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CC BY-NC-ND 4.0 · Int Arch Otorhinolaryngol 2019; 23(04): e375-e379
DOI: 10.1055/s-0039-1688469
Original Research
Thieme Revinter Publicações Ltda Rio de Janeiro, Brazil

Possible Association between the Lack of Regular Physical Activity with Tinnitus and Headache: Cross-sectional Study

Jéssica Aparecida Bazoni
1   Doctoral and Masters Programs in Rehabilitation Sciences, Universidade Estadual de Londrina, Unopar, Londrina, PA, Brazil
,
Ana Carolina Marcotti Dias
1   Doctoral and Masters Programs in Rehabilitation Sciences, Universidade Estadual de Londrina, Unopar, Londrina, PA, Brazil
,
Caroline Luiz Meneses-Barriviera
1   Doctoral and Masters Programs in Rehabilitation Sciences, Universidade Estadual de Londrina, Unopar, Londrina, PA, Brazil
,
Luciana Lozza de Moraes Marchiori
1   Doctoral and Masters Programs in Rehabilitation Sciences, Universidade Estadual de Londrina, Unopar, Londrina, PA, Brazil
,
Denilson de Castro Teixeira
2   Department of Physical Education, Universidade Estadual de Londrina, Londrina, PA, Brazil
› Author Affiliations
Funding The present study received funding by the Fundação Nacional de Desenvolvimento do Ensino Superior (FUNADESP, in the Portuguese acronym) for research support.
Further Information

Address for correspondence

Ana Carolina Marcotti Dias
Universidade Norte do Paraná - UNOPAR, Centro de Ciências da Reabilitação, Rua Marselha
Londrina 86041-120
Brazil   

Publication History

28 March 2017

18 March 2019

Publication Date:
28 May 2019 (online)

 
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Abstract

Introduction Physical inactivity is an important risk factor for many aging-related symptoms. Studies suggest that physical activity may help to relieve tinnitus and headache.

Objective To investigate the presence of tinnitus and headache in elderly individuals by associating it with the lack of regular physical activity.

Methods A cross-sectional study including elderly individuals who live independently. The practice of physical activity and the complaints of headache and of tinnitus were checked by means of a questionnaire with objective questions. The statistical analysis was performed using the chi-squared test and relative risk, and a multiple logistic regression model was used to determine how well each factor predicted headache while controlling for each of the other factors.

Results Based on a sample of 494 subjects, it was found that 213 (43.11%) complained of tinnitus. Among the complainants, 97 (45.53%) practiced physical activity regularly. We have confirmed associations between headache with lack of physical activity among elderly individuals with tinnitus (p = 0.0440). It was also observed that certain factors, such as male gender and tinnitus, are independent factors for the complaint of headache.

Conclusion We have found that headache could be a symptom related to the lack of regular physical activity among elderly individuals with tinnitus.


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Keywords

tinnitus - aging - exercise - headache

Introduction

There is a significant relationship between tinnitus and headache, as well as interaction of symptoms over time, and argue against a purely coincidental co-occurrence of tinnitus and headache. Moreover, there is increasing evidence that, in some cases, both disorders may be linked by common pathophysiological mechanisms.[1] Physical activity is defined as any bodily movement produced by skeletal muscles that results in energy expenditure beyond resting expenditure. Exercise is a subset of physical activity that is planned, structured, repetitive, and purposefully planned to maintain conditioning.[2] Physical inactivity is a primary cause of most chronic diseases. Taken together, conclusive evidence exists that physical inactivity is one important cause of most chronic diseases. In addition, physical activity primarily prevents, or delays, chronic diseases, metabolic, and circulatory changes that cause several symptoms.[3]

In a cross-sectional study involving Brazilian individuals > 60 years old, of the 42.77% that reported tinnitus, 58.68% presented with bilateral tinnitus, and 41.31% presented with unilateral tinnitus.[4] In a study involving people > 65 years old in the city of São Paulo, state of São Paulo, Brazil, the prevalence (mean and 95% confidence interval [CI]) of any type of headache in the previous year was of 45.6% (95% CI: 43.2–48.0%). The prevalence of tension-type headache in the previous year was of 33.1% (95% CI: 30.8–35.4%); of 28.1% (95% CI: 24.6–31.6%) for men, and of 36.4% (95% CI: 33.4–39.4%) for women; for migraine headaches, the prevalence in the previous year was of 10.6% (95% CI: 9.1–12.1%): of 5.1% (95% CI: 3.4–6.8%) for men, and of 14.1% (95% CI: 11.9–16.3%) for women.[5] There have been few recent estimates of the prevalence of tinnitus from population-based samples of older individuals.[6]

