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Incidence and prevalence of noise induced hearing loss in workers of a metallurgical company in Manaus - AM, Brazil

Abstracts

PURPOSE:

to estimate the incidence and prevalence of hearing loss suggestive of Noise Induced Hearing Loss and its association with age and time of service in metallurgical industrial pole workers in Manaus.

METHODS:

cross-sectional study in workers who underwent audiometric testing periodical in 2012, totaling 1499 subjects. To estimate the incidence were selected 763 audiometrys with normal hearing at the reference testing and after compared with the current audiometry. Statistical analyses were performed using measures of central tendency, dispersion and frequency distributions. To verify statistically significant differences, we used the chi-square test, with significance level (p ≤ 0.05).

RESULTS:

the prevalence of hearing loss was estimated at 44.23% and 28.89% suggestive of Noise Induced Hearing Loss. There was a higher prevalence of hearing loss among workers aged from 45 years and time of service exceeding 21 years. Only 11.1% of workers over 21 years of service have normal hearing and 61.9% loss of these features suggestive of Noise Induced Hearing Loss. The classification of Not Suggestive of Noise Induced Hearing Loss remains stable in individuals below 20 years of occupational exposure (14.9%), and in people exposed to more than 20 years, increases to 27%. The incidence of hearing loss was 28% and within this total, 19.7% were suggestive of Noise Induced Hearing Loss. Most hearing loss, both suggestive of Noise Induced Hearing Loss, or not, were classified in light.

CONCLUSION:

the prevalence and incidence of hearing loss increased with age and time of service. Companies should strive to implement Hearing Conservation Program to minimize these losses.

Hearing; Hearing Loss; Noise-Induced; Occupational Exposure


OBJETIVO:

estimar a incidência e a prevalência de déficit auditivo sugestivo de Perda Auditiva Induzida por Ruído e sua associação com idade e tempo de serviço em trabalhadores de uma indústria metalúrgica do pólo industrial de Manaus.

MÉTODOS:

estudo transversal descritivo em trabalhadores que se submeteram a exame audiométrico periódico no ano de 2012, totalizando 1499 sujeitos. Para estimativa da incidência foram selecionadas audiometrias de 763 trabalhadores com audição dentro da normalidade no exame de referência e comparados com exame atual. Realizou-se análise estatística por meio de medidas de tendência central, dispersão e distribuições de frequência. Para verificação de diferenças estatisticamente significantes utilizou-se o teste qui-quadrado, com nível de significância (p≤0,05).

RESULTADOS:

a prevalência de perda auditiva foi de 44,23% sendo 28,89% sugestivo de PAIR. Houve maior prevalência de perda auditiva nos trabalhadores com faixa etária acima de 45 anos e com tempo de serviço superior a 21 anos. Apenas 11,1% dos trabalhadores acima dos 21 anos de serviço apresentaram audição normal, e 61,9% perda auditiva sugestiva de Perda Auditiva Induzida por Ruído. A classificação de Não Sugestivo de Perda Auditiva Induzida por Ruído permanece estável nos indivíduos abaixo de 20 anos de exposição laboral (14,9%) e nas pessoas expostas com mais de 20 anos aumenta para 27%. A incidência de perda auditiva foi de 28% e desse total 19,7% sugestiva de Perda Auditiva Induzida por Ruído. Houve maior prevalência de perda auditiva grau leve.

Conclusão:

a prevalência e a incidência de perda auditiva aumentaram com a idade e tempo de serviço. As empresas devem se empenhar na implementação do Programa de Conservação Auditiva a fim de minimizar essas perdas.

Audição; Perda Auditiva Provocada por Ruído; Exposição Ocupacional


Introduction

The existing noise pollution in modern life is considered one of the ills in the last century and represents a threat to the human habitat11. Vlachokostas CH, Achillas CH, Michailidou AV, Moussiopoulos N. Measuring combined exposure to environmental pressures in urban areas: an air quality and noise pollution assessment approach. Environ Int. 2012;39(1):8-18.. As years go by, technology has brought countless advantages, making activities fast and practical. On the other hand, some observed disadvantages interfere in the quality of human life. Noise, byproduct of such development, has contributed with the increase human hearing loss22. Akan Z, Körpinar MA, Tulgar M. Effects of noise pollution over the blood serum immunoglobulins and auditory system on the VFM airport workers, Van, Turkey. Environ Monit Assess. 2011;177(1-4):537-43. , 33. Basu DK. Noise pollution in India. J Indian Med Assoc. 2010;108(3):139..

