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Hearing and quality of life in musicians of a symphony orchestra

ABSTRACT

Purpose

To analyze the impact of exposure to music in the hearing process and quality of life in musicians of a symphony orchestra.

Methods

This is a descriptive, cross-cut, quantitative study on the aspects of hearing health in 30 musicians of the symphony orchestra of Paraná, ages between 33 and 54 years. The sound pressure levels that musicians are exposed to were measured during the orchestra rehearsal, and participants answered a questionnaire about the musical practice as well as the SF-36 questionnaire, which investigates the quality of life. Conventional audiometry and high-frequency audiometry were applied.

Results

During the orchestra rehearsal, hazardous sound pressure levels to musicians’ hearing health were observed. The commonest symptoms reported were tinnitus and intolerance to intense sounds. In the conventional audiometry test, more than half of the musicians featured sensorineural hearing loss, and the worst results were found in high frequencies. In the high -frequency audiometry test, higher auditory thresholds were also found in higher frequencies. As for quality of life, there was significant correlation for musicians with hearing loss in the domain “limitation due to emotional aspects”.

Conclusion

the sound pressure levels that musicians are exposed to are excessive and represent a risk to hearing health. Hearing loss and other auditory symptoms can interfere in their quality of life, once hearing is essential to this professional category.

Music; Occupational exposure; Hearing; Hearing loss; Quality of life

RESUMO

Objetivo

Analisar o impacto da exposição à música na audição e na qualidade de vida de músicos de uma orquestra sinfônica brasileira.

Métodos

Trata-se de um estudo quantitativo transversal, descritivo, sobre os aspectos da saúde auditiva de 30 músicos da orquestra sinfônica do Paraná, com idade entre 33 e 54 anos. Foram medidos os níveis de pressão sonora a que os músicos estão expostos durante um ensaio da orquestra e os participantes responderam a um questionário sobre a prática musical e o questionário SF-36, que investiga a qualidade de vida. Foi realizada audiometria convencional e de altas frequências.

Resultados

Durante o ensaio da orquestra, foram observados níveis de pressão sonora que colocam a audição dos músicos em risco. Os sintomas auditivos mais relatados foram zumbido e intolerância a sons intensos. Na audiometria convencional, mais da metade dos músicos apresentou perda auditiva neurossensorial, com piores resultados nas frequências mais altas. Na audiometria de altas frequências, também foram encontrados limiares auditivos mais elevados nas frequências mais altas. Quanto à qualidade de vida, houve correlação significativa para os músicos com perda auditiva no domínio “limitação por aspectos emocionais”.

Conclusão

Os níveis de pressão sonora a que os músicos estão expostos são excessivos, colocando em risco a sua audição. A perda auditiva, juntamente com outros sintomas auditivos, pode interferir na qualidade de vida, uma vez que a audição é fundamental para essa categoria profissional.

Música; Exposição ocupacional; Audição; Perda auditiva; Qualidade de vida

INTRODUCTION

Music celebrates and preserves people’s cultural heritage, while it allows to explore the domains of expression and imagination. It is an important cultural and cognitive aspect and must be stimulated in all educational levels, being part of human beings’ growth and development(11. Chesky K. Schools of music and conservatories and hearing loss prevention. Int J Audiol. 2011;50(Suppl 1):S32-7. http://dx.doi.org/10.3109/14992027.2010.540583
http://dx.doi.org/10.3109/14992027.2010....
).

However, whenever people refer to music, disregarding their musical preferences, they generally recognize it as harmonious, pleasant sounds, not considered a deleterious source of sound to hearing. Nevertheless, systematic exposure to high levels of sound pressure, even music, may cause permanent hearing impairment(22. Gonçalves CGO, Lacerda ABM, Zocolli AMF, Oliva FC, Almeida SB, Iantas MR. Percepção e o impacto da música na audição de integrantes de banda militar. Rev Soc Bras Fonoaudiol. 2009;14(4):515-20. http://dx.doi.org/10.1590/S1516-80342009000400015
http://dx.doi.org/10.1590/S1516-80342009...
).

In the past decades, studies have reported damages to hearing health of orchestra musicians, caused by high sound levels that they are exposed to in their professional practice, as well as musculoskeletal and emotional problems, which may altogether interfere in their career and quality of life(33. Kähäri KR, Axelsson A, Hellström PA, Zachau G. Hearing assessment of classical orchestral musicians. Scand Audiol. 2001;30(1):13-23. http://dx.doi.org/10.1080/010503901750069536
http://dx.doi.org/10.1080/01050390175006...
,44. Raymond DM 3rd, Romeo JH, Kumke KV. A pilot study of occupational injury and illness experienced by classical musicians. Workplace Health Saf. 2012;60(1):19-24. http://dx.doi.org/10.3928/21650799-20111227-01
http://dx.doi.org/10.3928/21650799-20111...
).

