Orofacial myofunctional changes and electromyographic activity of the orbicularis oris muscle in trombonists

Moura, Ana Paula Arruda de; Lima, Jully Anne Soares de; Amarante, Eduarda de Lima; Almeida, Larissa Nadjara Alves; Pessoa, Luciane Spinelli de Figueirêdo; Pernambuco, Leandro de Araújo; Alves, Giorvan Ânderson dos Santos

doi:10.1590/1982-0216/20212313920

ABSTRACT

Objective:

to analyze whether trombonists present orofacial myofunctional changes and compare the electrical activity of the orbicularis oris muscle before and after playing their instrument.

Methods:

an observational, descriptive, and cross-sectional study. The sample consisted of 20 university trombonists. Data collection involved three steps: application of a questionnaire investigating some peculiarities of trombonists (Orofacial Myofunctional Evaluation with Expanded Scores - OMES-E), and electromyographic analysis of the orbicularis oris muscle before and after performing a piece with the trombone. The mean, standard deviation, frequency, and percentage were calculated, and the paired Student’s t test was used to compare the means of the electromyographic records before and after playing the trombone, at a 5% significance.

Results:

seventy per cent of trombonists reported some symptom of orofacial myofunctional alteration, namely, muscle compensations, tension, and pain. The myofunctional evaluation showed a mild change in cheek volume (90%) and labial commissure asymmetry (60%). The electrical activity of the lower orbicularis oris muscle decreased significantly after the trombone practice (p = 0.04), while that of the superior orbicularis oris muscle remained unchanged. Conclusion:trombonists show clinical and self-reported oromyofunctional changes as well as decreased electrical activity of the lower orbicularis oris muscle, after playing the trombone.

Keywords:
Stomatognathic System; Musicians; Electromyography; Facial Muscles

RESUMO

Objetivos:

analisar se existem alterações miofuncionais orofaciais clínicas e autorreferidas em trombonistas, assim como comparar a atividade elétrica do músculo orbicular da boca antes e após o uso do trombone.

Métodos:

estudo transversal e observacional, cuja amostra foi composta por 20 universitários trombonistas. Foi utilizado um questionário que investiga algumas particularidades sobre o instrumentista, da Avaliação Miofuncional Orofacial Com Escores Ampliados - AMIOFE-A e análise eletromiográfica do músculo orbicular da boca antes e após execução de uma tarefa com o trombone. Foram calculadas: média, desvio padrão, frequência e porcentagem e utilizou-se o teste t-Student pareado na comparação das médias dos registros eletromiográficos pré e pós-execução do trombone, significância=5%.

Resultados:

setenta por centro dos trombonistas relataram algum sintoma de alteração miofuncional orofacial, sendo compensações musculares, tensão e dor. Na avaliação miofuncional encontrou-se alteração leve no volume de bochechas (90%) e comissuras labiais com assimetria (60%). Houve redução significante da atividade elétrica do músculo orbicular inferior após a execução de tarefa com trombone (p=0,04), enquanto a do superior permaneceu inalterada.

Conclusão:

trombonistas apresentam alterações oromiofuncionais clínicas e autorreferidas e diminuição da atividade elétrica do músculo orbicular inferior da boca após uso do trombone.

Descritores:
Sistema Estomatognático; Músicos; Eletromiografia; Músculos Faciais

Introduction

The orbicularis oris muscles are complex and have intrinsic and extrinsic fibers that innervate the lips, which are the most mobile structures of the face¹1. Douglas CR. Fisiologia aplicada à fonoaudiologia. 2. ed. Rio de Janeiro: Guanabara-Koogan, 2006.^,²2. Pernambuco LA, Cunha RA, Lins O, Leão JC, Silva HJ. A eletromiografia de superfície nos periódicos nacionais em Fonoaudiologia. Rev. CEFAC. 2010;12(4):685-92.

Any change in stomatognathic structures and functions can disrupt the entire stomatognathic system (SS)¹1. Douglas CR. Fisiologia aplicada à fonoaudiologia. 2. ed. Rio de Janeiro: Guanabara-Koogan, 2006.^,³3. Silva HJ, Cunha DA. O sistema estomatognático: anatomofisiologia e desenvolvimento. São José dos Campos: Pulso Editorial; 2011.. This includes affecting muscle electrical activity, which is triggered by the excitation of muscle fibers by nerve ones. Details of the activity can be captured by surface electromyography (sEMG)²2. Pernambuco LA, Cunha RA, Lins O, Leão JC, Silva HJ. A eletromiografia de superfície nos periódicos nacionais em Fonoaudiologia. Rev. CEFAC. 2010;12(4):685-92.

One of the factors that can unbalance SS is excessive or inadequate use of the structures and functions of this system. The constant use of musical instruments, especially wind instruments, is one of the causes of orofacial complications. Thus, wind musicians are exposed to work-related risk factors⁴4. Frias-Bulhosa J. Impactos oro-faciais associados à utilização de instrumentos musicais. Rev. Portuguesa de Estomatol Med Dent Cir Maxilofacial. 2012;53(2):108-16..

