Title
Search
All Issues
666 
Year: 2010  Vol. 14   Num. 1  - Jan/Mar - (6º) Print:
Section: Original Article
Versão em PDF PDF Português Versão em PDF English PDF Texto Text in Portuguese
Passing Otoacustic Emissions as a Complementar Method in the Topodiagnosis of the Neurosensories Hearing Loss
Author(s):
Cacineli Marion de Franceschi1, Tania Tochetto2, Larissa Lautenschlager3.
Key words:
neurosensory hearing loss, differential diagnosis, cochlea, cochlear nerve.
Abstract:

Introduction: To evaluate the otoacustic emissions (EOAETs) in patients with neurosensory hearing loss do not belong to the clinical routine. However it would obtain valuables information concerning the topodiagnosis. Objective: To identify signs of retro cochlear alteration in individuals with neurosensory dysacusis diagnosis. Method: A transversal, observational, quantitative and, prospective study. Were analyzed 34 patients' records of users of the Speech Therapy Attendance Service. In the study were included individuals with neurosensory hearing loss of moderate to deep degree. An evaluation of Passing Otoacustic Emissions (EOAETs) was performed in all the individuals of the sample. Those that do not presented EOAETs had the external and middle ear' condition evaluates through meatoscopy and tympanometry to eliminate ears with sings of conductive alteration. Results: Before that the exclusion criteria were applied, they have remained 13 individuals, totalizing 26 ears: four with hearing loss of moderate degree (15%), four with moderately severe degree (15%), two with severe degree (8%), 15 with deep degree (58%) and, one with deafness (4%). The tympanometric curves found were 22 (85%) Type A and, four (15%) Type C. It was verified the presence of EOAETs in only two ears (8%) of a same individual. Conclusion: It was verified the predominance of the EOAETs absence in individuals with neurosensory hearing loss of moderate to deep degree. In one case the EOAETs were registered, that suggest retrocochlear alteration. Raising suspicion of retrocochlear alterations.
INTRODUCTION

In the sensorioneural hearing loss the pure tone audiometry's finings do not inform about the necessary topodiagnosis of the lesion, if it is a sensory (cochlear) or neural (retrocochlear).

Among the testing methods to establish the differential diagnosis only a few tests as EOAEs, electrocochleography and evaluation of auditory evoked potentials (BAEP) are able to differentiate sensory from neural lesions (1).

Examination of Otoacoustic Emissions (EOAs) provides data that allow us to infer the cochlear condition. The presence of OAEs indicates no change in the auditory pathway to the outer ciliated cells of the organ of Corti. EOAEs are generated by external ciliated cells when stimulated by a click or two pure tones, called transient or distortion product, respectively (2).

The EOAETs are elicited by brief acoustic stimuli such as clicks or tone pipes (2). The stimulus activates the cochlea simultaneously on a vast region of the basal to apical. The answers are not captured in pathological ears with better hearing than about 30dB (1).

Therefore the analysis of otoacoustic emissions can be part of the battery of tests used for the topographic diagnosis of hearing loss, contributing to the identification of conditions such as Acoustic Neurinoma (retrochlear), and Meniere's disease induced hearing loss (NIHL) (cochlear) and even auditory neuropathy.

The relevance of the work is in knowing the topographic change this hearing to allow the choice of most appropriate intervention for each case.

The aim of this study was to identify retrocochlear's signs of change in individuals diagnosed with sensorineural dysacusis.


METHOD

A prospective, quantitative, observational and transversal study, in which the sample of patients assisted at the Habilitation and Rehabilitation of Hearing Service Center Speech Therapy (SAF), Universidade Federal de Santa Maria (UFSM). Carried out the analysis of patients' records.

Parents or guardians were informed about the objectives and proposed procedures and, being in agreement, signed an informed consent.

This work is linked to the project "Research database in hearing health" registered in the Ethics in Research Committee UFSM under the number 019731.

The individuals of two to 16 years of age with sensorineural hearing loss, moderate, moderately severe, severe and profound, each previously diagnosed with auditory evoked potential (BAEP) and / or pure tone audiometry (PTA). These data were extracted from patient files in the SAF. The criterion for determining the degree of hearing loss was 41 dB to 55 moderate, 56 to 70dB moderately severe, 71 to 90 dB severe above 90 dB deep (3).