Hearing impairments stem from the exposure to intense sound for long periods of time, such as frequent rehearsals and performances. Among the several hazardous factors for hearing in this professional practice, can be mentioned the length of exposure, music intensity, the acoustics of the orchestra rehearsal setting, proximity of sound sources (placement of the musician in the orchestra and in the family of instruments that his/her instrument belongs to), choice of the repertoire and repetition of specific musical passages(55. Schmidt JH, Pedersen ER, Juhl PM, Christensen-Dalsgaard J, Andersen TD, Poulsen T et al. Sound exposure of symphony orchestra musicians. Ann Occup Hyg. 2011;55(8):893-905. http://dx.doi.org/10.1093/annhyg/mer055
http://dx.doi.org/10.1093/annhyg/mer055...
).

Even though mild hearing losses hardly hinder communication, they may impair timbre recognition and instrument tuning, thus they should be identified early(22. Gonçalves CGO, Lacerda ABM, Zocolli AMF, Oliva FC, Almeida SB, Iantas MR. Percepção e o impacto da música na audição de integrantes de banda militar. Rev Soc Bras Fonoaudiol. 2009;14(4):515-20. http://dx.doi.org/10.1590/S1516-80342009000400015
http://dx.doi.org/10.1590/S1516-80342009...
,66. Amorim RB, Lopes AC, Santos KTP, Melo ADP, Lauris JRP. Alterações auditivas da exposição ocupacional em músicos. Arq Int Otorrinolaringol. 2008;12(3):377-83.,77. Mendes MH, Morata TC, Marques JM. Aceitação de protetores auditivos pelos componentes de banda instrumental e vocal. Rev Bras Otorrinolaringol. 2007;73(6):785-92. http://dx.doi.org/10.1590/S0034-72992007000600010
http://dx.doi.org/10.1590/S0034-72992007...
). The difficulty in identifying timbres and variations in sound intensity may lead the musicians to misleading perceptions, that is, by determining whether intensity or frequency has changed, they may assume that what they have heard is a high-pitched sound (frequency), while it actually is a crescendo(88. Reid AW, Holland MW. A sound ear II: the control of noise at work regulations 2005 and their impact on orchestras. London: Association of British Orchestras; 2008.) (increase in sound intensity).

Such problems may affect musicians’ quality of life, and they are scarcely investigated in this professional category. According to a study(99. Fragelli TBO, Günther IA. Relação entre dor e antecedentes de adoecimento físico ocupacional: um estudo entre músicos instrumentistas. Per Musi. 2009;19:18-23. http://dx.doi.org/10.1590/S1517-75992009000100003
http://dx.doi.org/10.1590/S1517-75992009...
), one of the reasons for that is that many researchers wrongly believe that music, for being associated with leisure and pleasure, is not an occupational activity. Moreover, there is not specific legislation in Brazil that prevent musicians from related impairments to loud music(77. Mendes MH, Morata TC, Marques JM. Aceitação de protetores auditivos pelos componentes de banda instrumental e vocal. Rev Bras Otorrinolaringol. 2007;73(6):785-92. http://dx.doi.org/10.1590/S0034-72992007000600010
http://dx.doi.org/10.1590/S0034-72992007...
).

The amount and quality of studies published up to date in the area of musician medicine show how this research field has lagged behind the other occupational sectors(1010. Frank A, Mühlen CA. Queixas musculoesqueléticas em músicos: prevalência e fatores de risco. Rev Bras Reumatol. 2007;47(3):188-96. http://dx.doi.org/10.1590/S0482-50042007000300008
http://dx.doi.org/10.1590/S0482-50042007...
).

Therefore, the current study objectified to analyze the impact of music exposure to hearing and quality of life of musicians of a Brazilian symphony orchestra.

METHODS

It is a cross-cut quantitative study, which analyzed the hearing health and quality of life of 30 musicians of a symphony orchestra in Paraná State, Brazil. This research study was approved by the Research Ethics Board of the Sociedade Evangélica Beneficente de Curitiba, under opinion n. 697.598/2014, and all participants signed the Free Informed Consent Form, after being informed about the objectives, justification and methodology of the proposed study.

The established inclusion criterion was to be a professional musician, member of the symphony orchestra. Musicians featuring tympanometric curves due to medium-ear disorder were excluded from the research.

