Effect of Tinnitus Habituation Therapy on Auditory Abilities

Burle, Najlla Lopes de O.; Resende, Luciana Macedo de; Alves, Luciana Mendonça; Garcia, Vinícius Soares; Mancini, Patricia Cotta

doi:10.1055/s-0040-1708897

Abstract

Introduction

Research with tinnitus patients presenting with hearing loss and normal hearing subjects have verified that tinnitus interferes with auditory processing. One treatment option for this symptom consists of tinnitus habituation therapy.

Objective

To determine the influence of tinnitus habituation therapy on auditory abilities, on the self-perception of tinnitus regarding loudness and discomfort, and its impact on the quality of life.

Methods

A quasi-experimental study was conducted with 19 individuals with tinnitus. Audiological tinnitus and auditory processing evaluations were performed. Subsequently, the volunteers underwent tinnitus habituation therapy for 6 months. Ultimately, all of the individuals were reevaluated.

Results

A statistically significant reduction in tinnitus self-perception was observed in relation to loudness, discomfort, and its impact on the quality of life (p = 0.001, 0.001, 0.023, respectively). However, the influence of tinnitus habituation therapy on auditory abilities was not verified.

Conclusion

Tinnitus habituation therapy was effective in reducing the self-perception of tinnitus loudness and discomfort, as well as the impact of the symptom on the quality of life. However, these factors did not improve the auditory processing skills in tinnitus patients.

Keywords
tinnitus; auditory abilities; auditory perception

Introduction

Tinnitus is the perception of a sound in the ears or in the head, in the absence of an external stimulus.¹1 Jafaria Z, Toufan R, Aghamollaei M, Asad Malayeri S, Rahimzadeh S, Esmaili M. Imapct of tinnitus on divided and selective auditory attention in workers expose to occupational noise. Advances in cognitive. Science 2012;14(03):51-62 It is a symptom that can reflect on the functioning of the organism of an individual as a whole, and can be caused by numerous affections including otological, metabolic, neurological, orthopedic, cardiovascular, pharmacological, odontological, and/or psychological, which, in turn, may be present concomitantly in the same individual.²2 Okada DM, Onishi ET, Chami FL, Borin A, Cassola N, Guerreiro VM. O uso da acupuntura para alívio imediato do zumbido. Rev Bras Otorrinolaringol 2006;72(02):182-186^,³3 Lasisi AO, Abiona T, Gureje O. Tinnitus in the elderly: Profile, correlates, and impact in the Nigerian Study of Ageing. Otolaryngol Head Neck Surg 2010;143(04):510-515

Tinnitus consists of a symptom that is present in 15 % of the general population, and its incidence increases to 33 % in the elderly.⁴4 Pinto PCL, Sanchez TG, Tomita S. Avaliação da relação entre severidade do zumbido e perda auditiva, sexo e idade do paciente. Rev Bras Otorrinolaringol (Engl Ed) 2010;76(01):18-24 Approximately 40 % of tinnitus patients also suffer from hyperacusis, which consists of a decreased tolerance to sounds at intensities considered comfortable to most people.⁵5 Baguley DM. Hyperacusis. J R Soc Med 2003;96(12):582-585 In many cases, tinnitus may cause a great deal of discomfort. Given its difficulty in characterization and treatment, and according to its severity, tinnitus becomes a negative repercussion factor in the life of the individual, hampering their sleep, concentration, daily and professional activities, social life and, often, altering their emotional balance.⁶6 Lewis JE, Stephens SD, McKenna L. Tinnitus and suicide. Clin Otolaryngol Allied Sci 1994;19(01):50-54

Tinnitus may occur in patients with normal hearing or who exhibit hearing loss.⁷7 Langers DRM, de Kleine E, van Dijk P. Tinnitus does not require macroscopic tonotopic map reorganization. Front Syst Neurosci 2012;6(02):2 Even with normal hearing thresholds, almost half of the individuals affected by tinnitus complain of reduced ability to communicate and discriminate words.⁸8 Huang CY, Lee HH, Chung KC, Chen HC, Shen YJ, Wu JL. Relationships among speech perception, self-rated tinnitus loudness and disability in tinnitus patients with normal pure-tone thresholds of hearing. ORL J Otorhinolaryngol Relat Spec 2007;69(01):25-29 Studies with patients with hearing loss⁹9 Newman CW, Wharton JA, Shivapuja BG, Jacobson GP. Relationships among psychoacoustic judgments, speech understanding ability and self-perceived handicap in tinnitus subjects. Audiology 1994;33(01):47-60 and with patients with normal hearing¹⁰10 Branco-Barreiro FCA. Zumbido em adultos ouvintes normais: um estudo sobre o processamento auditivo central e o handicap [Thesis]. São Paulo (SP): Pontifícia Universidade Católica de São Paulo; 1998^,¹¹11 Ryu IS, Ahn JH, Lim HW, Joo KY, Chung JW. Evaluation of masking effects on speech perception in patients with unilateral chronic tinnitus using the hearing in noise test. Otol Neurotol 2012;33 (09):1472-1476 have verified that tinnitus interferes in auditory processing and speech perception in a noisy environment for some hearing abilities, regardless of the contextual clues that are provided during the dialogue, therefore affecting the communication of the individual. Communication losses due to tinnitus can make people irritated, anxious, distressed, depressed, and insomniac, hampering their quality of life.¹²12 Esteves CC, Brandão FN, Siqueira CGA, Carvalho SAS. Audição, zumbido e qualidade de vida: um estudo piloto. Rev CEFAC 2012; 14(05):836-843^,¹³13 Martins ML, et al. Interferência do zumbido no reconhecimento e percepção de fala. Anais do XXIII Congresso Brasileiro e IX Congresso Internacional de Fonoaudiologia. Salvador/BA, Brazil, 2015