The study excluded the patients who had hearing loss of mild (16 to 25 dB) or mild (26 to 40 dB) (4) because the EOAETs may be registered in the degree of hearing loss, external ear malformation and / or average, signs of change as conductive tympanometric curve type B or Ar (5) in one or both ears.

The individuals who showed signs of conductive alteration were excluded and referred for an ENT evaluation.

The data were analyzed by ear, as some individuals had hearing loss of different types and degrees.

Assessment was carried out of otoacoustic emissions (EOAETs) the frequencies 700, 1000, 1400, 2000, 2800 and 4000 Hz EOAETs was considered present when the signal to noise ratio was greater than or equal to 3 dB in at least four frequencies. EOAETs analysis was performed in quiet place, with the device Otoread brand Interacoustics Clinical / Audiotest, by the same evaluator.

The individuals who did not EOAETs had the condition of the middle and external ears assessed. Meatuscopy was performed using the otoscope Adva-Lite. The Acoustic Impedance measurements were checked with the brand Interacoustics audiometer, model AZ-7/AZ-7R. Were kept in the study only the ears with tympanograms type A and C (5).

Individuals without evidence of conductive alteration were classified according to presence or absence of EOAETs. It was considered cochlear hearing loss when EOAETs were absent and retro-cochlear when present.


RESULTS

The medical records of 34 individuals, members of the SAF. Twenty-one were excluded due to mild hearing loss, conductive and / or alteration of the middle ear, cochlear malformation or had been disconnected from the SAF. They failed to appear for the exam offered seven individuals.

The remaining 13 individuals totaled 26 ears. Table 1 shows the distribution of the ears studied according to the degree of hearing loss.

Of the 26 ears studied 22 (85%) had type A tympanometric curve and four (15%) type C.

In 24 ears (92%) the EOAETs not come forward. Noticed the presence of EOAETs in both ears of the same individual.


DISCUSSION

Hearing loss can result from injury to various parts of the auditory system, with different consequences and different forms of intervention.

The EOAETs evaluate the biomechanics of the cochlea, integrity and functionality of the outer hair cells (2,6). Thus, it is expected absence of EOAETs when there is damage in outer hair cells. Since the lesions located in the inner hair cells in the auditory nerve or in the synapse between these elements (7), it is expected presence of EOAETs.

The tympanometric curve type A was present in 85% of the ears and type C in 15%. Ears with tympanometry type C may show EOAETs with amplitude (6.8).

In this study two ears (8%) of the same subject showed EOAETs. Other studies report the occurrence of EOAETs from 2.44% to 8.44% of sensorineural hearing loss (9,10,11,12,13).

The presence of EOAETs in both ears of the same subject with hearing loss points to possible change retrocochlear. This person has no risk factors known to retrocochlear damage according to the criteria of existing JCIH (14). Nor is evidence of other causes mentioned in the literature, such as prematurity, hyperbilirubinemia, hypoxia, ischemia, neural immaturity of the central nervous system, antibiotics and diuretics in intensive care units and heredity (12,13,15,16). Considered the possibility of auditory neuropathy, as the hearing thresholds found by the ATL the one subject that had EOAETs gifts are profound (10,11,12,13,14).

Considering the individuals studied, and not the ears, it was found that there is a predominance of cochlear involvement, evidenced by the absence of EOAETs in 12 (92%) of cases. Although the association of retrocochlear alterations in these cases should not be discarded (2.6).

Changes purely retrocochlear disorders are rare. In the present study only one child (8%) showed signs of such change. This index is lower than that reported by international studies, which report the occurrence of change retrocochlear in 11% to 15% of individuals with sensorineural hearing loss (15,17). It is recognized that study performed with a larger number of persons to provide data other than those mentioned.

Although the sensorineural hearing loss there was a predominance of cochlear damage, alert to the possible existence of retrocochlear alterations that may jeopardize the rehabilitative efforts. Thus, it is suggested to include assessment of EOAETs protocol audiological evaluation for establishing the topographic diagnosis between cochlear and retrocochlear damage.






CONCLUSION

In individuals with sensorineural hearing loss of moderate to profound predominance of cochlear evidenced by the absence of otoacoustic emissions.


BIBLIOGRAPHICAL REFERENCES

1. Northern JL, Downs MP. Testes Fisiológicos da Audição. In:______. Audição na Infância. 5 ed., Rio de Janeiro: Guanabara Koogan; 2005, p. 169-207.