Especially in the elderly, lack of regular physical activity and low degree of physical conditioning are risk factors for several metabolic and circulatory changes that cause various symptoms, such as headache, hearing loss, vertigo and tinnitus.[3] [7] According to Simmons et al,[8] recent functional brain imaging studies in humans suggest that the neural generators for tinnitus may reside in the central nervous system (CNS) and involve both auditory and nonauditory centers, and that many patients have somatic tinnitus whereby movements and manipulations of the eyes, head, neck, jaw, and shoulder can modulate the loudness and pitch of their tinnitus. In most cases, the maneuvers lead to an increase in the loudness or in the pitch of the tinnitus, rather than decreasing them. In a study of the association between headaches and tinnitus in young adults, tinnitus was reported by 8.9% of the participants with migraine, in 7.3% of the patients with migraine without aura, and in 10.8% of the participants with migraine with aura. An association between migraine and tinnitus among young individuals was found, being strongest among the migraine with aura subgroup.[9] In a study of the association between tinnitus and headache, it was demonstrated that only in 15% of the cases tinnitus appeared by itself without being associated with headache in adults.[10]

From the present literature review, the central hypothesis of the present work determines that the presence of tinnitus and headache may be associated with the lack of regular physical activity among elderly patients. Based on the considerations presented, the present study aimed to investigate the possible association between the presence of tinnitus and headache by associating it with the lack of regular physical activity among the elderly patients who participated in the present project.


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Method

This was a cross-sectional study. The sample of the present research was selected by convenience from an interdisciplinary project called the project study EELO, which was developed at the Universidade do Norte Paraná - UNOPAR, after approval by the Research Ethics Committee of that institution. The present study was a substudy of a prospective, cross-sectional study of EELO. The city of Londrina (counting with ∼ 500,000 inhabitants) is situated in the north region of Paraná state, Brazil.

There are 43.610 elderly people enrolled in the 38 primary care units in the urban city area. The sample was a randomly stratified set, considering the gender and the 5 areas of the city (15% from the central area, 27% from the northern area, 23% from the southern area, 19% from the eastern area, and 16% from the western area). The study included individuals aged ≥ 60 years old, of both genders, who were living independently and were classified at level 3 or 5, as proposed by Spirduso.[11] This classification evaluates the independence level of the elderly, with level one indicating a lack of self-mobility, and level five indicating athletes. Elderly people who had any illness or limitation that would prevent the testing, such as physical or mental disabilities, were excluded from the sample. All of the participants signed an informed consent form. A sample of 494 elderly individuals was included in this part of the study.

The regular practice of physical activity was verified by means of the following objective questions: “Do you, Mr./Mrs., practice any regular physical activity? If so, since when do you practice it, how often and for how long (at least 30 minutes a day)?” A questionnaire including questions about age, gender, tinnitus, headache, and comorbidities based on the protocol for anamnesis by Miller[12] was applied in the present study.

The analysis was conducted with nonparametric tests: chi-squared (χ2) to determine possible associations between tinnitus and headache in individuals with lack of regular physical activity. The value of p < 0.05 with a 95% CI was considered for the univariate analysis for inclusion in the final model of the χ2 test and the relative risk (RR). A multiple logistic regression model was used to determine how well each factor predicted headache while controlling for each of the other factors. The tests were performed using the BioEstat 5.0 software (Instituto de Desenvolvimento Sustentável Mamirauá, Belém, PA, Brazil).


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Results

Based on a sample of 494 subjects, of which 331 were females and 163 were males, it was found that 213 (43.11%) complained of tinnitus. Among the complainants, 97 (45.53%) practiced physical activity. In the analysis of the whole sample (494 subjects), the chi-squared test resulted in χ2 = 0.501; p = 0.5375, showing no statistically significant association between tinnitus alone and physical activity ([Table 1]).