Playing a musical instrument is seen as something pleasant and harmonious, and the real effort behind a beautiful performance is hardly noticeable. The perfect melody is more and more sought after, requiring coordination, flexibility, aptitude, and fine motor skills. To achieve success in their professional lives, many instrumentalists go beyond their capacity of concentration, speed, precision, and resistance, which can trigger disorders in the orofacial complex⁵5. Zimmers P, Gobetti J. Head and neck lesions commonly found in musicians. Journal Am Dent Assoc. 1994;125(11):1487-96.

6. Yeo D, Pham T, Baker J, Porter S. Specific orofacial problems experienced by musicians. Aust Dent J. 2002;47:(1):2-11.

7. Gansenzer E, Parncutt R. How do musicians deal with their medical problems? 9th Internacional Coference on Music Perception and Cognition. Alma Mater Studiorum Bologna University. 2006.^-⁸8. Steimetz A, Ridder P, Methfessel G, Muche B. Professional musicians with craniomandibular dysfunctions treated with oral splints. Cranio. 2009;27(4):221-30..

In recent years, health professionals have sought more information about how musical instruments act on the human body⁹9. Frank A, Muhlen CV. Queixas musculoesqueléticas em músicos: prevalência e fatores de risco. Rev. Bras. Reumatol. 2007;47(3):188-96.. Some authors highlight the importance of orofacial myofunctional assessment, and define strategies for its application¹⁰10. Bianchini EMG. Avaliação fonoaudiológica da motricidade oral: distúrbios miofuncionais orofaciais ou situações adaptativas. Rev. Dent. Press Ortodon. Ortop. Facial. 2000;6(3):73-82.

11. Marchesan IQ. Frênulo lingual: proposta de avaliação quantitativa. Rev. CEFAC. 2004;6(3):288-93.

12. Junqueira P. Avaliação miofuncional. In: Marchesan IQ (org). Fundamentos em fonoaudiologia: aspectos clínicos da motricidade oral. Rio de Janeiro: Guanabara Koogan; 2005.p.19-27.^-¹³13. Genaro KF, Berretin F, Rehder MIBC, Marchesan IQ. Avaliação Miofuncional Orofacial - Protocolo MBGR. Rev. CEFAC. 2009;11(2):237-55.. Despite the recognized importance of clinical evaluation, it has limitations related to subjectivity¹⁴14. Trindade IEK, Genaro KF, Yamashita RP, Miguel HC, Fukushiro AP. Proposta de classificação da função velofaríngea na avaliação perceptivo-auditiva da fala. Pró-Fono R Atual. Científ. 2005;17(2):259-62.^,¹⁵15. Folha GA. Ampliação das escalas numéricas do Protocolo Avaliação Miofuncional Orofacial (AMIOFE-A), validação e confiabilidade [dissertação]. Ribeirao Preto (SP): Universidade de São Paulo, Faculdade de Medicina de Ribeirão Preto; 2010.. In this perspective, sEMG is a complementary quantitative test that determines muscle activity. This tool enables clinical investigation of muscular electrical activity, checking the physiology of individuals¹⁶16. Silva HJ. Protocolos de Eletromiografia de Superfície em Fonoaudiologia. Pró-Fono: Barueri, 2013.

17. Rahal A, Pierotti S. Eletromiografia e cefalometria na Fonoaudiologia. In: Ferreira LP, Befi-Lopes DM, Limongi SCO (orgs). Tratado de fonoaudiologia. São Paulo: Roca; 2004. p. 237-53.^-¹⁸18. Tomé MC, Marchiori SC. Análise eletromiográfica dos músculos orbiculares superior e inferior da boca em crianças respiradoras nasais e bucais durante a emissão de sílabas. Pró-Fono R Atual. Científ. 1999;11(1):1-7..

In the case of trombonists, the constant use of the orbicularis oris muscle is notorious. This muscle consists of intrinsic and extrinsic fibers that innervate the upper and lower lips, which are the most mobile structures of the face¹1. Douglas CR. Fisiologia aplicada à fonoaudiologia. 2. ed. Rio de Janeiro: Guanabara-Koogan, 2006.^,²2. Pernambuco LA, Cunha RA, Lins O, Leão JC, Silva HJ. A eletromiografia de superfície nos periódicos nacionais em Fonoaudiologia. Rev. CEFAC. 2010;12(4):685-92.

Considering the small number of studies on orofacial motricity with this target population, the present study analyzes whether there are clinical and self-reported myofunctional orofacial changes in trombonists, and compares the electrical activity of the orbicularis oris muscle before and after playing the trombone.

The study was guided by the following questions: What are the characteristics of the stomatognathic structures of trombonists, and how do these individuals perform stomatognathic functions? Does the use of trombone significantly affect the electromyographic records of the orbicularis oris muscle? Is there a perception on the part of these musicians in relation to these characteristics and functions, especially in the presence of changes?

The study considered the following hypotheses: myofunctional orofacial changes are present in trombonists; these musicians perceive the presence of changes; the use of trombone interferes with the electromyographic records of the orbicularis oris muscle.