Due to its complex, multiple, and not yet well-understood pathophysiology, several therapeutic modalities have been employed in the attempt to cure or even relieve and reduce the perception of tinnitus and hyperacusis. One of the strategies consists of tinnitus habituation therapy,¹⁴14 Azevedo A, Figueiredo R. Atualização em zumbido. Rev Bras Otorrinolaringol 2004;70(01):27–40 a treatment based on the neurophysiological model of tinnitus, described by Jastreboff in 1990.¹⁵15 Jastreboff PJ. Phantom auditory perception (tinnitus): mechanisms of generation and perception. Neurosci Res 1990;8(04):221–254 In this model, the disorder is considered the result of a dynamic interaction between some centers of the central nervous system, including auditory and nonauditory pathways. One of these interactions occurs between the limbic and the autonomic nervous systems, generating negative sensations, such as nuisance and stress, which inhibit the habituation of this symptom.¹⁶16 Grewal R, Spielmann PM, Jones SE, Hussain SS. Clinical efficacy of tinnitus retraining therapy and cognitivebehavioural therapy in the treatment of subjective tinnitus: a systematic review. J Laryngol Otol 2014;128(12):1028–1033 Habituation is defined as a physiological process characterized by the progressive decline of responses to repetitive stimuli and only occurs if the stimulus is neutral, that is, free from associations with negative emotional states.¹⁷17 Branco-Barreiro FCA, Knobel KAB, Sanches TG. Modelo neurofisiológico do zumbido. In: Samelli AG. Zumbido: avaliação, diagnóstico e reabilitação. São Paulo: Louvise; 2004:87–93

In order for the complete process of tinnitus habituation to occur, two fundamental principles should be equally valued: counseling and sound therapy.¹⁸18 Sanches TG, Pedalini MEB, Bento RF. Aplicação da terapia de retreinamento do zumbido (TRT) em hospital público. Arq Int Otorrinolaringol 2002;6(01):29–38 The objective of counseling is to remove adverse associations of tinnitus and demystify negative beliefs related to the symptom.¹⁷17 Branco-Barreiro FCA, Knobel KAB, Sanches TG. Modelo neurofisiológico do zumbido. In: Samelli AG. Zumbido: avaliação, diagnóstico e reabilitação. São Paulo: Louvise; 2004:87–93 It consists of an explanation of the anatomy and physiology of central and peripheral hearing, and its relationship with tinnitus, in addition to recommendations. In turn, sound therapy aims at facilitating the habituation of tinnitus perception for symptom relief by reducing the difference between tinnitus-related and background neuronal activity.¹⁸18 Sanches TG, Pedalini MEB, Bento RF. Aplicação da terapia de retreinamento do zumbido (TRT) em hospital público. Arq Int Otorrinolaringol 2002;6(01):29–38 The habituation-based treatment of tinnitus produces changes in the neural connections of the auditory system and may require some time to take place. Some patients become accustomed quickly, although, by definition, the complete process can occur in up to 18 months.¹⁸18 Sanches TG, Pedalini MEB, Bento RF. Aplicação da terapia de retreinamento do zumbido (TRT) em hospital público. Arq Int Otorrinolaringol 2002;6(01):29–38 The benefits of this method of treatment for tinnitus are well-described in the literature, and several studies have highlighted the reduction of tinnitus loudness in patients with this symptom, as well as the reduction of the impact of tinnitus on the quality of life of the patients.¹⁵15 Jastreboff PJ. Phantom auditory perception (tinnitus): mechanisms of generation and perception. Neurosci Res 1990;8(04):221–254^,¹⁸18 Sanches TG, Pedalini MEB, Bento RF. Aplicação da terapia de retreinamento do zumbido (TRT) em hospital público. Arq Int Otorrinolaringol 2002;6(01):29–38^,¹⁹19 Tyler RS, Noble W, Coelho CB, Ji H. Tinnitus retraining therapy: mixing point and total masking are equally effective. Ear Hear 2012;33(05):588–594

Nevertheless, although the efficacy of tinnitus habituation therapy and the possible influence of this symptom on auditory processing skills are well-understood, studies that assess whether or not tinnitus improvement through this form of treatment influences auditory processing are not yet explored. Thus, the objective of the present study was to verify the effect of tinnitus habituation therapy on the auditory skills, assessed through behavioral auditory processing tests, self-perception of tinnitus in relation to loudness, discomfort, and the impact of tinnitus on the quality of life of individuals with this symptom.

Methods

The present research comprised a quasi-experimental study that was conducted at a Research Laboratory at Federal University of Minas Gerais, in the city of Belo Horizonte, Brazil. The study was previously approved by the Ethics and Research Committee under the number 48473215.9.0000.5149. The participants were referred to the Research Laboratory by the Auditory Health Care Service. All of the individuals presented with tinnitus and were evaluated by an otorhinolaryngologist, who referred the patients to the Vestibular Rehabilitation and Tinnitus Ambulatory of the university hospital in order to carry out tinnitus habituation therapy.

The inclusion criteria comprised individuals > 18 years old with tinnitus causing an impact on their quality of life, and who were referred by an otorhinolaryngologist for tinnitus habituation therapy. The exclusion criteria included patients with significant hearing loss (> 50 dBHL), given this characteristic hampered the behavioral assessment of auditory processing since the use of hearing aids (HAs) in these individuals was necessary; patients who already used HAs; patients who exhibited significant emotional or cognitive conditions (generalized anxiety, panic disorder, dementia, self-reported or evident depression, or schizophrenia); participants that presented type As, B, C or Ad tympanometric curves, which encumber the performance of auditory processing evaluations, and individuals who did not seem uncomfortable with tinnitus. The subjects who agreed to participate in the study were required to sign an informed consent term (ICT).