Frequently severe and irreversible hearing loss may be observed in work environments in which the level of exposure to noise is high and there is not adequate protection44. Frontczak M, Schiavon S, Goins J, Arens E, Zhang H, Wargocki P. Quantitative relationships between occupant satisfaction and satisfaction aspects of indoor environmental quality and building design. Indoor Air. 2012; 22(2):119-31. , 55. Abbate C, Concetto G, Fortunato M, Brecciaroli R, Tringali MA, Beninato G, D'Arrigo G, Domenico G. Influence of environmental factors on the evolution of industrial noise-induced hearing loss. Environ Monit Asses. 2005;107(1-3):351-61.. Noise in the work environment, when its levels are excessive, may harm workers´ auditory systems and generate hearing loss when noise levels are excessive11. Vlachokostas CH, Achillas CH, Michailidou AV, Moussiopoulos N. Measuring combined exposure to environmental pressures in urban areas: an air quality and noise pollution assessment approach. Environ Int. 2012;39(1):8-18. , 33. Basu DK. Noise pollution in India. J Indian Med Assoc. 2010;108(3):139. , 5. The tolerated limit of noise in the work environment during 8 hours is 85dBA66. Hétu R. Mismatches between auditory demands and capacities in the industrial work environment. Audiology. 1994;33(1):1-14., but the risk of hearing loss varies from person to person. Actions to avoid hearing loss must be taken as soon as the worker is submitted to continuous exposure to 80 dBA noise level during a 8 hour shift77. Ministério do Trabalho. Portaria GM/SSSTb n. 3.214 de 8 de junho de 1978 - Aprova as Normas Regulamentadoras - NR - do Capítulo V do Título II da Consolidação das Leis do Trabalho, Relativas à Segurança e Medicina do Trabalho; 1978..

Noise induced hearing loss (NIHL) is a highly prevalent disease in industrial countries88. Reddy RK, Welch D, Thorne P, Ameratunga S. Hearing protection use in manufacturing workers: a qualitative study. Noise & Health 2012;14(59):202-9., including Brazil. It is characterized as being sensorineural, predominantly cochlear, irreversible, progressive, developed over a period of time of 6 to 10 years, beginning in high frequencies, frequently bilateral, symmetrical, and stabilized in non exposure55. Abbate C, Concetto G, Fortunato M, Brecciaroli R, Tringali MA, Beninato G, D'Arrigo G, Domenico G. Influence of environmental factors on the evolution of industrial noise-induced hearing loss. Environ Monit Asses. 2005;107(1-3):351-61. , 88. Reddy RK, Welch D, Thorne P, Ameratunga S. Hearing protection use in manufacturing workers: a qualitative study. Noise & Health 2012;14(59):202-9. , 99. Ballesteros F, Alobid I, Tassies D, Reverter JC, Scharf RE, Guilemany JM, Bernal-Sprekelsen M. Is there an overlap between sudden neurosensorial hearing loss and cardiovascular risk factors? Audiology and Neurotology. 2009;14(3):139-45.. And even though NIHL is a disease that may affect several of the human being functions, studies about it are still scarce, especially in Brazil.

Physically, noise is an acoustic signal originated from the superposition of several vibration movements in different frequencies, which are not interconnected33. Basu DK. Noise pollution in India. J Indian Med Assoc. 2010;108(3):139.. Noise is exposed to thousands of people daily, affecting their physical and mental well being1010. Ottoni AO, Barbosa-Branco A, Boger ME, Garavelli SL. Study of the noise spectrum on high frequency thresholds in workers exposed to noise. Rev Bras Otorrinolaringol. 2012;78(4):108-14.. In big cities, even during sleep, thousands of people are immersed in noise, to which they get accustomed1111. Nudelmann AA, Costa EA, Seligman J, Ibañez RN. Perda auditiva induzida pelo ruído. Rio de Janeiro: Revinter; 2001.. Modern society has introduced in its everyday life different pieces of equipment, both individual (earphones, noise making toys) and collective, which have potentiate this phenomenon1212. Morata BL, Catalani T, Marques JM. Ações educativas com enfoque positivo em programa de conservação auditiva e sua avaliação. Rev CEFAC. 2008;10(3):398-408..