Methods

This research was approved by the Human Research Ethics Committee of the Health Sciences Center of the Federal University of Paraíba, PB, Brazil, under protocol number 1.826.161. The research follows the guidelines of Resolution No. 466/2012 of the National Health Council (CNS).

This is an observational, descriptive, and cross-sectional study¹⁹19. Lakatos EM, Marconi MA. Fundamento de metodologia científica. 4ª ed. São Paulo: Atlas; 2003.. The nonprobabilistic sample consisted of 20 young male adults aged between 18 and 30 years. Participants were selected by convenience sampling from a population of college trombonists. All subjects agreed to voluntarily participate in the study by signing the Free and Informed Consent Form after receiving information about all the study procedures.

The study included young music undergraduates from a public university, duly enrolled in trombone classes 1 to 8. Female subjects were excluded from the sample due to muscle physiology.

The subjects who agreed to voluntarily participate in the study were asked to answer a questionnaire (^{ANNEX A} Annex A ) prepared by the researchers themselves, which addressed their musical trajectory and self-report of signs and symptoms of orofacial myofunctional changes related to the use of the instrument. Afterwards, the subjects were submitted to Orofacial Myofunctional Assessment with the application of the OMES-E protocol. This is a specific and comprehensive tool in Orofacial Motricity, whose expanded scores allow for graduation of specific orofacial myofunctional disorders¹⁵15. Folha GA. Ampliação das escalas numéricas do Protocolo Avaliação Miofuncional Orofacial (AMIOFE-A), validação e confiabilidade [dissertação]. Ribeirao Preto (SP): Universidade de São Paulo, Faculdade de Medicina de Ribeirão Preto; 2010..

The first part of the protocol consists of collecting personal data of the patient. Evaluation begins with the appearance and posture; face; mandible/maxilla ratio; lips; mentual muscle (chin); tongue; hard palate; and mobility of these structures. It then evaluates breathing, swallowing, and chewing functions. Finally, it investigates other behaviors and signs of change. Application of the OMES-E protocol included the use of procedure gloves, French bread, and a digital camera (model Cyber-shot DSC-W310, Sony Corporation, Tokyo, Japan) for image recording.

After orofacial myofunctional assessment with the OMES-E protocol, the volunteers were submitted to electromyographic assessment of the orbicularis oris muscle in the upper and lower lips. For that, a 4-channel electromyograph (brand MIOTEC^®, model Miotool 200/400 USB) was used, connected by cables to a portable computer and working together with the Miograph software. Only two channels were used, referring to the regions of interest of the orbicularis oris muscle; the other channels were disabled¹⁶16. Silva HJ. Protocolos de Eletromiografia de Superfície em Fonoaudiologia. Pró-Fono: Barueri, 2013.. This step included the use of procedure gloves, disposable disc-like bipolar surface capture electrodes, gauze, and 70% alcohol for skin hygiene.

Examination consisted of placing a bipolar electrode on the skin surface in each of the muscle regions of interest. The ground electrode was positioned in the elbow region¹⁶16. Silva HJ. Protocolos de Eletromiografia de Superfície em Fonoaudiologia. Pró-Fono: Barueri, 2013..

The procedure was performed in a closed room, without electrical or electromagnetic interference. Excess oil was removed from the muscular surface with gauze and alcohol, and the surface electrodes were then fixed. Electromyographic records were taken at rest in two moments: before and after the use of trombone. After the first electromyographic recording, the trombonist performed the song entitled “Cantiga Brasileira” by Gilberto Gagliard. The trombone used was a tenor trombone with Conn crook and bell, Kanstul valve, Edwards dual bore slide, nickel tip, and Peter Pickett 5.5 mouthpiece. After the song was finished, the volunteer was resubmitted to electromyographic evaluation.

During the two electromyographic records at rest, volunteers remained with their lips in the usual posture and their facial muscles relaxed. At the end of the recording, electromyographic tracings were expressed in RMS (Root Mean Square), selecting the windows for analysis, eliminating the initial and final seconds to avoid interference. The time spent during the entire procedure with each subject was approximately 45 minutes.

The data were categorized and allocated in a digital spreadsheet. Subsequently, the variables were descriptively and inferentially analyzed using the statistical software R (version 2.11.0). The descriptive analysis included the calculation of measures of frequency and central tendency. For inferential analysis, from the observation of data distribution normality, the paired Student’s t test was used to compare the mean electromyographic values before and after the use of trombone. The 5% level of significance was considered.

Results

The sample consisted of 20 male trombonists with an average of 24.5 (± 2.9) years of age.

Table 1 shows that 18 (90%) subjects have been using this wind instrument for more than 5 years. Of the participants, 16 (80%) practice trombone between 5 and 6 days a week. Regarding daily hours of practice, 40% reported having 3 hours of daily practice. All participants do not have any other professional activity besides music.