A total of 41 patients were included in the study, of which 3 dropped out of the treatment, 4 chose not to continue, 1 exhibited an Ad-type tympanometric curve and 1 had a type C tympanometric curve, 5 displayed self-reported emotional or cognitive disturbances, 5 already used HAs, 2 did not report discomfort with tinnitus, and 1 had severe hearing loss, and were, therefore, excluded from the study. Thus, the final sample consisted of 19 individuals.

Initially, all of the subjects were asked to attend an initial counseling group session, and they were explained the pathophysiology of tinnitus and the objectives of the research. At this stage, the patients were invited to participate in the study, and those who agreed signed the ICT. The tests were scheduled and performed at the research laboratory facility.

All of the patients were initially submitted to anamnesis, tinnitus handicap inventory (THI) questionnaire, visual analog scale (VAS), otoscopy, and audiological, tinnitus, and auditory processing evaluations. These procedures were divided into two sessions, each lasting ~ 1 hour, to avoid fatigue, drowsiness, and discomfort of the participant.

In the anamnesis, the participants were asked about tinnitus issues such as tinnitus type, location, associated pains, eating habits, current comorbidities, medications in use and already used for the symptom, and family history of tinnitus, hearing loss, and diabetes.

The THI questionnaire was applied to verify the impact of tinnitus on the quality of life of the individuals. It comprises 25 questions that assess the functional, emotional and catastrophic aspects of tinnitus. The patient should answer the questions with "yes," "sometimes," and "no," which scored four, two, and zero points, respectively. Thus, the maximum score in this questionnaire was 100, and the higher the score, the greater the impact of tinnitus on the individual's quality of life.

The visual analog scale (VAS) was used to verify the degree of annoyance of the patient because of tinnitus. The individuals were instructed to visualize the scale and then assign a score from 0 to 10 regarding the annoyance generated by tinnitus, 10 being unbearable, and 0 meaning no nuisance brought on by tinnitus.

Meatoscopy was performed to verify if the conditions of the external auditory meatus were adequate to carry out the hearing tests. The audiological evaluation was conducted in an acoustically treated environment, according to ISO 8253-120,²⁰20 Standardisation Of II. ISO 8253-1, Acoustics-Audiometric test methods - Part 1: Basic pure tone air and bone conduction threshold audiometry. Geneva: ISO; 1989 using the model Astera 2 Otometrics audiometer (Natus, Taastrup, Denmark), the Sennheiser HDA 200 headset (Sennheiser, Wedemark, Germany), and the B-71 bone vibrator (RadioEar, Middelfart, Denmark). The exam consisted of conventional and high-frequency audiometry, with air (frequencies from 250 to 20,000 Hz) and bone auditory thresholds (frequencies between 500 and 4,000 Hz), and speech audiometry using recorded material (speech recognition threshold [SRT] and the speech recognition index [SRI]). The audiometric classification followed the criteria proposed by Biap²²22 Jerger J. Clinical experience with impedance audiometry. Arch Otolaryngol 1970;92(04):311-324 which considers the average air thresholds at frequencies of 500, 1,000, 2,000, and 4,000 Hz.

Immitance measures consisted of tympanometry and contralateral acoustic reflexes at frequencies of 500, 1,000, 2,000, and 4,000 Hz. The tests were performed on the Interacoustics immitanciometer, model AT235 (Interacoustics, Middelfart, Denmark), and the tympanometry classification followed the criteria proposed by Jerger.²²22 Jerger J. Clinical experience with impedance audiometry. Arch Otolaryngol 1970;92(04):311-324 The purpose of this stage was to evaluate the functional integrity of middle ear structures, since alterations in these structures may influence the auditory processing evaluation results.

The tinnitus assessment was composed of acuphenometry and the loudness discomfort levels (LDLs). Acuphenometry consists of a subjective evaluation performed using an audiometer, in which the participant is subject to several sound stimuli in order for comparison with the tinnitus reported by the patient, thus characterizing the symptom regarding its pitch and loudness. To evaluate the frequency, pure tones or narrowband noises were presented, depending on the characterization reported by the patient, at frequencies of 250 Hz to 20,000 Hz, 10.0 dBHL above the audiometric threshold. In turn, to measure the loudness sensation, the signal was increased in steps of 1 dB on the determined frequency, and patients were instructed to raise their hand when the signal was at an equivalent loudness to that of the tinnitus. This evaluation was performed in the contralateral ear to the one exhibiting tinnitus, or in the ear in which the patient reported the least annoyance.²²22 Jerger J. Clinical experience with impedance audiometry. Arch Otolaryngol 1970;92(04):311-324 The LDLs were determined at frequencies of 500 to 4,000 Hz using pure tones, and the intensity of stimulus presentation was increased in steps of 1 dB. Patients were instructed to raise their hands when they felt discomfort in relation to the sound. The hyperacusis classification was in accordance with the criteria proposed by Goldstein et al,²³23 Goldstein B, Shulman A. Tinnitus, hyperacusis and loudness discomfort level test: a preliminary report. Int Tinnitus J 1996; 2(01):83-89 and is described in ► Table 1.

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Table 1
Hyperacusis classification according to Goldstein et al²³23 Goldstein B, Shulman A. Tinnitus, hyperacusis and loudness discomfort level test: a preliminary report. Int Tinnitus J 1996; 2(01):83-89

To perform the behavioral evaluation of auditory processing, tests were chosen to assess each auditory ability. Therefore, a low-redundancy monoaural speech test (noisy speech [NS]), dichotic hearing test (staggered spondaic word test [SSW]), temporal processing tests (pitch pattern sequence [PPS] and gaps in noise [GIN]), and a binaural interaction test (masking level difference [MLD]) were performed. The behavioral tests were also performed in an acoustic booth, using the Itera II Otometrics two-channel audiometer (Natus, Taastrup, Denmark), coupled with a media player and TDH-39 headphones (Telephonics, Farmingdale, United States). ► Table 2 shows the tests that were employed in the behavioral evaluation of auditory processing, as well as the assessed hearing abilities in each one, in addition to the applied performance parameters.