Initially, sound pressure levels were measured during two rehearsals in order to investigate musicians’ sound exposure, according to methodology and procedures established in the Occupational Hygiene Regulation (NHO-1) by FUNDACENTRO(1111. Ministério do Trabalho e Emprego (BR), Fundação Jorge Duprat Figueiredo de Segurança e Medicina do Trabalho – Fundacentro. Norma de higiene ocupacional NHO01: procedimento técnico. Avaliação da exposição ocupacional ao ruído. São Paulo: Fundacentro; 2001 [citado 10 jan 2015]. Disponível em: http://www.fundacentro.gov.br/biblioteca/normas-de-higiene-ocupacional/publicacao/detalhe/2012/9/nho-01-procedimento-tecnico-avaliacao-da-exposicao-ocupacional-ao-ruido
http://www.fundacentro.gov.br/biblioteca...
) and the Standardizing Regulation NR 15(1212. Ministério do Trabalho e Emprego (BR). Norma regulamentadora de segurança e saúde do trabalho – NR 15. Atividades e operações insalubres. Brasília, DF Ministério do Trabalho e Emprego; 1998 [citado 20 ago 2014]. Disponível em: http://www.tem.gov.br/legislacao/normas_regulamentadoras/nr_15.pdf
http://www.tem.gov.br/legislacao/normas_...
), both from the Ministry of Labor and Employment. Integrated Bruel and Kjaer® 2230 sound level meter (duly calibrated with calibrator from the same brand) was used. Measurements were carried out by the researcher with the equipment positioned in the hearing area (site delimited by a maximum radius of 150 mm from the entry of the ear canal) of musicians who played the following instruments: transverse flute, oboe, piccolo, French horn, harp, cello, violin and percussion. The meter was adjusted for Leq readings, which is the average level from the measured period of time based on the sound energy equivalence. Measurements for each instrument were taken down during two rehearsals of the same repertoire. Assessment length of time for each musical instrument was five minutes. FUNDACENTRO/Paraná State owns the equipment used for noise assessment, and measurements were made by an engineer, institution researcher.

After the measurement of sound pressure levels, the musicians were invited to undergo a previously scheduled audiological test at a teaching-clinic.

On the scheduled date, visual screening of the outer acoustic meatus was carried out in order to verify any obstructions which would prevent the audiological test, followed by the immittance testing by using a Madsen®, Otoflex 100 immittance meter. At that moment, musicians, who featured tympanometric curves due to medium-ear disorder, were excluded from the study. After the testing, participants answered a questionnaire on musical practice, knowledge of intense music hazards for hearing and preventive measures for hearing disorders.

Subsequently, air-conduction tone threshold audiometry, frequencies from 250 to 8000 Hz, and bone-conduction tone threshold audiometry, frequencies from 500 to 4000 Hz, were carried out when airway thresholds were above 25dBHL (Madsen® audiometer, Itera II with TDH-39 headphones), and high-frequency audiometry was also held, 9000 to 16000 Hz, with the same equipment but HDA 200 headphones.

After undergoing audiological assessment, musicians answered the self-applied SF-36 questionnaire on quality of life (Medical Outcomes Study 36 – Short Form Health Survey). The instrument was elaborated as a generic questionnaire to assess quality of life, thus it is not specific for a certain age, disease or treatment group. Once it is generic, it contemplates not only related aspects to the presence or absence of disease symptoms, but also related aspects to impairments that may hinder individuals’ well-being or their daily-life activities. It was translated and validated for the Portuguese language(1313. Ciconelli RM, Ferraz MB, Santos W, Meinão I, Quaresma MR. Tradução para a língua portuguesa e validação do questionário genérico de avaliação de qualidade de vida SF-36 (Brasil SF-36). Rev Bras Reumatol. 1999;39(3):143-50.) , and consists of 36 items of eight domains, taking up the most frequently concepts measured in health inquiries. They are, as follows: 1. functional capacity, which assesses the presence and range of limitations due to the functional capacity; 2. limitation due to physical aspects, which assesses limitations in the kind and amount of work and in the activities of the daily living due to physical problems; 3. pain, which assesses the range of pain and its interference in the activities of the daily living; 4. general health status, which assesses general health-status perceptions; 5. vitality, which considers energy and fatigue levels; 6. limitation due to social aspects, which assesses individuals’ limitation to social activities due to health problems; 7. limitation due to emotional aspects, which assesses the limitations in the kind and amount of work as well as in the activities of the daily living due to emotional problems; 8. mental health, which assesses the perceptions in relation to anxiety, depression, behavioral disorders and psychological well-being. For each domain, there is a different type of scoring, ranging from 0 to 100, being zero the worst general health status, and 100 for the best general health status, with each domain being separately analyzed. The result is called Raw Scale because the final scoring does not present any measurement units.

For data analysis, Student’s t-test was used, significance level of 0.05, for comparison of conventional tonal auditory thresholds between right and left ears. The domains of the SF-36 questionnaire were related to the mean values of conventional tonal auditory thresholds and musicians’ high frequencies, by means of Spearman’s Correlation Test, significance level of 0.05.