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Table 1:
Musical career of trombonists

As for their perception of signs and symptoms of oromyofunctional changes, Table 2 shows that 11 subjects (55%) reported making muscle compensations. Of the 14 subjects who reported symptoms, 7 (35%) mentioned fatigue, 3 (15%) reported muscle tension, 2 reported having more than one symptom, only 1 (5%) reported pain, and 1 (5%) mentioned cervical weakness. Most participants stated that they play the instrument in the proper posture and that their muscles are currently more resistant. Only one musician sought health professionals to treat a problem related to orofacial myofunctional alteration.

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Table 2:
Perception of trombonists about signs and symptoms of myofunctional changes correlated with playing the instrument

As for posture of structures of the stomatognathic system (SS), results show a high proportion of mild changes in cheek volume (90%) and changes in the midline (85%), in addition to mild facial asymmetry in half of the subjects (Table 3).

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Table 3:
Posture of the stomatognathic structures (face, cheeks, and jaw) of trombonists

The majority of the trombonists evaluated showed normal appearance and posture of stomatognathic structures (lips, chin, tongue, hard palate). Labial commissures had a downward orientation or were asymmetric in 60% (12) of these subjects (Table 4).

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Table 4:
Posture of the stomatognathic structures (lips, chin, tongue, hard palate) of trombonists

Lip mobility was sufficient in the majority of the trombonists. For laterality movements, 25% of the subjects presented insufficiency. Regarding tongue movements, some of the subjects showed insufficient protrusion, laterality, raising, and lowering. Regarding jaw mobility, the most affected ability was lowering.

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Table 5:
Mobility of the stomatognathic structures of trombonists

Nineteen subjects (95%) were able to inflate and lateralize the air, and all of them moved their cheeks normally as these are movements trained daily when playing the trombone.

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Table 6:
Mobility of the cheeks of trombonists

Regarding breathing, 55% of those assessed had oronasal breathing, divided into three degrees. Regarding chewing, only one subject did not perform the function normally, as he was unable to perform the solid cake task. In swallowing, 15% (n=3) of the subjects contracted the orbicularis oris muscle.

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Table 7:
Stomatognathic functions in trombonists

Electromyographic values decreased for the upper and lower lips after the instrument was played, with a statistically significant difference only for the lower orbicularis oris muscle.

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Table 8:
Comparison of the mean values of the electromyographic analysis of the orbicularis oris muscle of trombonists before and after playing the instrument

Discussion

The present study identified clinical and self-reported oromyofunctional changes in trombonists, as well as a reduction in the electrical activity of the lower orbicularis oris muscle in these individuals.

The fact that the subjects are university students and work exclusively with music facilitated the analysis of the available variables. The male gender was chosen so as to avoid bias that could interfere with the results due to the intrinsic characteristics of each gender.

There is a lack of awareness of the extent to which some behaviors, such as the practice of a wind instrument, can harm health⁷7. Gansenzer E, Parncutt R. How do musicians deal with their medical problems? 9th Internacional Coference on Music Perception and Cognition. Alma Mater Studiorum Bologna University. 2006.^,²⁰20. Freitas DCV, Marques K. Prevalência da disfunção temporomandibular em violinistas e violistas da Orquestra Petrobras Sinfônica. Rev Eletrônica Novo Enfoque. 2010;10:58-67.. The trombonists analyzed in the present study practice their instrument at least six days a week for more than two hours a day. Previous research shows that the amount of practice/study time with an instrument may lead to overuse and wrong use of the stomatognathic system (SS)⁵5. Zimmers P, Gobetti J. Head and neck lesions commonly found in musicians. Journal Am Dent Assoc. 1994;125(11):1487-96.

6. Yeo D, Pham T, Baker J, Porter S. Specific orofacial problems experienced by musicians. Aust Dent J. 2002;47:(1):2-11.

7. Gansenzer E, Parncutt R. How do musicians deal with their medical problems? 9th Internacional Coference on Music Perception and Cognition. Alma Mater Studiorum Bologna University. 2006.^-⁸8. Steimetz A, Ridder P, Methfessel G, Muche B. Professional musicians with craniomandibular dysfunctions treated with oral splints. Cranio. 2009;27(4):221-30..

The studied subjects claimed not to use more than their physical capacity in playing the instrument. However, reports in the literature demonstrate an obstinate search for ideal performance, often leading the trombonist to exaggerated physical effort⁹9. Frank A, Muhlen CV. Queixas musculoesqueléticas em músicos: prevalência e fatores de risco. Rev. Bras. Reumatol. 2007;47(3):188-96.. The present study showed that trombonists need to make compensations in facial and cervical muscles. This reveals that some of these individuals may present anatomical characteristics that do not facilitate the practice of the instrument. They thus tend to perform these compensations, which can negatively affect the orofacial complex⁴4. Frias-Bulhosa J. Impactos oro-faciais associados à utilização de instrumentos musicais. Rev. Portuguesa de Estomatol Med Dent Cir Maxilofacial. 2012;53(2):108-16.. This points to the need for oral health professionals to provide information about the possible effects that may be caused by playing wind instruments, which could minimize secondary symptoms that can affect the SS²¹21. Iranzo M, Pérez-Soriano P, Camacho C, Belloch S, Cortell-Tormo J. Playing-related musculoskeletal disorders in woodwind, brass and percussion players: a review. J. Hum. Sport Exerc. 2010;5(1):94-100..