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Table 2
Auditory processing tests, evaluated abilities, and performance parameters

After completion of the test, the patients were invited to attend a second lecture aimed at guiding them regarding the lifestyle changes that can help reducing the discomfort of tinnitus, as well as to explain about tinnitus habituation therapy and its possible benefits. After the talk, the patients received an MP3 player containing songs of environmental and instrumental sounds to provide sound therapy, were guided on the use and handling of the device, and told to use it for at least 3 hours daily, at the moment in which the tinnitus annoyed them most. In addition, patients received a control chart to follow the time of daily use of the MP3 player. They were instructed to mark an "X" in the square corresponding to the daily use period of the device, in which the options were "up to 1 hour," "1 to 3 hours," and "more than 3 hours."

Then, the patients underwent tinnitus therapy for a period of 6 months, and 3 appointments were conducted during this time. The 1^st and 2^nd meetings were performed in the 1^st and 3^rd months of therapy, respectively, and aimed at reestablishing the given guidelines, motivating the patient to keep the treatment, and to follow-up on their evolution and clarify concerns or misconceptions. The third meeting was performed at the end of the 6^th month of therapy, in which the patients were again submitted to acuphenometry, LDLs, all of the behavioral auditory processing tests, and THI and VAS.

All of the data were recorded in specific forms and later released in Excel 2013 (Microsoft Corporation, Redmond, WA, USA) program worksheets for results analysis. Descriptive statistics and statistical analyses were performed using the Student T, T-Paired, and Wilcoxon tests for numerical variables, and the Shapiro-Wilk and chi-squared tests for categorical variables, with a significance level of 5 % (p < 0.05) and confidence intervals (CIs) of 95 % in all of the analyses.

Results

The study sample consisted of 19 individuals, of which 11 were female, and 8 were male. The mean age was 59 years old (±9.6), ranging from 40 to 74 years old. The data regarding the tinnitus characteristics of the participants are shown in ► Table 3. In the sample, 57.9 % of the subjects stated that they were uncomfortable with intense sounds, and 42.1 % were not bothered by them. Regarding dizziness, 42.1 % reported the presence of the symptom, while 57.9 % reported it had never occurred.

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Table 3
Data regarding the tinnitus characteristics of the participants

The individuals were also asked if they had frequent pains, such as otalgia, headaches, neck pain, and in the temporomandibular joint (TMJ). The most frequent pain was headache, reported by 41.2 % of the sample (► Table 4). Regarding eating habits, 73.7 % of the participants reported consuming from 4 to 6 meals per day, and the others stated having 1 to 3 meals a day. A total of 47.4 % stated they ingested high doses of caffeine daily and 57.9 % informed sweet food consumption abuse. As for previous disease history, head trauma, high blood pressure, migraines, cardiac disorders, diabetes, and high cholesterol levels were reported (► Table 5).

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Table 4
Data regarding the presence of frequent pain in the sample

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Table 5
Data regarding the past disease history in the sample

Regarding the drugs used during the study, 47.4 % of the patients reported not using any medication, 31.6 % stated using between 1 and 3 substances, and 21.1 % informed the use of > 3 medications. Specific drugs for tinnitus relief were used prior to the study by 26.3 % of the subjects.

As for the family illness history of the participants, 21.1 % reported having family members with hearing loss, 31.6 % had relatives with tinnitus, and 42.1 % with diabetes. Considering the criteria adopted for auditory loss classification, more than half of the participants exhibited hearing within the normal standards, as observed in ► Fig. 1.

Fig. 1
Auditory classification of the participants. Abbreviations: HN: Hearing within the normality standards; MSHL: Mild sensorineural hearing loss; MoSHL: Moderate sensorineural hearing loss.

Regarding the established exclusion criteria, all of the participants presented a type A tympanogram, according to the classification of Jerger.²¹21 International Bureau for Audiophonology Rec_02-1_en Page 1 of 2 BIAP Recommendation 02/1: Audiometric Classification of Hearing Impairments http://www.biap.org/es/recommandations/recommendations/tc-02-classification/213-rec-02-1-en-audiometric-classification-of-hearing-impairments/file March 17, 2020
http://www.biap.org/es/recommandations/r... Regarding the stapedial reflexes, more than half of the patients (52.6 %) did not exhibit reflexes in both ears.

In acuphenometry, regarding frequency, 78.9 % of the patients reported the presence of tinnitus at high frequencies, such as 6,000 Hz, and only 21.1 % of the subjects stated perceiving tinnitus at low frequencies (250 and 500 Hz). This result was maintained after 6 months of therapy, in the reassessment session. Regarding tinnitus loudness, a comparison between pre- and post-treatment values was conducted using the chi-squared test, and a statistically significant difference was observed (► Table 6).

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Table 6
Comparisons between the tinnitus loudness values obtained in pre- and post-treatment Acuphenometry

A Shapiro-Wilk test was also performed to verify the relationship between the initial and final tinnitus loudness in acuphenometry and the amount of medications used by the participants. A statistically significant difference was observed in the group that used 1 to 3 drugs in the final acuphenometry (p = 0.037), exhibiting a smaller reduction in tinnitus loudness.