RESULTS

Thirty (30) orchestra musicians participated in this study, being 6 (20%) females and 24 (80%) males, ages ranging between 33 and 54 years (mean age of 48.3 years).

Regarding musical practice, 30 musicians participated in the orchestra for an average of 24 years. Among them, 9 (30%) performed professionally only in the orchestra, while 21 (70%) also performed in other orchestras and bands, apart from tutoring and teaching at music graduation courses, among other related activities to musical practice. None of the musicians reported to have been exposed to occupational noise before.

Length of daily exposure of rehearsal was three hours. Results from measurement of sound pressure levels which the musicians were exposed to, carried out during two rehearsing sessions, are shown in Table 1.

Table 1
Musicians’ sound exposure for three hours of daily orchestra rehearsal, according to the musical instrument

The highest sound pressure levels were measured near the French horns and violins (104 dB LAeq), followed by the piccolo (103,3 dB LAeq).

Among the most reported hearing symptoms by the musicians were: tinnitus for 53.34%, hearing impairment for 43.34%, and intolerance to intense sounds for 33.34%. among the 16 musicians who reported tinnitus, 4 mentioned to be permanent. Apart from those, 7 (23.4%) musicians reported dizziness, 4 (13.4%) reported headache, and 3 (10%) reported earache.

Regarding the musicians’ perception on sound intensity produced by the orchestra most of the time, 18 (60%) reported high intensity, 10 (33.34%) reported medium intensity and 2 stated that such data is very relative. In the whole, 19 (63.34%), believed that high-intensity music may impair hearing, 24 (80%) knew how to prevent hearing loss, among those, 21 referred to the possibility of wearing hearing protectors. However, among those 21 musicians, only 1 used hearing protectors for considering orchestra sound as deafening. The others reported that they did not wear hearing protectors, even specific ones for musicians because they hinder performance, such as loss of tuning and timbre change.

The results of the conventional audiometry and high- frequency audiometry are shown in Table 2.

Table 2
Mean conventional tone thresholds and high-frequency thresholds in musicians’ right and left ears (n=30)

The thresholds between 14000 Hz and 16000 Hz are not shown in Table 2, once there was no response to the maximum intensity of the equipment during assessment of 23 (76.7%) out of 30 musicians, in one or in both frequencies, and in one or both ears.

As for the conventional audiometry, there was significant difference only in the frequency of 250 Hz between right and left ears, with the worse result in the left ear. However, the worst mean value was found bilaterally at the frequency of 6000 Hz. Among the 30 musicians, 16 (53.33%) had hearing thresholds higher than 25 dBHL in one or more frequencies for one or both ears with the worst results in 3000 Hz, 4000 Hz and 6000 Hz. Among the 16 musicians with hearing impairments, 9 (56.2%) played instruments from the string family, and 7 (43.8%) played instruments from the brass family. Regarding high-frequency audiometry, all of them had hearing thresholds higher than 25 dBHL, higher occurrence at frequencies of 14000 Hz and 16000 Hz, except for 2 musicians (a 52-year-old viola player and a 56-year-old violinist).

As for musicians’ quality of life, scoring in the different studied domains according to SF-36 questionnaire, is shown in Table 3.

Table 3
Display of the mean, median scoring and standard deviation in the different domains of the SF-36 questionnaire

The lowest scored domains were “vitality” (65.3 points), which considers level of energy and fatigue; “general health status” (65.8 points), which assesses how patients feel in relation to their general health, and “mental health” (65.9 points), which includes questions on anxiety, depression, behavioral disorders or emotional dysfunction and psychological well-being. The other domains had higher scoring than 70, with the best scoring in the “functional capacity” domain (92.3 points), which assesses the presence and range of limitations on physical capacity.

When the average of frequency thresholds for 3000, 4000 and 6000 Hz of 14 musicians with normal hearing was correlated with the domains of SF-36 questionnaire, no significant correlation was found.

The mean values of the frequency thresholds for 3000, 4000 and 6000 Hz of the 16 musicians suffering from hearing loss was correlated with the domains of the SF-36 questionnaire, by means of the Spearman’s correlation test, and significant correlation was found in the domain “limitation due to emotional aspects”, regarding occupational problems due to emotional disorders such as anxiety and depression, evidencing that the worse the mean thresholds, the worse the perception on such aspects. The results are shown in Table 4.