Instrumentalists tend to adapt the instrument to their physical condition at the expense of physiological movement. In general, the posture when playing the instrument is asymmetric and not ergonomic⁹9. Frank A, Muhlen CV. Queixas musculoesqueléticas em músicos: prevalência e fatores de risco. Rev. Bras. Reumatol. 2007;47(3):188-96.. However, this statement differs from the feeling of the interviewed subjects, who claimed to play the trombone in an appropriate posture. A possible explanation for this finding would be the lack of knowledge on the part of the instrumentalists of what would be a balanced posture, which, in turn, would favor the appearance of other conditions and structural complications.

The instrumentalists reported orofacial symptoms associated with trombone playing. Fatigue is the most common symptom, followed by tension in the orofacial region. Musicians in general, including musicians who play wind instruments, report mostly pain⁹9. Frank A, Muhlen CV. Queixas musculoesqueléticas em músicos: prevalência e fatores de risco. Rev. Bras. Reumatol. 2007;47(3):188-96.^,²²22. Lacerda F, Barbosa C, Pereira S, Manso MC. Estudo de prevalência das disfunções temporomandibulares em estudantes de instrumento de Sopro. Rev Port Estomatol Med Dent Cir Maxilofac. 2015;56(1):25-33. but also fatigue as a symptom²³23. Chesky K, Devroop K, Ford J. Medical problems of brass instrumentalists: prevalence rates for trumpet, trombone, French horn, and low brass. Med Probl Perform Artist. 2002;17(2):93-8.^,²⁴24. Steimetz A, Stang A, Kornhuber M, Röllinghroff M, Delank KS, Altenmüller E. From embouchure problems to dystonia? A survey of self-reported embouchure disordersin 585 professional orchestra brass players. Int Arch Occup Environ Health. 2014;87(7):783-92..

The appearance of the lips, chin, tongue, and hard palate of the trombonists is normal in comparison to that of other populations. The anatomical structures most affected by the practice of wind instruments are the orofacial structures and the spine²⁵25. Lederman RJ. Neuromuscular and musculoskeletal problems in instrumental musicians. Muscle & Nerve. 2003;27(5):549-61.. These observations characterize the appearance and postural condition of the stomatognathic structures of the volunteers in this research. However, these structures may not correlate directly with the performance of the wind instrument²⁶26. Siqueira VCV, Sousa MA, Bérzin F, Casarini CAS. Análise eletromiográfica do músculo orbicular da boca em jovens com Classe II, 1ª divisão, e jovens com oclusão normal. Dental Press J Orthod. 2011;16(5):54-61..

To date, there are no studies addressing the muscle condition of this target population. The electrical activity of the orbicularis oris muscle decreased, with a statistically significant difference for the lower orbicularis oris muscle. The results, thus, showed that the upper and lower segments of the orbicularis oris muscle work independently, as already demonstrated in another study²⁷27. Zilli AS. Estudo eletromiográfico dos músculos orbiculares da boca, segmentos superior e inferior (região medial), em jovens com maloclusão Classe I de Angle [dissertação]. Piracicaba (SP): Universidade Estadual de Campinas; 1994..

Muscle fatigue is characterized as the inability of the musculature to maintain high levels of strength over time²⁸28. Santos MG, Dezan VH, Sarraf TA. Bases metabólicas da fadiga muscular aguda. Rev Bras C Mov. 2003;11(1):7-12.. A study analyzing the electrical activity of the extrinsic muscles of the larynx in subjects with and without dysphonia concluded that the muscle groups studied had lower electrical activity. This may indicate either a reduction in muscle resistance or the possibility of fatigue in the studied musculature, possibly due to the excessive use of these muscles²⁹29. Balata PMM, Silva HJ, Pernambuco LA, Amorim GO, Braga RS, Silva EGFS et al. Electrical activity of extrinsic laryngeal muscles in subjects with and without dysphonia. J Voice. 2015;29(1):129.e9-129.e17.. Fatigue depends on the duration, type, and intensity of the exercise. Therefore, the decreased electrical activity of muscles in the present study probably correlates with playing the wind instrument. Trombone playing requires a greater effort of the orbicularis oris muscles in a short period of time, which makes it difficult to perform the basic functions of these muscles, causing the need for adaptations.

Research suggests that the orbicularis oris muscle is more prone to fatigue in certain professions, while in others it remains unchanged³⁰30. Busanello-Stella AR, Silva AMT, Corrêa E. Research on fatigue in facial and jaw muscles: review of the literature. Rev. CEFAC. 2014;16(5):1627-38.. Therefore, the use of wind musical instruments should be a matter of particular attention, as they can be a potential source of pathological changes in the structures and functions of the stomatognathic system. This poses an important challenge for the prevention and treatment of orofacial complications among these individuals, as these complications can lead to chronic sequelae preventing musical practice, with inherent professional repercussions⁴4. Frias-Bulhosa J. Impactos oro-faciais associados à utilização de instrumentos musicais. Rev. Portuguesa de Estomatol Med Dent Cir Maxilofacial. 2012;53(2):108-16..