Measuring noise levels permits more precise analyses of frequency, amplitude and duration, which are vital in determining how harmful they are. It is important to learn how much sound energy an individual worker accumulates during his shift in noisy environments33. Basu DK. Noise pollution in India. J Indian Med Assoc. 2010;108(3):139.. In order to determine causality between occupational exposure to noise and hearing loss, conclusive and differential diagnoses are the doctor´s discretion, who will determine the connection. In the analysis, the audiometric lineation or the sequential evolution, along with other factors such as clinical and work history, age, previous and current time exposure of the worker to levels of high sound pressure in and out of the work environment and other risk factors to the auditory system are considered88. Reddy RK, Welch D, Thorne P, Ameratunga S. Hearing protection use in manufacturing workers: a qualitative study. Noise & Health 2012;14(59):202-9. , 99. Ballesteros F, Alobid I, Tassies D, Reverter JC, Scharf RE, Guilemany JM, Bernal-Sprekelsen M. Is there an overlap between sudden neurosensorial hearing loss and cardiovascular risk factors? Audiology and Neurotology. 2009;14(3):139-45. , 1212. Morata BL, Catalani T, Marques JM. Ações educativas com enfoque positivo em programa de conservação auditiva e sua avaliação. Rev CEFAC. 2008;10(3):398-408..

Unfortunately, even though the disease reaches endemic proportions in the industrial environment, studies are relatively scarce, and the national legal advances inertially follow the scientific, knowledge and harm protection lack of stimulus for Brazilian workers.

Considering that the Manaus industrial center employs a great number of workers in the Northern region, this study has the objective of estimating the incidence and prevalence of noise induced hearing loss in workers of a metallurgical company in this region and its association with age an occupational exposure.

Methods

This work has the approval of the Ethics Committee in Research of the National School of Public Health Sergio Arouca, according to CAAE: 0170.0.031.000-11, ruling Nº 156/11.

It is a cross sectional study, carried out from January to July of 2012, which estimated the incidence and prevalence of NIHL and its association with age and time of employment of workers in a metallurgical company in the Manaus industrial center.

The age stratification of the workers corresponded to 15 to 34, 35 to 45 and 46 and older. Occupational exposure was classified into 0 to 10, 11 to 20 and 21 or more years in the studied company.

The sample comprised 1499 audiometric tests for workers occupationally exposed to noise. All the workers in the company in the first semester of 2012 were tested. Therefore, there was no need for exclusion criterion.

In order to estimate incidence of hearing loss, audiometric tests of 763 workers with hearing ability within the normal levels according to the reference test were selected and then compared to current (2012) scores.

The audiometric tests were performed in acoustic enclosure manufactured by Interacoustics, model AC 33, with two channel audiometer with TDH 39P headphones and audiometer manufactured by Kamplex, model AD229, duely calibrated according to ISO/DIS standards.

The audible thresholds for analysis were obtained airborne, tested in the 0.5 1, 2, 3, 4, 6, and 8 kHz frequencies. The assessment of the results of the audiometric tests considered the 3, 4 and 6 KHz frequencies as hearing threshold averages for they were the most affected by NIHL. These figures were also used to separate the lineation into suggestive and non-suggestive of NIHL. Besides the clinical and occupational history, the chosen criterion for the characterization of the audiograms into normal and non-suggestive of NIHL was the following: (a) audiogram compatible with normal levels: workers who scored all the thresholds equal to or under 25 dB(HL) - HL = hearing level and (b) NIHL suggestive audiogram: workers who presented an indentation with audiometric thresholds over 25 dB(HL) in the 3Khz, 4Khz and/or 6Khz frequencies, air and bone conduction (sensorioneural hearing loss). Audiograms that did not fit in this pattern were classified as non-suggestive of NIHL1313. Ministério do Trabalho. Portaria GM/SSSTb n. 19, de 09/04/1998: Estabelece diretrizes e parâmetros mínimos para avaliação e acompanhamento da audição em trabalhadores expostos a níveis de pressão sonora elevados. (DOU 22/04/98)..

To classify hearing loss according to its intensity, Silman & Silverman (1991) 1414. Silman S, Silverman CA. Auditory diagnosis: Principles and applications. San Diego: Academic Press; 1991. methodology was adopted, and hearing level ≤ 25 dB was deemed normal, between 26 and 40 dB was deemed mild hearing loss, and between 41 and 55 dB was considered moderate hearing loss, between 56 and 70 dB was deemed moderately severe, between 71 and 90 dB was considered severe, and over 91 dB was considered profound hearing loss.