Regarding hearing hypersensitivity, participants were classified based on the values obtained in the LDLs, according to the criteria proposed by Goldstein et al.²³23 Goldstein B, Shulman A. Tinnitus, hyperacusis and loudness discomfort level test: a preliminary report. Int Tinnitus J 1996; 2(01):83-89 Eleven of the 19 participants reported discomfort with intense sounds during anamnesis. Ten exhibited auditory hypersensitivity in the right ear, and twelve in the left ear, determined by LDLs examination.

The comparison between pre- and post-treatment LDLs values in the sample was performed using the chi-squared test, and statistically significant differences were not observed. Data regarding the comparisons between initial and final LDLs are shown in ► Table 7. Considering the various tests applied in the pre- and post-treatment evaluations, the results are shown in ► Table 8.

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Table 7
Comparisons between the pre- and post-treatment discomfort thresholds, per ear

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Table 8
Comparison between the results obtained in the different pre- and post-treatment assessments

To verify the influence of hearing loss on the auditory processing tests, a comparison was conducted using the results obtained in the patients with and without hearing loss. A statistically significant difference (p = 0.045) was observed only in the SSW test in the right competitive condition. The other tests did not show statistical differences between individuals with and without hearing loss.

Discussion

Regarding gender, 57.9 % of the participants were female and 42.1 % were male, demonstrating an almost equivalent distribution. The literature is controversial concerning the influence of gender on the prevalence of tinnitus. Some studies have shown that tinnitus is more prevalent in males,²⁴24 Axelsson A, Ringdahl A. Tinnitus-a study of its prevalence and characteristics. Br J Audiol 1989;23(01):53-62^,²⁵25 Meikle MB, Vernon J, Johnson RM. The perceived severity of tinnitus. Some observations concerning a large population of tinnitus clinic patients. Otolaryngol Head Neck Surg 1984;92(06):689-696 while others suggest a predominance in females²⁶26 Mondelli MFCG, Rocha AB. Correlação entre os achados audiológicos e incômodo com zumbido. Arq Int Otorrinolaringol 2011; 15(02):172-180^,²⁷27 Pinto PCL, Sanches TG, Tomita S. Avaliação da relação entre severidade do zumbido e perda auditiva, sexo e idade do paciente. Braz J Otorrinolaryngol 2010;76(01):18-24. One possible reason for the higher prevalence in males would be the fact that they are more present in occupational environments with high levels of noise, and, therefore, are more predisposed to hearing loss and tinnitus.²⁸28 Stouffer JL, Tyler RS. Characterization of tinnitus by tinnitus patients. J Speech Hear Disord 1990;55(03):439-453 On the other hand, the more considerable occurrence in women may be related to the fact that they are more careful and concerned regarding their health, seeking medical assistance more frequently.²⁹29 Coelho CCB, Sanchez TG, Bento RF. Características do zumbido em pacientes atendidos em serviço de referência. Arq Int Otorrinolaringol 2004;8(03):284-292

The mean age of the sample was 59 years old (±9.6), ranging from 40 to 74 years old. This average was close to that found in other studies, evidencing a higher prevalence of tinnitus in individuals around the age of 60 years old.²⁶26 Mondelli MFCG, Rocha AB. Correlação entre os achados audiológicos e incômodo com zumbido. Arq Int Otorrinolaringol 2011; 15(02):172-180^,²⁷27 Pinto PCL, Sanches TG, Tomita S. Avaliação da relação entre severidade do zumbido e perda auditiva, sexo e idade do paciente. Braz J Otorrinolaryngol 2010;76(01):18-24^,³⁰30 Pinto PCL, Hoshino AC, Tomita S. Características do pacientes com queixa de zumbido atendidos em ambulatório especializado-HUCFF. Cad Saude Colet 2008;16(03):437-448 It is believed that this finding may be related to possible presbycusis, since it is generally agreed that tinnitus is related to hearing loss, and presbycusis affects individuals as of 60 years of age.³¹31 Sanchez TG, Medeiros IRT, LevyCPD,RamalhoJRO,BentoRF. Zumbido em pacientes com audiometria normal: caracterização clínica e repercussões. Rev Bras Otorrinolaringol 2005;71(04):427-431^,³²32 Lessa AH, Hennig TR, Costa MC, Rossi AG. Resultados da reabilitação auditiva emidosos usuários de próteses auditivas avaliados com teste dicótico. CoDAS 2013;25(02):169-175

Considering tinnitus characteristics, 73.6 % of the participants described the disorder as a wheezing or cricket sound. The predominance of these findings was also observed in other studies, corroborating with the present research.³³33 Steinmetz LG, ZeigelboimBS, Lacerda AB,Morata TC,Marques JM. Caracteristicas do zumbido em trabalhadores expostos a ruído. Rev Bras Otorrinolaringol 2009;75(01):7-14^,³⁴34 Cruz AP. Estimulação magnética transcraniana no tratamento do zumbido [Tese]. Campina Grande (PB): Universidade Estadual da Paraíba; 2014 A total of 60 % of the participants were bilaterally affected by tinnitus, regardless of loudness. Approximately 26.4 % stated that the symptom was unilateral, and 10.5 % reported occurrence in the head. However, even though in the literature studies also describe a higher prevalence of bilateral tinnitus,²⁹29 Coelho CCB, Sanchez TG, Bento RF. Características do zumbido em pacientes atendidos em serviço de referência. Arq Int Otorrinolaringol 2004;8(03):284-292^,³⁰30 Pinto PCL, Hoshino AC, Tomita S. Características do pacientes com queixa de zumbido atendidos em ambulatório especializado-HUCFF. Cad Saude Colet 2008;16(03):437-448^,³⁴34 Cruz AP. Estimulação magnética transcraniana no tratamento do zumbido [Tese]. Campina Grande (PB): Universidade Estadual da Paraíba; 2014 there is no consensus regarding its location.³³33 Steinmetz LG, ZeigelboimBS, Lacerda AB,Morata TC,Marques JM. Caracteristicas do zumbido em trabalhadores expostos a ruído. Rev Bras Otorrinolaringol 2009;75(01):7-14 Sanches et al suggested that the location of tinnitus could be related to its etiology.³⁵35 Sanches TG, Bento RF, Miniti A, Câmara J. Zumbido: características e epidemiologia. Experiência do hospital das clínicas da Faculdade de Medicina da Universidade Federal de São Paulo. Braz J Otorrinolaryngol 1997;63(03):229-235