Table 4
Correlation between mean auditory thresholds at frequencies of 3000, 4000 and 6000 Hz and the domains of the SF-36 questionnaire – Group of the musicians with altered audiometry (n=16)

The comparison between the mean values of high frequency thresholds and the domains of SF-36 questionnaire was held by dividing the musicians in two groups: one with mean tonal thresholds up to 25 dBHL, and another with mean tonal thresholds superior to 25 dBHL. By means of the Spearman’s Correlation test, it was verified that there was significant correlation only between the group of musicians with mean tonal thresholds superior to 25 dBHL and the “general health status” domain, which assesses the perceptions on the general health status, evidencing that the lower the hearing thresholds, the worse the perception on the general health status. The results are shown in Table 5.

Table 5
Correlation between mean auditory thresholds at frequencies of 9000 to 16000 Hz and the domains of the SF-36 Questionnaire – Group of the musicians with mean thresholds superior to 25 dBHL (n=23)

DISCUSSION

In relation to the sound pressure levels that the musicians were exposed to, although the highest levels were found next to the French horns and violins (104 dB LAeq), all of them, except the ones found next to the transverse flutes, evidenced hazardous intensities for musicians’ hearing, since the safest level would be 92 dB, according to the Brazilian labor legislation(1212. Ministério do Trabalho e Emprego (BR). Norma regulamentadora de segurança e saúde do trabalho – NR 15. Atividades e operações insalubres. Brasília, DF Ministério do Trabalho e Emprego; 1998 [citado 20 ago 2014]. Disponível em: http://www.tem.gov.br/legislacao/normas_regulamentadoras/nr_15.pdf
http://www.tem.gov.br/legislacao/normas_...
), after three consecutive hours of rehearsal.

Several national and international studies have assessed sound pressure levels that orchestra musicians are exposed to. However, the methodology used has not always brought enough information for comparing the obtained results among the studies. A literature review(1414. Behar A, Wong W, Kunov H. Risk of hearing loss in orchestra musicians: review of the literature. Med Probl Perform Art. 2006;21(4):164-8.) on the risk of hearing loss among orchestra musicians reported that the published studies did not clarify such aspects properly, for example, whether the measurement technique obtained the equivalent levels (LAeq) or the peak levels (instantaneous measurement). Raw data were not frequently provided, calculations were not explained, and some conclusions were based on inconsistent data analysis.

A study(1515. Rodrigues MA, Freitas MA, Neves MP, Silva MV. Evaluation of the noise exposure of symphonic orchestra musicians. Noise Heath. 2014;16(68):40-6. http://dx.doi.org/10.4103/1463-1741.127854
http://dx.doi.org/10.4103/1463-1741.1278...
), whose objective was to analyze symphony orchestra musicians’ sound exposure in eight rehearsal with different repertoires, evidenced lower sound levels than the ones found in the current study. The authors reported varied levels, according to the family of instruments: 78.9 to 89.7 dB (A) for strings, 84.9 to 96.8 dB (A) for wind instruments, 87.0 to 97.4 dB (A) for brass instruments, 85.9 to 95.4 dB (A) for percussion and timpani, and 77.2 to 86.3 dB (A) for conductors. In general, musicians that played instruments from the brass family were exposed to sound levels consistently higher than the other musicians (92.7 ± 2.77), in accordance with the findings in this study, although in lower levels, followed by the musicians who played woodwind instruments (90.5 ± 3.45), similar data to the present study, and the musicians who played percussion and timpani (90.0 ± 2.93). Lower sound levels were measured among the musicians who played string instruments (85.4 ± 3.40) and conductors (82.1 ± 2.56).

Another study(1616. O’Brien I, Driscoll T, Achermann B. Sound exposure of professional orchestral musicians during solitary practice. J Acoust Soc Am. 2013;134(4):2748-54. http://dx.doi.org/10.1121/1.4820900
http://dx.doi.org/10.1121/1.4820900...
) analyzed sound exposure during individual practice of 35 orchestra musicians, evidencing sound levels from 60 to 107 dB LAeq, with peak levels from 101 to 130 dB LC. Considering that the average length of individual practice reported by musicians was 2.1 hours a day, five days a week, 53% would exceed the maximum safe level for daily exposure.

A study(1717. Zijl AV. Hearing damage in classical musicians: the orchestration of a problem [thesis]. Maastricht: Faculty of Arts and Social Sciences, Maastricht University; 2007.) assessed sound pressure levels during a performance of the Limburg Symphony Orchestra in the Netherlands, and found similar Leq values to the ones in this study, ranging from 84.4 dB LAeq and 96.1 dB LAeq, finding 88.2 dB LAeq among the violins.

Another study(88. Reid AW, Holland MW. A sound ear II: the control of noise at work regulations 2005 and their impact on orchestras. London: Association of British Orchestras; 2008.) evidenced sound pressure levels during rehearsals, considering all the assessed repertoire ranging from 75 dB LAeq to 100 dB LAeq, that is, values close to the ones found in this study.