Conclusion

Trombonists have clinical and self-reported oromyofunctional changes. The electrical activity of the lower orbicularis oris muscle decreases and that of the upper orbicularis oris muscle does not change after playing the trombone. The results suggest an imbalance of the stomatognathic system in this population

REFERENCES

¹
Douglas CR. Fisiologia aplicada à fonoaudiologia. 2. ed. Rio de Janeiro: Guanabara-Koogan, 2006.
²
Pernambuco LA, Cunha RA, Lins O, Leão JC, Silva HJ. A eletromiografia de superfície nos periódicos nacionais em Fonoaudiologia. Rev. CEFAC. 2010;12(4):685-92
³
Silva HJ, Cunha DA. O sistema estomatognático: anatomofisiologia e desenvolvimento. São José dos Campos: Pulso Editorial; 2011.
⁴
Frias-Bulhosa J. Impactos oro-faciais associados à utilização de instrumentos musicais. Rev. Portuguesa de Estomatol Med Dent Cir Maxilofacial. 2012;53(2):108-16.
⁵
Zimmers P, Gobetti J. Head and neck lesions commonly found in musicians. Journal Am Dent Assoc. 1994;125(11):1487-96.
⁶
Yeo D, Pham T, Baker J, Porter S. Specific orofacial problems experienced by musicians. Aust Dent J. 2002;47:(1):2-11.
⁷
Gansenzer E, Parncutt R. How do musicians deal with their medical problems? 9th Internacional Coference on Music Perception and Cognition. Alma Mater Studiorum Bologna University. 2006.
⁸
Steimetz A, Ridder P, Methfessel G, Muche B. Professional musicians with craniomandibular dysfunctions treated with oral splints. Cranio. 2009;27(4):221-30.
⁹
Frank A, Muhlen CV. Queixas musculoesqueléticas em músicos: prevalência e fatores de risco. Rev. Bras. Reumatol. 2007;47(3):188-96.
¹⁰
Bianchini EMG. Avaliação fonoaudiológica da motricidade oral: distúrbios miofuncionais orofaciais ou situações adaptativas. Rev. Dent. Press Ortodon. Ortop. Facial. 2000;6(3):73-82.
¹¹
Marchesan IQ. Frênulo lingual: proposta de avaliação quantitativa. Rev. CEFAC. 2004;6(3):288-93.
¹²
Junqueira P. Avaliação miofuncional. In: Marchesan IQ (org). Fundamentos em fonoaudiologia: aspectos clínicos da motricidade oral. Rio de Janeiro: Guanabara Koogan; 2005.p.19-27.
¹³
Genaro KF, Berretin F, Rehder MIBC, Marchesan IQ. Avaliação Miofuncional Orofacial - Protocolo MBGR. Rev. CEFAC. 2009;11(2):237-55.
¹⁴
Trindade IEK, Genaro KF, Yamashita RP, Miguel HC, Fukushiro AP. Proposta de classificação da função velofaríngea na avaliação perceptivo-auditiva da fala. Pró-Fono R Atual. Científ. 2005;17(2):259-62.
¹⁵
Folha GA. Ampliação das escalas numéricas do Protocolo Avaliação Miofuncional Orofacial (AMIOFE-A), validação e confiabilidade [dissertação]. Ribeirao Preto (SP): Universidade de São Paulo, Faculdade de Medicina de Ribeirão Preto; 2010.
¹⁶
Silva HJ. Protocolos de Eletromiografia de Superfície em Fonoaudiologia. Pró-Fono: Barueri, 2013.
¹⁷
Rahal A, Pierotti S. Eletromiografia e cefalometria na Fonoaudiologia. In: Ferreira LP, Befi-Lopes DM, Limongi SCO (orgs). Tratado de fonoaudiologia. São Paulo: Roca; 2004. p. 237-53.
¹⁸
Tomé MC, Marchiori SC. Análise eletromiográfica dos músculos orbiculares superior e inferior da boca em crianças respiradoras nasais e bucais durante a emissão de sílabas. Pró-Fono R Atual. Científ. 1999;11(1):1-7.
¹⁹
Lakatos EM, Marconi MA. Fundamento de metodologia científica. 4ª ed. São Paulo: Atlas; 2003.
²⁰
Freitas DCV, Marques K. Prevalência da disfunção temporomandibular em violinistas e violistas da Orquestra Petrobras Sinfônica. Rev Eletrônica Novo Enfoque. 2010;10:58-67.
²¹
Iranzo M, Pérez-Soriano P, Camacho C, Belloch S, Cortell-Tormo J. Playing-related musculoskeletal disorders in woodwind, brass and percussion players: a review. J. Hum. Sport Exerc. 2010;5(1):94-100.
²²
Lacerda F, Barbosa C, Pereira S, Manso MC. Estudo de prevalência das disfunções temporomandibulares em estudantes de instrumento de Sopro. Rev Port Estomatol Med Dent Cir Maxilofac. 2015;56(1):25-33.
²³
Chesky K, Devroop K, Ford J. Medical problems of brass instrumentalists: prevalence rates for trumpet, trombone, French horn, and low brass. Med Probl Perform Artist. 2002;17(2):93-8.
²⁴
Steimetz A, Stang A, Kornhuber M, Röllinghroff M, Delank KS, Altenmüller E. From embouchure problems to dystonia? A survey of self-reported embouchure disordersin 585 professional orchestra brass players. Int Arch Occup Environ Health. 2014;87(7):783-92.
²⁵
Lederman RJ. Neuromuscular and musculoskeletal problems in instrumental musicians. Muscle & Nerve. 2003;27(5):549-61.
²⁶
Siqueira VCV, Sousa MA, Bérzin F, Casarini CAS. Análise eletromiográfica do músculo orbicular da boca em jovens com Classe II, 1ª divisão, e jovens com oclusão normal. Dental Press J Orthod. 2011;16(5):54-61.
²⁷
Zilli AS. Estudo eletromiográfico dos músculos orbiculares da boca, segmentos superior e inferior (região medial), em jovens com maloclusão Classe I de Angle [dissertação]. Piracicaba (SP): Universidade Estadual de Campinas; 1994.
²⁸
Santos MG, Dezan VH, Sarraf TA. Bases metabólicas da fadiga muscular aguda. Rev Bras C Mov. 2003;11(1):7-12.
²⁹
Balata PMM, Silva HJ, Pernambuco LA, Amorim GO, Braga RS, Silva EGFS et al. Electrical activity of extrinsic laryngeal muscles in subjects with and without dysphonia. J Voice. 2015;29(1):129.e9-129.e17.
³⁰
Busanello-Stella AR, Silva AMT, Corrêa E. Research on fatigue in facial and jaw muscles: review of the literature. Rev. CEFAC. 2014;16(5):1627-38.