In order to estimate the incidence and prevalence of hearing deficit suggestive of NIHL and its association with age and occupational exposure to noise for workers, measures of central tendency, dispersion and frequency distribution were applied. The significance level used was p< 0.05 and the significant value was marked with *. The EPI INFO(r) version 3.5.3 software was utilized to carry out data analysis.

Results

The population of the study comprised 1499 workers, among which 52 (3.47%) were female and 1447 (96.53%) were male. The dominant age range was from 15 to 34 years. The estimated prevalence of hearing loss was of 44.23%, among which 28.89% were NIHL. In the event of considering all the affected, 65.3% were suggestive of NIHL.

In Table 1 is the distribution of hearing level of the population according to age and occupational exposure time. It was verified that prevalence of the level of hearing loss increased with age and time of occupational exposure to noise. Workers over 45 years of age presented greater prevalence of hearing loss, as well as those with occupational exposure to noise over a period of 21 years. Only 11.1% of workers over 21 years of occupational exposure to noise presented normal hearing levels and 61.9% presented hearing levels suggestive of NIHL. The classification of non-suggestive of NIHL remained stable in workers under 20 years of occupational exposure to noise (14.9%) and it increased to 27% in workers exposed to noise for a period of time greater than 20 years.

Table 1:
Distribution of the study population according to hearing condition, associated with age range and time of occupational exposure to noise

Table 2 shows the incidence of NIHL. From the 793 workers with normal reference test, 19.7% developed hearing loss suggestive of NIHL.

Table 2:
Noise Induced Hearing Loss

The relationship of incidence of NIHL with age and occupational exposure to noise time is demonstrated in Table 3. Workers over 45 years of age presented greater incidence (54.4%). The incidence for workers with over 20 years of occupational exposure to noise presented incidence of 51.9%.

Table 3:
Incidence of Hearing Loss in the population of the study according to age range and time of occupational exposure to noise

As for which ear was affected, it was established bilateral hearing loss, followed by left ear hearing loss as shown in Table 4.

Table 4:
Prevalence of hearing loss according to symmetry

Table 5 shows that mild hearing loss is dominant, among which 59.6% are non-suggestive of NIHL and 88.5% are suggestive of NIHL.

Table 5:
Distribution according to the degree of hearing loss

Discussion

In this study, the prevalence of estimated hearing loss was of 44.23%, from which 28.89% were suggestive of NIHL. In a study about the effects of noise in workers of a marble factory in the Federal District, the prevalence of hearing loss was found to be 48% in the studied sample, and the most affected frequency was 6 KHz, particularly for the left ear1515. Harger MRHC, Barbosa-Branco A . Efeitos auditivos decorrentes da exposição ocupacional ao ruído em trabalhadores de marmorarias no Distrito Federal. Rev Assoc Med Bras. 2004;50(4):396-9.. As for such asymmetry, the left ear was found to be more susceptible lesion by noise, however, such study does not present evidence for such statement.

In a comparative study of prevalence of NIHL in professionals of sound (sound technicians, audio operators , VT operators and editors, and microphone operators) and professionals of other fields, the former presented a prevalence of hearing loss of 57.3% and the latter 15.8%1616. Paolucci EDR. Estudo comparativo da prevalência de perda auditiva induzida por níveis de pressão sonora elevados em profissionais e não-profissionais do som. [Tese] São Paulo (SP): Universidade Federal de São Paulo, Escola Paulista de Medicina; 2008..

In a research about the audio health conditions in workers exposed to occupational noise1717. Lopes AC, Nelli MP, Lauris JRP, Amorim RB, Melo ADP. Condições de Saúde Auditiva no Trabalho: Investigação dos Efeitos Auditivos em Trabalhadores Expostos ao Ruído Ocupacional. Int Arch Otorhinolaryngol. 2009;13(1):49-54., the results showed 50% of normal hearing level, 31.25% classified as normal but with indentation, which suggests the development of NIHL, 13.5% of prevalence of hearing loss suggestive of NIHL, and 6.25% classified as other audiometric distortions.

The history of occupational hearing loss caused by noise revealed that workers who have up to 10 years of occupational exposure to noise may present permanent hearing loss. Even though the lesion in this group is in its beginning stage, the injuries are already irreversible and easily detectible by audiometric tests1818. Almeida SIC, Albernaz PLM, Zaia PA, Xavier OG, Karazawa EHI. História natural da perda auditiva ocupacional provocada por ruído. Rev Assoc Med Bras. 2000;46(2):143-58.. In the present study, workers over 45 years of age and with more than 21 years of occupational exposure to noise were the ones most susceptible to lesions due to the continuous occupational to noise.