Although other studies mentioned in the literature review(55. Schmidt JH, Pedersen ER, Juhl PM, Christensen-Dalsgaard J, Andersen TD, Poulsen T et al. Sound exposure of symphony orchestra musicians. Ann Occup Hyg. 2011;55(8):893-905. http://dx.doi.org/10.1093/annhyg/mer055
http://dx.doi.org/10.1093/annhyg/mer055...
,1818. Maia AA, Gonçalves DU, Menezes LN, Barbosa BMF, Almeida PS, Resende LM. Análise do perfil audiológico dos músicos da Orquestra Sinfônica de Minas Gerais (OSMG). Per Musi. 2007;15:67-71.,1919. Laitinen HM, Topila EM, Olkinuora PS, Kuisma K. Sound exposure among the Finnish National Opera personnel. Appl Occup Environ Hyg. 2003;18(3):177-82. http://dx.doi.org/10.1080/10473220301356
http://dx.doi.org/10.1080/10473220301356...
,2020. Lee J, Behar A, Kunov H, Wong W. Musicians noise exposure in orchestra pit. Appl Acoust. 2005;66(8):919-31. http://dx.doi.org/10.1016/j.apacoust.2004.11.009
http://dx.doi.org/10.1016/j.apacoust.200...
) also measured sound pressure levels in symphony orchestras, the assessment methodology was scarcely defined or different from the one used in this study, however, they also show enough high intensities to impair musicians’ hearing.

In relation to musicians’ hearing symptoms, the present study found the occurrence of tinnitus in 53.34% of them, and intolerance to intense sounds in 33.34%. Among the 16 musicians who reported tinnitus, four stated that it was permanent. Some studies have shown the presence of such symptoms in orchestra musicians. Among them, a study(2121. Marchiori LLM, Melo JJ. Comparação das queixas auditivas com relação à exposição ao ruído em componentes de orquestra sinfônica. Pro Fono. 2001;13(1):9-12.) with 23 orchestra musicians found 52.1% of the musicians suffering from intolerance to intense sounds, and 43.4% of them from tinnitus. Another study(2222. Jansen EJ, Helleman HW, Dreschler WA, Laat JA. Noise induced hearing loss and other hearing complaints among musicians of symphony orchestras. Int Arch Occup Environ Health. 2009;82(2):153-64. http://dx.doi.org/10.1007/s00420-008-0317-1.
http://dx.doi.org/10.1007/s00420-008-031...
) evidenced that among 241 orchestra musicians, 17% reported tinnitus, mainly in their left ear.

Other studies have shown the presence of those symptoms in different musical groups, such as an instrumental band(77. Mendes MH, Morata TC, Marques JM. Aceitação de protetores auditivos pelos componentes de banda instrumental e vocal. Rev Bras Otorrinolaringol. 2007;73(6):785-92. http://dx.doi.org/10.1590/S0034-72992007000600010
http://dx.doi.org/10.1590/S0034-72992007...
), which had tinnitus reported by 47% of the musicians, and intolerance to intense sounds by 58.8%, as well as a military band(22. Gonçalves CGO, Lacerda ABM, Zocolli AMF, Oliva FC, Almeida SB, Iantas MR. Percepção e o impacto da música na audição de integrantes de banda militar. Rev Soc Bras Fonoaudiol. 2009;14(4):515-20. http://dx.doi.org/10.1590/S1516-80342009000400015
http://dx.doi.org/10.1590/S1516-80342009...
), which had tinnitus reported by 76% of its members.

The presence of tinnitus and intolerance to intense sounds were reported by several studies, and by this study as well. These symptoms can be associated to musicians’ occupational exposure, whether they are professionals or students, and can be followed by hearing loss due to high sound pressure levels.

In relation to hearing impairments caused by the exposure to intense sound pressure levels in orchestra musicians, studies(1818. Maia AA, Gonçalves DU, Menezes LN, Barbosa BMF, Almeida PS, Resende LM. Análise do perfil audiológico dos músicos da Orquestra Sinfônica de Minas Gerais (OSMG). Per Musi. 2007;15:67-71.,1919. Laitinen HM, Topila EM, Olkinuora PS, Kuisma K. Sound exposure among the Finnish National Opera personnel. Appl Occup Environ Hyg. 2003;18(3):177-82. http://dx.doi.org/10.1080/10473220301356
http://dx.doi.org/10.1080/10473220301356...
,2121. Marchiori LLM, Melo JJ. Comparação das queixas auditivas com relação à exposição ao ruído em componentes de orquestra sinfônica. Pro Fono. 2001;13(1):9-12.,2222. Jansen EJ, Helleman HW, Dreschler WA, Laat JA. Noise induced hearing loss and other hearing complaints among musicians of symphony orchestras. Int Arch Occup Environ Health. 2009;82(2):153-64. http://dx.doi.org/10.1007/s00420-008-0317-1.
http://dx.doi.org/10.1007/s00420-008-031...
,2323. Russo FA, Behar A, Chasin M, Mosher S. Noise exposure and hearing loss in classical orchestra musicians. Int J Ind Ergon. 2013;43(6):474-8. http://dx.doi.org/10.1016/j.ergon.2012.11.001
http://dx.doi.org/10.1016/j.ergon.2012.1...
) showed results which feature music-induced hearing loss.