Annex A

Publication Dates

Publication in this collection
25 Jan 2021
Date of issue
2021

History

Received
30 Apr 2020
Accepted
05 Oct 2020

This is an open-access article distributed under the terms of the Creative Commons Attribution License

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Silva HJ. Protocolos de Eletromiografia de Superfície em Fonoaudiologia. Pró-Fono: Barueri, 2013.

[17] ¹⁷
Rahal A, Pierotti S. Eletromiografia e cefalometria na Fonoaudiologia. In: Ferreira LP, Befi-Lopes DM, Limongi SCO (orgs). Tratado de fonoaudiologia. São Paulo: Roca; 2004. p. 237-53.

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Tomé MC, Marchiori SC. Análise eletromiográfica dos músculos orbiculares superior e inferior da boca em crianças respiradoras nasais e bucais durante a emissão de sílabas. Pró-Fono R Atual. Científ. 1999;11(1):1-7.

[19] ¹⁹
Lakatos EM, Marconi MA. Fundamento de metodologia científica. 4ª ed. São Paulo: Atlas; 2003.

[20] ²⁰
Freitas DCV, Marques K. Prevalência da disfunção temporomandibular em violinistas e violistas da Orquestra Petrobras Sinfônica. Rev Eletrônica Novo Enfoque. 2010;10:58-67.

[21] ²¹
Iranzo M, Pérez-Soriano P, Camacho C, Belloch S, Cortell-Tormo J. Playing-related musculoskeletal disorders in woodwind, brass and percussion players: a review. J. Hum. Sport Exerc. 2010;5(1):94-100.

[22] ²²
Lacerda F, Barbosa C, Pereira S, Manso MC. Estudo de prevalência das disfunções temporomandibulares em estudantes de instrumento de Sopro. Rev Port Estomatol Med Dent Cir Maxilofac. 2015;56(1):25-33.

[23] ²³
Chesky K, Devroop K, Ford J. Medical problems of brass instrumentalists: prevalence rates for trumpet, trombone, French horn, and low brass. Med Probl Perform Artist. 2002;17(2):93-8.

[24] ²⁴
Steimetz A, Stang A, Kornhuber M, Röllinghroff M, Delank KS, Altenmüller E. From embouchure problems to dystonia? A survey of self-reported embouchure disordersin 585 professional orchestra brass players. Int Arch Occup Environ Health. 2014;87(7):783-92.

[25] ²⁵
Lederman RJ. Neuromuscular and musculoskeletal problems in instrumental musicians. Muscle & Nerve. 2003;27(5):549-61.

[26] ²⁶
Siqueira VCV, Sousa MA, Bérzin F, Casarini CAS. Análise eletromiográfica do músculo orbicular da boca em jovens com Classe II, 1ª divisão, e jovens com oclusão normal. Dental Press J Orthod. 2011;16(5):54-61.

[27] ²⁷
Zilli AS. Estudo eletromiográfico dos músculos orbiculares da boca, segmentos superior e inferior (região medial), em jovens com maloclusão Classe I de Angle [dissertação]. Piracicaba (SP): Universidade Estadual de Campinas; 1994.

[28] ²⁸
Santos MG, Dezan VH, Sarraf TA. Bases metabólicas da fadiga muscular aguda. Rev Bras C Mov. 2003;11(1):7-12.