Table 1

Thorough distribution of patients according to the practice of physical activity and tinnitus

Physical activity

Complaint of tinnitus

Total

Yes

No

n

%

n

%

Yes

97

19.64

119

24.09

216

No

116

23.48

162

32.79

278

Total

213

281

494

Odds ratio= 1.1384; 95% confidence interval: 0.7952–1.6297; absolute risk reduction = 3.19%; number needed to harm = 32; chi-squared correlation coefficient = 0.501 (p = 0.5375)


The lack of association was also confirmed by the analysis by gender: among the female subjects (n = 331), the statistic was χ2 = 0.134; p = 0.7997; and among the male subjects (n = 163), χ2 = 3.091; p = 0.1099.

For the statistical analysis of the complainants of both tinnitus and headache, the subjects that did not completely answer the questionnaires were excluded, thus totaling 489 subjects.

Of these 489 subjects, 185 (37.83%) complained of having headache. Of the 185 with headache, 78 practiced regular physical activity (42.16%). Of the 304 without complaint of headache, 138 practiced regular physical activity (45.39%). The chi-squared test resulted in χ2 = 0.487; p = 0.4851, showing no statistically significant association between headache alone and physical activity ([Table 2]).

Table 2

Thorough distribution of patients according to the practice of physical activity and headache

Physical activity

Headache

Total

Yes

No

n

%

n

%

Yes

78

42,16

138

45,39

216

No

107

57,83

166

54,60

273

Total

185

304

489

Odds ratio = 0,8769; 95% confidence interval: 0,606–1,2682; absolute risk reduction = 3.08%; number needed to treat = 33; chi-squared test = 0.487 (p = 0.4851)


From this sample of 489 subjects, 210 (42.94%) complained of tinnitus. Of the 210 patients with tinnitus, 99 also presented with headache, of which 61 (61.61%) did not perform any physical activity. We have verified possible associations between headache and lack of physical activity among elderly individuals with tinnitus (p = 0.0440). ([Table 3]).

Table 3

Thorough distribution of the number of patients complaining of tinnitus in relation to physical activity and headache

210 patients complaining of tinnitus

Physical activity

Headache

Total

Yes

No

n

%

n

%

Yes

38

38,38

58

52,25

96

No

61

61,61

53

47,74

114

Total

99

47,14

111

52,85

210

Odds ratio = 0.5692; 95% confidence interval: 0.3283–0.9869); absolute risk reduction = 13.93%; number needed to harm = 8; chi-squared test = 4.056 (p = 0.0440)


Of these 489 subjects, 127 (25.97%) reported a history of occupational noise exposure, and 362 subjects (74.02%) did not.

A multiple logistic regression was performed first, including the variables gender, age, tinnitus, physical activity, and headache of the total sample ([Table 4]); then, a multiple logistic regression was performed with the exclusion of all individuals who had a history of working in noisy environments and with the inclusion of the variables gender, age, tinnitus, physical activity, and headache ([Table 5]).

Table 4

Multiple logistic regression was performed first, including the variables gender, age, tinnitus, physical activity and headache of the total sample

Multiple Logistic Regression

Total sample

Variables

Coefficient

Standard error

p-value

Odds ratio

95%CI

Intercept / headache

0.9262

1.0739

Age (x1)

−0.0204

0.0154

0.1855

0.9798

0.95–1.01

Gender (x2)

−0.8829

0.2186

0.0001

0.4136

0.27–0.63*

Tinnitus (x3)

0.7432

0.1946

0.0001

2.1026

1.44–3.08*

Physical activity (x4)

−0.1617

0.1950

0.4068

0.8507

0.58–1.25

Abbreviation: CI, confidence interval.


p ≤ 0.05 (indicated in bold).


Table 5

Multiple logistic regression with the exclusion of all individuals who had a history of working in noisy environments

Multiple Logistic Regression

Excluding subjects with a history of occupational noise exposure

Variables

Coefficient

Standard error

p-value

Odds ratio

95%CI

Intercept / headache

0.1347

1.2044

Age (x1)

−0.0077

0.0173

0.6574

0.9924

0.96–1.03

Gender (x2)

−1.0398

0.3002

0.0005

0.3535

0.20–0.64[*]

Tinnitus (x3)

0.6717

0.2250

0.0028

1.9575

1.26–3.04[*]

Physical activity (x4)

−0.2653

0.2249

0.2383

0.7670

0.49–1.19

Abbreviation: CI, confidence interval.


