patients with AN in the ABR, the CM appears wide and can exhibit a duration of up to 4-6 ms, and may be mistaken for electrical activity of the brain stem; however it does not change with decreasing intensity, but with the reversed stimulus polarity.2525 Spinelli M, Breuel MLF, Silva CMS. Neuropatia auditiva: aspectos clínicos, diagnósticos e terapêuticos. Rev Bras Otorrinolaringol. 2001;67:863-7.
In general, the assessed literature agrees on the location, risk factors and clinical findings of AN and reports that its differential diagnosis is confirmed based on the CM recording, because even at an advanced state of AN, CM remains present.
This review includes studies that describe the tests most commonly used to describe the characteristics of Cochlear Microphonism in Auditory Neuropathy/Dyssynchrony. For that purpose, several types of studies were selected, which may seem like a limitation, but on the other hand, they may have different perspectives on the subject, always taking into account the previously defined selection criteria.
Conclusion
Based on the studies included in this literature review, we conclude that:
The presence of the CM is a crucial finding in the differential diagnosis of AN.
The CM recording protocol must include the use of insert earphones and reverse polarity and the stimulus blocking to prevent electrical artifact interference.
The amplitude of CM in AN showed no significant difference when compared with the amplitude of CM in individuals with normal hearing.
The duration of CM is longer in individuals with AN.
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☆
Please cite this article as: Soares IA, Menezes PL, Carnaúba AT, de Andrade KC, Lins OG. Study of cochlear microphonic potentials in auditory neuropathy. Braz J Otorhinolaryngol. 2016;82:722-36.
References
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1Starr A, Picton TW, Sininger Y, Hood LJ, Berlin CI. Auditory neuropathy. Brain. 1996;119:741-53.
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2Berlin CI, Bordelon J, St John P, Wilensky D, Hurley A, Kluka E, et al. Reversing click polarity may uncover auditory neuropathy in infants. Ear Hear. 1998;19:37-47.
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3Madden C, Rutter M, Hilbert L, Greinwald JH, Choo DI. Clinical and audiological features in auditory neuropathy. Arch Otolaryngol Neck Surg. 2002;128:1026-30.
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4Foerst A, Beutner D, Lang-Roth R, Huttenbrink KB, Von Wedel H, Walger M. Prevalence of auditory neuropathy/synaptopathy in a population of children with profound hearing loss. Int J Pediatr Otorhinolaryngol. 2006;70:1415-22.
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5Rance G, Beer D, Cone-Wesson B. Clinical findings for a group of infants and young children with auditory neuropathy. Ear Hear. 1999;20:238-52.
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6Dallos P, Cheatham MA. Production of cochlear potentials by inner and out hair cells. J Acoust Soc Am. 1976;60:510-2.
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Publication Dates
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Publication in this collection
Nov-Dec 2016
History
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Received
20 Aug 2015 -
Accepted
29 Nov 2015