Another study found evidence that hearing in male adults is about 4 dB(HL) lower in the left ear than that of the right ear1919. Cavalcanti CV, Almeida ER, Butugan O. Estudo audiométrico em ambiente ruidoso. Oto-rhino. 1986;1(4):15-28.. According to Leme, this has also been observed in clinical practice, and during the audiogram, a better response of the right ear in relation to the left one may be observed. However, the possible physiological mechanisms for such difference seem to be unknown2020. Leme OLS. Estudo audiométrico comparativo entre trabalhadores de área hospitalar expostos e não expostos a ruído. Rev Bras Otorrinol. 2001;67:837-43..

In a research conducted in the textile industry, the prevalence of NIHL was of 28.3%. The most affected age range was from 50 to 64. The workers with over 20 years of occupational exposure to noise proved to be the most affected (42.9%)2121. Caudart AU, Adriano CF, Terruel I, Martins RF, Caldart AU, Mocellin M. Prevalência da perda auditiva induzida pelo ruído em trabalhadores de indústria têxtil. Arq Int Otorrinolaringol. 2006;10(3):192-6.. Another research with a population of industrial workers in the metropolitan area of Salvador showed prevalence of 45.9% of hearing loss, 35.7% from which was noise induced2222. Miranda CR, Dias CR, Pena PGL, Nobre LCC, Aquino R. Perda auditiva induzida pelo ruído em trabalhadores industriais da região metropolitana de Salvador, Bahia. Inf. Epidemiol. Sus. 1998;7(1):87-94..

As for the degree of hearing loss, the present research found the greatest percentage (88.5%) to be representative of mild hearing loss level, discovery similar to that of other epidemiological studies, comparable to the established criterion for the definition of noise induced hearing loss in relation to its prevalence in industrial workers. The data found corroborates the findings in the evolution of scientific knowledge about the topic.

Studies about the incidence of NIHL are scarce in the Brazilian literature, for it implies a longitudinal follow up of years of records of audiograms for industrial workers. A three-year long study of 80 metallurgical study showed a 63.75% of final prevalence of High Sound Pressure Induced Hearing Loss (HSPI HL), and incidence of 23.75%23.

Conclusion

This study revealed the audiological profile of this population with greater prevalence of bilateral, mild level sensorioneural hearing loss. The incidence of hearing loss suggestive of NIHL was of 19.70% and the prevalence was of 48.89%. An association of the hearing loss with age and time of occupational exposure to noise was verified.

The term NIHL suggests that noise alone is responsible for the occupational hearing loss, not considering the harmfulness of other agents, such as vibration, radiation and chemical products, also present in the workplace which may prove to be as harmful or even more harmful to the auditory health of the workers. Moreover, individual factors sometimes neglected, such as metabolical diseases and use of medication harmful to the auditory system, may also potentiate auditory injuries.

It is necessary to broaden the scope of the studies about worker health in order to include the influence of such other agents which are aggressive to the auditory health of industrial workers in order to minimize or even eliminate these risks from the workplace.

Acknowledgments

We thank the management of the researched company for the permission granted to conduct the study as well as for the enabling the data.