* p ≤ 0.05 (indicated in bold).


In both regression analyses, we found equivalent results, suggesting that occupational noise exposure does not interfere in the findings regarding the correlation found. It could be observed that male gender and tinnitus are independent factors for the complaint of headache.


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Discussion

The analysis was conducted to determine whether the presence of tinnitus and headache may be associated with the lack of regular physical activity in elderly patients. The results of the analysis partially supported the central hypothesis, being observed in the initial analysis a possible association between headaches and the lack of physical activity among elderly individuals with tinnitus. It has also been observed in the logistic regression analysis that certain factors, such as male gender and tinnitus, are independent factors for the complaint of headache.

This is possibly justified in that physical inactivity may be an important risk factor for diseases. Sedentary lifestyle may accelerate the aging process and increase the risk of comorbidities.[13] In a study with the same population, the presence of complaint of vertigo was lower among elderly individuals who were practitioners of regular physical activity. It verified that there was a significant association (p = 0.001) between the lack of regular physical activity and vertigo, and that people who do not practice regular physical activities are 2.38 times more likely to have vertigo than those who engage in regular physical activity.[14]

We have found in our study that headache was present in 47.14% of the sample with tinnitus, and was more prevalent in those with lack of regular physical activity, that is, in 61.61% of them. This high prevalence may be related to the large number of metabolic and circulatory changes and to the emotional factors present in this population, especially in those without regular physical activity.

In the literature, the etiopathogenesis of tinnitus associated with headache has been attributed to lifestyle habits, clinical conditions, vascular and neuropeptide mechanisms, with even the psychological component appearing to play a role in triggering the event.[9] [10]

In an analytical cross-sectional study, part of the Amirkola Health and Aging Project to determine the associated factors of headache in elderly subjects, the results of the logistic regression analysis after adjustment for all covariates demonstrated a significant independent association between headache, female gender, back pain, and depression.[15] Thus, it presented a different result from our study, which demonstrates males as an independent risk factor for headache.

In a study that analyzed the prevalence and associated risk factors of tinnitus, using data from the Korea National Health and Nutrition Examination Survey, the results demonstrated a significant association between tinnitus, female gender, stress, unemployment, hyperlipidemia, osteoarthritis, rheumatoid arthritis, asthma, depression, thyroid disease, hearing loss, noise exposure with earphones, noise exposure at the workplace, noise exposure at locations other than the workplace, and brief noise exposure.[16] In our study, we observed that occupational noise exposure does not interfere in the findings regarding the correlation of tinnitus and headache associated with the lack of regular physical activity among elderly patients.

Sedentary lifestyle contributes to chronic diseases and is probably associated with the symptoms caused by these complex polygenic conditions. The physical activity can primarily prevent between 20–30% of depression and its symptoms.[3]

Studies also suggest that the sedentary lifestyle has a large impact as a cause of chronic diseases and its symptoms (depression, tinnitus, headache), that may be linked to each other by common pathophysiological mechanisms.[1] [3] [15] [16]

The present study had some limitations that should be considered. A potential limitation of the present study stems from its observational nature and the self-reported survey that may not capture the actual amount of regular physical activity of the subjects. Because of these limitations, future researches should be performed, by means of case-control or population-based studies, to confirm the prevalence rates of headache and tinnitus among elderly people lacking regular physical activity. Further researches are needed to investigate the mechanism of this association, using longitudinal data with a prospective design and additional clinical examination to examine the connection between physical activity, headache, and tinnitus throughout the lifetime of an individual.


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Conclusion

By the application of the chi–squared test (χ2) allows It was determined if the two variables, lack of regular physical activity and headache, were associated. We found that headache may be a symptom related to the lack of regular physical activity among elderly with tinnitus. It has also been observed that certain factors, such as gender and tinnitus, are independent factors for headache complaint.