In a study(2424. Schmidt JH, Pedersen ER, Paarup HM, Christensen-Dalsgaard J, Andersen T, Poulsen T et al. Hearing loss in relation to sound exposure of professional symphony orchestra musicians. Ear Hear. 2014;35(4):448-60. http://dx.doi.org/10.1097/AUD.0000000000000029
http://dx.doi.org/10.1097/AUD.0000000000...
) which assessed 182 musicians’ hearing, authors concluded that musicians feature better hearing, in average, than the general population, but classical musicians with higher level of sound exposure would have yearly sound levels equivalent to 90 dBA during their professional career. Comparing them to their less exposed peers, they would have an additional hearing loss of 6.3 dB at 3000 Hz, 4000 Hz and 6000 Hz, which characterizes the risk that musicians are exposed to during their professional practice.

Another study(66. Amorim RB, Lopes AC, Santos KTP, Melo ADP, Lauris JRP. Alterações auditivas da exposição ocupacional em músicos. Arq Int Otorrinolaringol. 2008;12(3):377-83.) carried out with 30 musicians between 18 and 37 years, found 24% audiograms suggesting music-induced hearing loss, significantly lower rate than the one found in the current study (33 to 54 years). This fact may have occurred due to a younger age group and, consequently, shorter length of musical practice and sound exposure.

As for the high-frequency assessment, there was a notch in the frequency of 12500 Hz bilaterally, and in the frequency of 14000 Hz in the right ear, although mean thresholds were 11 dBHL maximum. By analyzing hearing from 50 musicians of a military band in Brazil, a study(2525. Gonçalves CGO, Lacerda ABM, Zeigelboim BS, Marques JM, Luders D. Limiares auditivos em músicos militares: convencionais e altas frequências. CoDAS. 2013;25(2):181-7. http://dx.doi.org/10.1590/S2317-17822013000200015
http://dx.doi.org/10.1590/S2317-17822013...
) also found higher auditory thresholds than 25 dBHL, at 3000 Hz, and/or 4000 Hz, and/or 6000 Hz in 32% of the musicians.

By comparing the tonal thresholds, using high-frequency audiometry, between the group of musicians and a control group, it was observed that the musicians evidenced worse auditory thresholds than the non-exposed group to intense sounds for the frequencies of 14000 and 16000 Hz in both ears, and 9000 Hz in the right ear, which differs from the current study.

Research carried out among music students have also reported hearing losses in this population. In a study(2626. Phillips SL, Henrich VC, Mace ST. Prevalence of noise-induced hearing loss in student musicians. Int J Audiol. 2010;49(4):309-16. http://dx.doi.org/10.3109/14992020903470809
http://dx.doi.org/10.3109/14992020903470...
) with 329 students, the prevalence of music-induced hearing loss was 45%, with 78% of the notches occurring at 6000 Hz, a very high rate considering they are students, therefore from a younger age group.

In Brazil, a study(2727. Lüders D, Gonçalves CGO, Lacerda ABM, Ângela Ribas A, De Conto J. Music students: conventional hearing thresholds and at high frequencies. Braz J Otorhinolaryngol. 2014;80(4):296-304. http://dx.doi.org/10.1016/j.bjorl.2014.05.010
http://dx.doi.org/10.1016/j.bjorl.2014.0...
) compared 42 music students’ hearing to a control group and found the worst results for the frequency of 6000 Hz among the students’ group. In relation to high frequencies, only the mean threshold of the frequency at 9000 Hz in the right ear was worse in the studied group when compared to the control group, similarly to a formerly mentioned study(2525. Gonçalves CGO, Lacerda ABM, Zeigelboim BS, Marques JM, Luders D. Limiares auditivos em músicos militares: convencionais e altas frequências. CoDAS. 2013;25(2):181-7. http://dx.doi.org/10.1590/S2317-17822013000200015
http://dx.doi.org/10.1590/S2317-17822013...
).

From what has been mentioned, it is perceived that hearing loss due to loud music exposure has been occurring in musicians and music students, musicians from orchestras and other musical groups at different age groups.