Regarding the duration of tinnitus, 84.2 % of the volunteers reported it as constant, and only 15.8 % considered it variable. This finding was also observed in other researches, thus corroborating with the present study.³⁰30 Pinto PCL, Hoshino AC, Tomita S. Características do pacientes com queixa de zumbido atendidos em ambulatório especializado-HUCFF. Cad Saude Colet 2008;16(03):437-448^,³³33 Steinmetz LG, ZeigelboimBS, Lacerda AB,Morata TC,Marques JM. Caracteristicas do zumbido em trabalhadores expostos a ruído. Rev Bras Otorrinolaringol 2009;75(01):7-14 Concerning loudness, ~ 50 % of the subjects reported it as moderate, a finding that was also verified in other studies.³³33 Steinmetz LG, ZeigelboimBS, Lacerda AB,Morata TC,Marques JM. Caracteristicas do zumbido em trabalhadores expostos a ruído. Rev Bras Otorrinolaringol 2009;75(01):7-14^,³⁵35 Sanches TG, Bento RF, Miniti A, Câmara J. Zumbido: características e epidemiologia. Experiência do hospital das clínicas da Faculdade de Medicina da Universidade Federal de São Paulo. Braz J Otorrinolaryngol 1997;63(03):229-235 Cruz observed that the symptom appeared abruptly in 80 % of the participants.³⁴34 Cruz AP. Estimulação magnética transcraniana no tratamento do zumbido [Tese]. Campina Grande (PB): Universidade Estadual da Paraíba; 2014 In the present study, the onset of the disorder occurred practically in a similar way, in which nine patients reported that tinnitus occurred suddenly and progressively. Nonetheless, although result similarity has been evidenced with that found in other studies, in relation to the data regarding the duration of tinnitus, loudness, and the onset of the symptom, it is known that tinnitus is subjective and difficult to characterize, and, therefore, these factors can vary significantly in each individual.

In our sample, 57.9 % of the participants reported discomfort with intense sounds. According to the literature, ~ 40 % of the individuals who have tinnitus exhibit high sensitivity to intense sounds. This result can be explained due to the fact that tinnitus and auditory hypersensitivity have the same pathophysiological basis.³⁶36 Sanchez TG, Pedalini MEB, Bento RF. Hiperacusia: artigo de revisão. Arquivos Fundação Otorrinolaringol 1999;3(04):184-188^,³⁷37 Bassanelo A. Estudo da hiperacusia: revisão bibliográfica [Monography]. São Paulo (SP): CEFAC; 2000 Also, an imaging study stated that peripheral hearing loss can generate poor adaptation in the central auditory system, and has, as the primary risk factor, tinnitus and hearing hypersensitivity³⁸38 MühlnickelW, Elbert T, Taub E, Flor H. Reorganization of auditory cortex in tinnitus. Proc Natl Acad Sci U S A 1998;95(17): 10340-10343.

Dizziness was observed in 42.1 % of the participants. This symptom as well as tinnitus may be due to changes in the same structure, the inner ear, and, therefore, often occurring concomitantly.³⁹39 Almeida LD, Mitre EI, Lemos L, Simões ECC. Vestibulometria em indivíduos com zumbido e exame audiológico normal. CEFAC 2005;7(03):382-387 Headaches and neck pain were the main findings related to the frequently reported pain. Injuries to the neck, middle ear, headaches, and sinusitis increase the risk of tinnitus from 28 to 35 %.⁴⁰40 Sindhusake D, Golding M, Newall P, Rubin G, Jakobsen K, Mitchell P. Risk factors for tinnitus in a population of older adults: the blue mountains hearing study. Ear Hear 2003;24(06):501-507

Adequate eating habits are essential to maintaining the proper functioning of the inner ear, which practically lacks energy reserves. Thus, in addition to nourishment every 3 hours, it is necessary to lower the consumption of fat and sugar.⁴¹41 Sanches TG, Medeiros IRT, Coelho FF, Constantino GTL, Bento RF. Frequência de alterações da glicose, lipídeos e hormônios tireoidianos em pacientes com zumbido. Arq Int Otorrinolaringol 2001;5(01):6-10^,⁴²42 Almeida TAS, Samelli AG, Mecca FDN, Martino E, Paulino AM. Sensação subjetiva dozumbido pré e pós-intervenção nutricional. Pro Fono 2009;21(04):291-296 Approximately 25 % of the individuals stated eating from 1 to 3 meals per day, and 57.9 % reported sweet food ingestion abuse, features that may contribute to the worsening of tinnitus. Therefore, in the present study, food guidelines were given the utmost importance during all of the appointments with the patients, since, even though the extent to which this factor interferes in the worsening of tinnitus is yet unknown, good eating habits may be a determining factor in the improvement of the symptom. Furthermore, in the present study, special attention was given to caffeine intake, given it is known to be a central nervous system stimulant and vasoconstrictor, which may worsen the perception of tinnitus. A study has shown that physicians believe that 50 % of the individuals complaining of tinnitus improve their clinical conditions with reduced caffeine intake.⁴³43 Weber SR, Périco E. Zumbido no trabalhador exposto ao ruído. Rev Soc Bras Fonoaudiol 2011;16(04):459-465