2. Lonsbury-Martin BL, Martin GK, Telichi FF. Emissões Otoacústicas. In: Musiek FE, Rintelmann WF. Perspectivas atuais em Avaliação Auditiva. Barueri: Ed. Manole Ltda; 2001, p. 163-92.

3. Lloyd ll. & Kaplan, 1978 apud Momensohn-Santos TM, Russo ICP, Brunetto-Borgianni LM. Interpretação dos resultados da avaliação audiológica. In: Momensohn-Santos TM, Russo ICP. Prática da audiologia clínica. 6ª ed. São Paulo: Cortez; 2007, p. 291-310.

4. Northern JL, Downs MP. Medical Aspects of Hearing Loss. In: ______. Hearing in children. 3rd ed. Baltimore: Williams & Wilkins; 1984, p. 89.

5. Norris TW. Impedance Masurements. In: Keith RW. Audiology for the physician. Baltimore: Williams & Wilkins; 1980, Cap 4, p. 61.

6. Sousa LCA, Piza MRT, Alavarenga KF, Coser PL. Emissões Otoacústicas. In:________. Eletrofisiologia da Audição e Emissões Otoacústicas: Princípios e Aplicações Clínicas. São Paulo: Tecmedd; 2008, p. 109-30.

7. Neto OM. et al. Auditory neuropathy: relevant aspects to clinical investigation. Rev Bras Otorrinolaringol. 2001, 67(5). Disponível em: . Acesso em: 10 Aug 2008.

8. Méndez-Ramírez MR, Altamirano-González A. Emisiones otoacústicas evocadas transientes em pacientes con patología aguda de oído médio. Cir Ciruj. 2006, 74:309-14.

9. Lee JSM, McPherson B, Yuen KCP, Wong LLN. Screening for auditory neuropathy in a school for hearing impaired children. Int J Pediatr Otorhinolaryngol. 2001, 61(1):39-46.

10. Tang TPY, McPherson B, Yuen KCP, Wong LLN, Lee JSM. Auditory neuropathy/auditory dys-synchrony in school children with hearing loss: frequency of occurrence Int J Pediatr Otorhinolaryngol. 2004, 68(2):175-83.

11. 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(8):1415-22.

12. Lotfi YMD, Mehrkian SMSC. The Prevalence of Auditory Neuropathy in Students with Hearing Impairment in Tehran, Iran. Arch Iranian Méd. 2007, 10(5):233-5. Disponível em: . Acesso em: 18 Ago 2008.

13. Duman K, Ayçiçek A, Sargin R, Kenar F, Yilmaz MD, Dereköy FS. Incidence of auditory neuropathy among the deaf school students. J Pediatr Otorhinolaryngol. 2008, 72(7):1091-5.

14. Joint Committee on Infant Hearing - Position Statement. ASHA. Pediatrics. 2007, 120:898-921.

15. 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.

16. Vlastarakos PV, Nikolopoulos TP, Tavoulari E, Papacharalambous G, Korres S. Auditory neuropathy: endocochlear lesion or temporal processing impairment? Implications for diagnosis and management. J Pediatr Otorhinolaryngol. 2008, 72(8):1135-50.

17. Berg A, Sptzer J, Towers H, Bartosiewicz, Diamond B. Newborn hearing screening in the NICU: profile of failed auditory brainsteim response/ passed otoacustic emission. Pediatrics. 2005, 116 (4):933-8.








1. Speech therapist. Student of the Post-Graduation in Human Communication Disorders, Universidade Federal CAPES.
2. PhD in Human Communication Disorders. Associate Professor of Speech Therapy UFSM.
3. Speech therapist. Student of the Post-Graduation in Human Communication Disorders UFSM.

Instituition: Universidade Federal de Santa Maria. Santa Maria / RS - Brazil. Mail address: Cacineli Marion de Franceschi -1044/303, Benjamin Constant St- Centro, Santa Maria / RS - Brazil - ZIP CODE: 97050-022 - Telephone: (+55 55) 9113-9339 - E-mail: cacimf@gmail.com. Incentive Fund Extension (FIEX) - UFSM. Article received on October 7, 2009. Article approved on March 6, 2010.
  Print:

 
All right reserved. Prohibited the reproduction of papers
without previous authorization of FORL © 1997- 2024