The present study suggests the relevance of further prospective studies aiming at determining the relationship between improvement in tinnitus and headache and physical activities in general, and more specifically with certain modalities of physical exercises tinnitus and headache with regular physical activity. Further studies will be necessary to develop a method of prevention and rehabilitation from tinnitus and headache by means of physical activity.

Hearing loss should be considered as a variable of confusion that may influence the relationship between tinnitus, headache, and exercise, and should be considered in future studies.


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Conflicts of Interests

The authors have no conflicts of interests to declare.

  • References

  • 1 Langguth B, Hund V, Busch V. , et al. Tinnitus and Headache. BioMed Res Int 2015; 2015: 797416
    PubMedGoogle Scholar
  • 2 De Feo P, Schwarz P. Is physical exercise a core therapeutical element for most patients with type 2 diabetes?. Diabetes Care 2013; 36 (36) (Suppl. 02) S149-S154
    CrossrefPubMedGoogle Scholar
  • 3 Booth FW, Roberts CK, Laye MJ. Lack of exercise is a major cause of chronic diseases. Compr Physiol 2012; 2 (02) 1143-1211
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  • 4 Gibrin PC, Melo JJ, Marchiori LL. Prevalência de queixa de zumbido e prováveis associações com perda auditiva, diabetes mellitus e hipertensão arterial em pessoas idosas. CoDAS 2013; 25 (02) 176-180
    CrossrefPubMedGoogle Scholar
  • 5 Benseñor IM, Lotufo PA, Goulart AC, Menezes PR, Scazufca M. The prevalence of headache among elderly in a low-income area of São Paulo, Brazil. Cephalalgia 2008; 28 (04) 329-333
    CrossrefPubMedGoogle Scholar
  • 6 Sindhusake D, Mitchell P, Newall P, Golding M, Rochtchina E, Rubin G. Prevalence and characteristics of tinnitus in older adults: the Blue Mountains Hearing Study. Int J Audiol 2003; 42 (05) 289-294
    CrossrefPubMedGoogle Scholar
  • 7 Marchiori LLM. Zumbido e hipertensão arterial no processo de envelhecimento. Rev Bras Hipertens. 2009; 16: 5-8
    Google Scholar
  • 8 Simmons R, Dambra C, Lobarinas E, Stocking C, Salvi R. Head, Neck, and Eye Movements That Modulate Tinnitus. Semin Hear 2008; 29 (04) 361-370
    Article in Thieme ConnectPubMedGoogle Scholar
  • 9 Guichard E, Montagni I, Tzourio C, Kurth T. Association Between Headaches and Tinnitus in Young Adults: Cross-Sectional Study. Headache 2016; 56 (06) 987-994
    CrossrefPubMedGoogle Scholar
  • 10 Farri A, Enrico A, Lacilla M, Sartoris A. [Tinnitus during headache: clinical-instrumental evaluation]. Acta Otorhinolaryngol Ital 1999; 19 (02) 70-75
    PubMedGoogle Scholar
  • 11 Spidurso WW. Dimensões físicas do envelhecimento. Barueri: Manole; 2005
    Google Scholar
  • 12 Miller MH. A integração dos achados audiológicos. In: Katz J. (Org). Tratado de audiologia clínica. 3rd ed. São Paulo: Manole; 1999. . chap. 13, 268-70
    Google Scholar
  • 13 Cherkas LF, Hunkin JL, Kato BS. , et al. The association between physical activity in leisure time and leukocyte telomere length. Arch Intern Med 2008; 168 (02) 154-158
    CrossrefPubMedGoogle Scholar
  • 14 Bazoni JA, Mendes WS, Moreira MD, Melo JJ, Meneses-Barriviera CL. , T. D. C. et al. Vertigo complaint and regular physical activity in the elderly. Rev CEFAC 2013; 15 (06) 1447-1452
    Google Scholar
  • 15 Ahmadi Ahangar A, Hossini SR, Kheirkhah F, Bijani A, Moghaddas Z. Associated factors of headache in an unstudied cohort of elderly subjects. Caspian J Intern Med 2016; 7 (02) 120-125
    PubMedGoogle Scholar
  • 16 Kim HJ, Lee HJ, An SY. , et al. Analysis of the prevalence and associated risk factors of tinnitus in adults. PLoS One 2015; 10 (05) e0127578
    CrossrefPubMedGoogle Scholar