Research on musicians’ quality of life has not been found in literature by means of the SF-36 questionnaire, used in this study. In general, the “quality of life” theme has been scarcely studied in this cohort. However, some publications address the quality of life of this professional group by means of other data collection instruments, thus, most of them focus on pain as one of the determinants of quality of life.

According to the results from a study(2828. Costa CP, Abrahão JI. Quando tocar dói: um olhar ergonômico sobre o fazer musical. Per Musi. 2004;10:60-79.) with symphony orchestra musicians, the pain caused by their occupation is a “silent” one. The reason for that could be the culture of the pain considered necessary to an instrument player or the “vertical and military” structure of a symphony orchestra, which intimidates musicians to remain silent due to the competition and fear of losing their jobs. Another study(44. Raymond DM 3rd, Romeo JH, Kumke KV. A pilot study of occupational injury and illness experienced by classical musicians. Workplace Health Saf. 2012;60(1):19-24. http://dx.doi.org/10.3928/21650799-20111227-01
http://dx.doi.org/10.3928/21650799-20111...
) warns for the fact that musicians may not search for specialized professionals due to the competitive nature of their occupation, fearing that treatment demands as well as an injury becoming public may cost their job positions.

Researchers(2929. Pereira EF, Teixeira CS, Kothe F, Merino EAD, Daronco LSE. Percepção de qualidade do sono e da qualidade de vida de músicos de orquestra. Rev Psiq Clin. 2010;37(2):48-51. http://dx.doi.org/10.1590/S0101-60832010000200003
http://dx.doi.org/10.1590/S0101-60832010...
) investigated the loss of sleep quality in 71% of the musicians from a symphony orchestra. According to the study, low rates of sleep quality showed the association between decreased capacity to perform activities of daily living and work. The perception of pain and discomfort also evidenced a strong association with sleep quality, confirming that that is an important ergonomic aspect in musicians’ occupation.

A study(3030. Kothe F, Teixeira CS, Pereira EF, Merino EAD. Consequências do trabalho para a saúde e qualidade de vida: um estudo com músicos de orquestra. http://www.efdeportes.com. 2009 [citado 27 jan 2016];14(138). Disponível em: http://www.efdeportes.com/efd138/um-estudo-com-musicos-de-orquestra.htm
http://www.efdeportes.com...
) among 16 instrument players of viola and violin, males and females, of a Brazilian orchestra, aimed to assess the occupational outcomes over health and quality of life of these professionals. In general, the most negative perceptions were related to physical problems, such as pain and allergies.

Even though there are no studies in literature correlating hearing loss to musicians’ quality of life, even mild hearing impairments may put their professional careers to an end, and considering that an occupation is an important factor to maintain the quality of life, the results in this study, correlating hearing loss at frequencies of 3000 Hz, 4000 Hz and 6000 Hz, and one of the domains in SF-36 questionnaire, which takes occupational problems in consideration, evidence the impact that hearing may also pose to musicians’ career.

The correlation found between high-frequency thresholds superior to 25 dBHL and the “general health status” domain can be associated with the fact that the studied group of musicians is from an older age group (mean age of 49.3 years) than the musicians featuring thresholds inferior to 25 dBHL (mean age of 45.4 years). Thus, the correlation would be justified by the age, not by the auditory thresholds found, once older age may generate a higher impact over the quality of life, concerning the general health status. However, as the difference in the mean age among the studied groups was only 3.9 years, maybe the correlation between the two variables has occurred due to the increase in the high-frequency thresholds. Nevertheless, in literature, there have not been analyses about the impact of the professional exposure to music on high-frequency hearing, and how that impact influences professional performance, and consequently, quality of life. Therefore, the considerations stated here are mere hypotheses.

CONCLUSION

Among the musicians of an orchestra, 53,33% of the orchestra musicians suffer from hearing loss, mainly at the frequencies of 3000 Hz, 4000 Hz e 6000 Hz, with high occurrence of tinnitus and intolerance to intense sound levels. It was observed impairment in the quality of life in some researched domains with significant correlation between hearing loss and the “limitation due to emotional aspects” domain, and thresholds higher than 25 dB and the “general health status” domain. The sound pressure levels that the musicians are exposed to are excessive, putting their hearing at risk. Hearing loss as well as other hearing disorders may impair musicians’ quality of life, once hearing is essential to this professional category.

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Publication Dates

  • Publication in this collection
    2016

History

  • Received
    23 Feb 2016
  • Accepted
    6 July 2016
Academia Brasileira de Audiologia Rua Itapeva, 202, conjunto 61, CEP 01332-000, Tel.: (11) 3253-8711 - São Paulo - SP - Brazil
E-mail: revista@audiologiabrasil.org.br