Regarding previous disease history, head traumas, cardiac disorders, diabetes and high cholesterol, high blood pressure, and migraines were reported; the latter two retaining the highest occurrences in the sample. The possibility of occurrence of these various factors and the probable interaction between them encumbers determining the cause of tinnitus.⁴³43 Weber SR, Périco E. Zumbido no trabalhador exposto ao ruído. Rev Soc Bras Fonoaudiol 2011;16(04):459-465

Regarding medication use, 52.7 % of the individuals took some type of drug, and 26.3 % reported having used tinnitus relief medication. A recent study stated that pharmacotherapy can trigger or aggravate vestibular symptoms such as vertigo, tinnitus, and dizziness in the elderly, and attention and caution are therefore required in medication prescription in this population.⁴⁴44 Paulino CA, Benedito JS. Uso de medicamentos entre pacientes idosos vestibulopatas. Rev Equil Corporal Saúde 2011;3(02):10-22

It was observed that 21.1 % of the participants reported family histories of hearing loss, 31.6 % of tinnitus, and 42.1 % of diabetes. This result corroborates a study from the literature that states that 54.7 % of the subjects with tinnitus complaints have family members with hearing loss, tinnitus or diabetes.⁴³43 Weber SR, Périco E. Zumbido no trabalhador exposto ao ruído. Rev Soc Bras Fonoaudiol 2011;16(04):459-465

The vast majority of studies with tinnitus patients considered hearing within the normal range when the air thresholds at frequencies between 500 and 8,000 Hz are < 25 dBHL.¹⁰10 Branco-Barreiro FCA. Zumbido em adultos ouvintes normais: um estudo sobre o processamento auditivo central e o handicap [Thesis]. São Paulo (SP): Pontifícia Universidade Católica de São Paulo; 1998^,¹¹11 Ryu IS, Ahn JH, Lim HW, Joo KY, Chung JW. Evaluation of masking effects on speech perception in patients with unilateral chronic tinnitus using the hearing in noise test. Otol Neurotol 2012;33 (09):1472-1476^,⁴⁵45 Acrani IO, Pereira LD. Resolução temporal e atenção seletiva de indivíduos com zumbido. Pro Fono 2010;22(03):233-238 However, in these individuals, it is believed that a significant lesion is present in the external hair cells at frequencies > 8,000 Hz, which may justify the presence of tinnitus. This lesion is detected by high-frequency audiometry, although few establishments have this equipment and, therefore, the evaluation is not conducted.⁴⁶46 Corona AP, Figuerêdo RBS. Influência do zumbido nos limiares auditivos de altas frequências. Rev Soc Bras Fonoaudiol 2007;12 (01):29-33

47 Burguetti FAR, Peloggia AG, Carvallo RMM. Limiares de audibilidade emaltas frequências em indivíduos com queixa de zumbido. Arq Int Otorrinolaringol 2004;8(04):277-283^-⁴⁸48 Klagenberg KF, Oliva FC, Gonçalves CGO, Lacerda ABM, Garofani VG, Zeigelboim BS. Audiometria de altas frequências no diagnóstico complementar em audiologia: uma revisão da literatura nacional. Rev Soc Bras Fonoaudiol 2011;16(01): 109-114 Nevertheless, it is known that hearing loss triggers the occurrence of tinnitus⁴⁹49 Auerbach BD, Rodrigues PV, Salvi RJ. Central gain control in tinnitus and hyperacusis. Front Neurol 2014;5:206 and, regardless of whether it occurs at the apex or the base of the cochlea, it is believed that individuals who complain of tinnitus have lesions of external hair cells in a specific region of the organ. In the present study, the audiometries were classified according to the Biap²¹21 International Bureau for Audiophonology Rec_02-1_en Page 1 of 2 BIAP Recommendation 02/1: Audiometric Classification of Hearing Impairments http://www.biap.org/es/recommandations/recommendations/tc-02-classification/213-rec-02-1-en-audiometric-classification-of-hearing-impairments/file March 17, 2020
http://www.biap.org/es/recommandations/r... criteria, which considers a greater number of frequencies in the average, from 500 to 4,000 Hz. Thus, ~ 60 % of the sample was composed of subjects who exhibited hearing within the normal standards, bilaterally, which does not corroborate with the findings in the literature due to the previously mentioned reasons.

In acuphenometry, 78.9 % of the volunteers exhibited tinnitus at high frequencies, as of 6,000 Hz. The same result was described in a study that analyzed the frequency and loudness of tinnitus in individuals with presbycusis. However, significant associations between the frequency range of the highest auditory threshold and the frequency of tinnitus were not observed.⁵⁰50 Seimetz BM, Teixeira AR, Rosito LPS, Flores LS, Pappen CH, Dalligna C. Análise do pitch e loudness do zumbido em indivíduos com presbiacusia. Clin Biomed Res 2014:34 Regarding tinnitus loudness, a statistically significant difference was observed in the pre- and postintervention evaluation (p = 0.001), evidencing the efficacy of tinnitus habituation therapy in reducing tinnitus loudness.