Address for correspondence

Ana Carolina Marcotti Dias
Universidade Norte do Paraná - UNOPAR, Centro de Ciências da Reabilitação, Rua Marselha
Londrina 86041-120
Brazil   

  • References

  • 1 Langguth B, Hund V, Busch V. , et al. Tinnitus and Headache. BioMed Res Int 2015; 2015: 797416
    PubMedGoogle Scholar
  • 2 De Feo P, Schwarz P. Is physical exercise a core therapeutical element for most patients with type 2 diabetes?. Diabetes Care 2013; 36 (36) (Suppl. 02) S149-S154
    CrossrefPubMedGoogle Scholar
  • 3 Booth FW, Roberts CK, Laye MJ. Lack of exercise is a major cause of chronic diseases. Compr Physiol 2012; 2 (02) 1143-1211
    PubMedGoogle Scholar
  • 4 Gibrin PC, Melo JJ, Marchiori LL. Prevalência de queixa de zumbido e prováveis associações com perda auditiva, diabetes mellitus e hipertensão arterial em pessoas idosas. CoDAS 2013; 25 (02) 176-180
    CrossrefPubMedGoogle Scholar
  • 5 Benseñor IM, Lotufo PA, Goulart AC, Menezes PR, Scazufca M. The prevalence of headache among elderly in a low-income area of São Paulo, Brazil. Cephalalgia 2008; 28 (04) 329-333
    CrossrefPubMedGoogle Scholar
  • 6 Sindhusake D, Mitchell P, Newall P, Golding M, Rochtchina E, Rubin G. Prevalence and characteristics of tinnitus in older adults: the Blue Mountains Hearing Study. Int J Audiol 2003; 42 (05) 289-294
    CrossrefPubMedGoogle Scholar
  • 7 Marchiori LLM. Zumbido e hipertensão arterial no processo de envelhecimento. Rev Bras Hipertens. 2009; 16: 5-8
    Google Scholar
  • 8 Simmons R, Dambra C, Lobarinas E, Stocking C, Salvi R. Head, Neck, and Eye Movements That Modulate Tinnitus. Semin Hear 2008; 29 (04) 361-370
    Article in Thieme ConnectPubMedGoogle Scholar
  • 9 Guichard E, Montagni I, Tzourio C, Kurth T. Association Between Headaches and Tinnitus in Young Adults: Cross-Sectional Study. Headache 2016; 56 (06) 987-994
    CrossrefPubMedGoogle Scholar
  • 10 Farri A, Enrico A, Lacilla M, Sartoris A. [Tinnitus during headache: clinical-instrumental evaluation]. Acta Otorhinolaryngol Ital 1999; 19 (02) 70-75
    PubMedGoogle Scholar
  • 11 Spidurso WW. Dimensões físicas do envelhecimento. Barueri: Manole; 2005
    Google Scholar
  • 12 Miller MH. A integração dos achados audiológicos. In: Katz J. (Org). Tratado de audiologia clínica. 3rd ed. São Paulo: Manole; 1999. . chap. 13, 268-70
    Google Scholar
  • 13 Cherkas LF, Hunkin JL, Kato BS. , et al. The association between physical activity in leisure time and leukocyte telomere length. Arch Intern Med 2008; 168 (02) 154-158
    CrossrefPubMedGoogle Scholar
  • 14 Bazoni JA, Mendes WS, Moreira MD, Melo JJ, Meneses-Barriviera CL. , T. D. C. et al. Vertigo complaint and regular physical activity in the elderly. Rev CEFAC 2013; 15 (06) 1447-1452
    Google Scholar
  • 15 Ahmadi Ahangar A, Hossini SR, Kheirkhah F, Bijani A, Moghaddas Z. Associated factors of headache in an unstudied cohort of elderly subjects. Caspian J Intern Med 2016; 7 (02) 120-125
    PubMedGoogle Scholar
  • 16 Kim HJ, Lee HJ, An SY. , et al. Analysis of the prevalence and associated risk factors of tinnitus in adults. PLoS One 2015; 10 (05) e0127578
    CrossrefPubMedGoogle Scholar

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