[29] ²⁹
Balata PMM, Silva HJ, Pernambuco LA, Amorim GO, Braga RS, Silva EGFS et al. Electrical activity of extrinsic laryngeal muscles in subjects with and without dysphonia. J Voice. 2015;29(1):129.e9-129.e17.

[30] ³⁰
Busanello-Stella AR, Silva AMT, Corrêa E. Research on fatigue in facial and jaw muscles: review of the literature. Rev. CEFAC. 2014;16(5):1627-38.

Variable	Total
Variable	n	%
Practice Time
3 Years	1	5.0
4 Years	1	5.0
5 Years or more	18	90.0
Practice Frequency
3 Days	3	15.0
4 Days	1	5,0
5 Days	5	25.0
6 Days	11	55.0
Daily Hours of Practice
1 Hour	2	10.0
2 Hours	6	30.0
3 Hours	8	40.0
4 Hours or more	4	20.0
Instrument Type (bass or tenor)
1	5	25.0
2	15	75.0

Variable	No		Yes
Variable	N	%	N	%
Muscle compensations	9	45.0	11	55.0
Practice beyond physical capacity	17	85.0	3	15.0
Symptoms	6	30.0	14	70.0
Proper posture	4	20.0	16	80.0
More resistant facial muscles	2	10.0	18	90.0
Search for pain/tension/fatigue treatment	19	95.0	1	5.0

Variable	Total
Variable	N	%
Face
Symmetry
Normal	10	50.0
Mild asymmetry	10	50.0
Proportion between facial thirds
Normal	16	80.0
Slightly altered	4	20.0
Nasolabial sulcus
Normal for age	14	70.0
Sharp - Mild	6	30.0
Appearance of cheeks
Volume
Normal	2	10.0
Mild change	18	90.0
Tension/Configuration
Normal	19	95.0
Moderate change	1	5.0
Mandible/Maxilla ratio
Vertical
Normal	15	75.0
Mild change	5	25.0
Anteroposterior
Normal	14	70.0
Mild change	6	30.0
Midline
Normal	3	15.0
Mild change	10	50.0
Moderate change	5	25.0
Severe change	2	10.0

Variable	Total
Variable	N	%
Lips
Lip function at rest
Occluded	18	90.0
Mild dysfunction	2	10.0
Volume and configuration
Normal	14	70.0
Decreased and stretched - Mild	5	25.0
Decreased and stretched - Moderate	1	5.0
Labial comissures
Normal	8	40.0
Below the oral rhyme and/or asymmetric - Mild	12	60.0
Mentual muscle
Apparent contraction - occluded lips
Normal	19	95.0
Mild	1	5.0
Tongue
Position/Appearance
Normal	17	85.0
Clenching - Tense occlusion of teeth	1	5.0
Tightening - With marks	2	10.0
Appearance - Volume
Normal	14	70.0
Increased and/or extended - Mild	5	25.0
Increased and/or extended - Moderate	1	5.0
Appearance of the hard palate
Width
Normal	19	95.0
Mild decrease	1	5.0
Height
Normal	13	65.0
Mild increase	6	30.0
Moderate increase	1	5.0

Performance	Protrusion		Retraction		Laterality (R)		Laterality (L)		Raising		Lowering
Performance	N	%	N	%	N	%	N	%	N	%	N	%
Lips
Normal	19	95.0	16	80.0	15	75.0	15	75.5	-	-	-	-
Insufficient	1	5.0	4	20.0	5	25.0	5	25.0	-	-	-	-
Tongue
Normal	12	60.0	15	75.0	11	55.0	11	55.0	10	50.0	12	60.0
Insufficient	8	40.0	5	25.0	9	45.0	9	45.0	10	50.0	8	40.0
Mandible
Normal	18	90.0	-	-	17	85.0	15	75.0	16	80.0	14	70.0
Insufficient	2	10.0	-	-	3	15.0	5	25.5	4	20.0	6	30.0

Performance	Inflating		Deflating		Retracting		Lateralizing
Performance	N	%	N	%	N	%	N	%
Cheeks
Normal	19	95.0	20	100	20	100	19	95.0
Insufficient	1	5.0	0	0.0	0	0.0	1	5.0

Variable	Total
Variable	N	%
Breathing
Nasal	9	45.0
Oronasal
Mild	5	25.0
Moderate	5	25.0
Severe	1	5.0
Deglutition
Lips
Sealed	17	85.0
Sealed with contraction/interposition	3	15.0
Tongue
Contained in the oral cavity	20	100
Deglutition - Efficiency
No repetition for the same cake	15	75.0
One repetition	3	15.0
Multiple swallows	2	10.0
Chewing
Normal	19	95.0
Does not chew	1	5.0

Variable	Before playing		After playing		p-value	Difference
Variable	Mean	SD	Mean	SD	p-value	Difference
Upper orbicularis oris mucle	3.54	1.0	2.95	1.9	0.07	NO
Lower orbicularis oris muscle	6.95	8.1	5.08	6.3	0.04	YES