Referências

  • 1
    Vlachokostas CH, Achillas CH, Michailidou AV, Moussiopoulos N. Measuring combined exposure to environmental pressures in urban areas: an air quality and noise pollution assessment approach. Environ Int. 2012;39(1):8-18.
  • 2
    Akan Z, Körpinar MA, Tulgar M. Effects of noise pollution over the blood serum immunoglobulins and auditory system on the VFM airport workers, Van, Turkey. Environ Monit Assess. 2011;177(1-4):537-43.
  • 3
    Basu DK. Noise pollution in India. J Indian Med Assoc. 2010;108(3):139.
  • 4
    Frontczak M, Schiavon S, Goins J, Arens E, Zhang H, Wargocki P. Quantitative relationships between occupant satisfaction and satisfaction aspects of indoor environmental quality and building design. Indoor Air. 2012; 22(2):119-31.
  • 5
    Abbate C, Concetto G, Fortunato M, Brecciaroli R, Tringali MA, Beninato G, D'Arrigo G, Domenico G. Influence of environmental factors on the evolution of industrial noise-induced hearing loss. Environ Monit Asses. 2005;107(1-3):351-61.
  • 6
    Hétu R. Mismatches between auditory demands and capacities in the industrial work environment. Audiology. 1994;33(1):1-14.
  • 7
    Ministério do Trabalho. Portaria GM/SSSTb n. 3.214 de 8 de junho de 1978 - Aprova as Normas Regulamentadoras - NR - do Capítulo V do Título II da Consolidação das Leis do Trabalho, Relativas à Segurança e Medicina do Trabalho; 1978.
  • 8
    Reddy RK, Welch D, Thorne P, Ameratunga S. Hearing protection use in manufacturing workers: a qualitative study. Noise &amp; Health 2012;14(59):202-9.
  • 9
    Ballesteros F, Alobid I, Tassies D, Reverter JC, Scharf RE, Guilemany JM, Bernal-Sprekelsen M. Is there an overlap between sudden neurosensorial hearing loss and cardiovascular risk factors? Audiology and Neurotology. 2009;14(3):139-45.
  • 10
    Ottoni AO, Barbosa-Branco A, Boger ME, Garavelli SL. Study of the noise spectrum on high frequency thresholds in workers exposed to noise. Rev Bras Otorrinolaringol. 2012;78(4):108-14.
  • 11
    Nudelmann AA, Costa EA, Seligman J, Ibañez RN. Perda auditiva induzida pelo ruído. Rio de Janeiro: Revinter; 2001.
  • 12
    Morata BL, Catalani T, Marques JM. Ações educativas com enfoque positivo em programa de conservação auditiva e sua avaliação. Rev CEFAC. 2008;10(3):398-408.
  • 13
    Ministério do Trabalho. Portaria GM/SSSTb n. 19, de 09/04/1998: Estabelece diretrizes e parâmetros mínimos para avaliação e acompanhamento da audição em trabalhadores expostos a níveis de pressão sonora elevados. (DOU 22/04/98).
  • 14
    Silman S, Silverman CA. Auditory diagnosis: Principles and applications. San Diego: Academic Press; 1991.
  • 15
    Harger MRHC, Barbosa-Branco A . Efeitos auditivos decorrentes da exposição ocupacional ao ruído em trabalhadores de marmorarias no Distrito Federal. Rev Assoc Med Bras. 2004;50(4):396-9.
  • 16
    Paolucci EDR. Estudo comparativo da prevalência de perda auditiva induzida por níveis de pressão sonora elevados em profissionais e não-profissionais do som. [Tese] São Paulo (SP): Universidade Federal de São Paulo, Escola Paulista de Medicina; 2008.
  • 17
    Lopes AC, Nelli MP, Lauris JRP, Amorim RB, Melo ADP. Condições de Saúde Auditiva no Trabalho: Investigação dos Efeitos Auditivos em Trabalhadores Expostos ao Ruído Ocupacional. Int Arch Otorhinolaryngol. 2009;13(1):49-54.
  • 18
    Almeida SIC, Albernaz PLM, Zaia PA, Xavier OG, Karazawa EHI. História natural da perda auditiva ocupacional provocada por ruído. Rev Assoc Med Bras. 2000;46(2):143-58.
  • 19
    Cavalcanti CV, Almeida ER, Butugan O. Estudo audiométrico em ambiente ruidoso. Oto-rhino. 1986;1(4):15-28.
  • 20
    Leme OLS. Estudo audiométrico comparativo entre trabalhadores de área hospitalar expostos e não expostos a ruído. Rev Bras Otorrinol. 2001;67:837-43.
  • 21
    Caudart AU, Adriano CF, Terruel I, Martins RF, Caldart AU, Mocellin M. Prevalência da perda auditiva induzida pelo ruído em trabalhadores de indústria têxtil. Arq Int Otorrinolaringol. 2006;10(3):192-6.
  • 22
    Miranda CR, Dias CR, Pena PGL, Nobre LCC, Aquino R. Perda auditiva induzida pelo ruído em trabalhadores industriais da região metropolitana de Salvador, Bahia. Inf. Epidemiol. Sus. 1998;7(1):87-94.
  • 23
    Fiorini AC. Conservação auditiva: estudo sobre o monitoramento audiométrico em trabalhadores de uma indústria metalúrgica. [dissertação]. São Paulo (SP): Pontifícia Universidade Católica de São Paulo; 1994.

Publication Dates

  • Publication in this collection
    Sep-Oct 2014

History

  • Received
    24 June 2013
  • Accepted
    25 Nov 2013
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