The existence of a relationship between the loudness of the initial and final tinnitus in acuphenometry and the use of medication was also verified. A statistically significant difference was observed in the group of patients who used 1 to 3 drugs in the final loudness (p = 0.037). Of the 6 patients that were part of this group, 50 % exhibited a decrease in tinnitus loudness, and among the others that did not show improvement, 2 maintained the final loudness value and 1 obtained a worsening of 1.0 dB. It is worth mentioning that the latter had already used medication for tinnitus relief. The pharmacological groups that these patients were exposed to were not described, although it is believed that the use of drugs can contribute to generating resistance in reducing the loudness of tinnitus.⁴⁴44 Paulino CA, Benedito JS. Uso de medicamentos entre pacientes idosos vestibulopatas. Rev Equil Corporal Saúde 2011;3(02):10-22

Regarding auditory hypersensitivity, the values of the pre- and post-treatment discomfort threshold were compared, and a statistically significant difference was not observed in both ears (p = 0.416 and 0.287 in the right and left ears, respectively). However, there was an increase in the number of participants who had negative discomfort thresholds in both ears, that is, they did not exhibit auditory hypersensitivity after treatment. We believe that statistical significance was not achieved due to the small size of the sample. Nonetheless, a post-treatment trend of reduction in the number of patients classified as displaying severe discomfort thresholds was observed, in addition to an increase in the number of individuals with negative discomfort thresholds, indicating a decrease in the absolute number of individuals with auditory hypersensitivity.

Regarding the auditory processing evaluation, a statistically significant difference was not observed in the pre- and post-treatment evaluation. Although the reduction in the perception of the individual on the loudness and annoyance of tinnitus was verified, as well as the improvement of the impact of this symptom on the quality of life of the participant, the influence of these factors in the development of auditory processing abilities was not observed. The comparison of the auditory processing test results among normal hearing patients and those with hearing loss showed a statistically significant influence (p = 0.045) regarding the SSW test in the right competitive condition. This condition is known to be directly related to changes in the left hemisphere, which is dominant for language. Therefore, even mild hearing loss may influence the linguistic aspects of the patient.⁵¹51 Araújo NSS, Ruiz ACP, Pereira LD. SSW- Análise quantitativa dos erros: inventário de atendimento de 2005. Rev CEFAC 2009;11(01):

In the comparison between the initial and final THI, a statistically significant difference was observed regarding the functional, emotional, and total aspects. Statistical significance was not achieved regarding the catastrophic aspect. As for VAS, a statistically significant difference was also observed in the comparison between the initial and final values. These results demonstrate a reduction in the impact of tinnitus on the quality of life of the patient and the discomfort caused by the symptom. It is believed that guideline emphasis, as well as follow-ups of patients through frequent appointments, was of fundamental importance in their progress, contributing to the strengthening of the therapist-patient bond, which consequently generates more confidence in the proposed treatment, and facilitates patient acceptance in relation to the changes in attitude required to improve tinnitus.

Finally, due to the small sample size of the present study, we need more data to find the generalizability of our results. The present study is indeed a preliminary step to move toward a comprehension on the influence of tinnitus therapy on auditory abilities. Further investigation in a larger sample of tinnitus patients is therefore warranted, along with an exploration of the impact tinnitus may have on the auditory processing skills.

Conclusion

Tinnitus habituation therapy was effective in reducing the perception of tinnitus loudness and discomfort, as well as the impact of the symptom on the quality of life of the patient. However, the influence of these factors on the improvement of auditory processing skills was not observed.

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Jafaria Z, Toufan R, Aghamollaei M, Asad Malayeri S, Rahimzadeh S, Esmaili M. Imapct of tinnitus on divided and selective auditory attention in workers expose to occupational noise. Advances in cognitive. Science 2012;14(03):51-62
²
Okada DM, Onishi ET, Chami FL, Borin A, Cassola N, Guerreiro VM. O uso da acupuntura para alívio imediato do zumbido. Rev Bras Otorrinolaringol 2006;72(02):182-186
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Lasisi AO, Abiona T, Gureje O. Tinnitus in the elderly: Profile, correlates, and impact in the Nigerian Study of Ageing. Otolaryngol Head Neck Surg 2010;143(04):510-515
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Ryu IS, Ahn JH, Lim HW, Joo KY, Chung JW. Evaluation of masking effects on speech perception in patients with unilateral chronic tinnitus using the hearing in noise test. Otol Neurotol 2012;33 (09):1472-1476
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Esteves CC, Brandão FN, Siqueira CGA, Carvalho SAS. Audição, zumbido e qualidade de vida: um estudo piloto. Rev CEFAC 2012; 14(05):836-843
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Coelho CCB, Sanchez TG, Bento RF. Características do zumbido em pacientes atendidos em serviço de referência. Arq Int Otorrinolaringol 2004;8(03):284-292
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Pinto PCL, Hoshino AC, Tomita S. Características do pacientes com queixa de zumbido atendidos em ambulatório especializado-HUCFF. Cad Saude Colet 2008;16(03):437-448
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Sanchez TG, Medeiros IRT, LevyCPD,RamalhoJRO,BentoRF. Zumbido em pacientes com audiometria normal: caracterização clínica e repercussões. Rev Bras Otorrinolaringol 2005;71(04):427-431
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Steinmetz LG, ZeigelboimBS, Lacerda AB,Morata TC,Marques JM. Caracteristicas do zumbido em trabalhadores expostos a ruído. Rev Bras Otorrinolaringol 2009;75(01):7-14
³⁴
Cruz AP. Estimulação magnética transcraniana no tratamento do zumbido [Tese]. Campina Grande (PB): Universidade Estadual da Paraíba; 2014
³⁵
Sanches TG, Bento RF, Miniti A, Câmara J. Zumbido: características e epidemiologia. Experiência do hospital das clínicas da Faculdade de Medicina da Universidade Federal de São Paulo. Braz J Otorrinolaryngol 1997;63(03):229-235
³⁶
Sanchez TG, Pedalini MEB, Bento RF. Hiperacusia: artigo de revisão. Arquivos Fundação Otorrinolaringol 1999;3(04):184-188
³⁷
Bassanelo A. Estudo da hiperacusia: revisão bibliográfica [Monography]. São Paulo (SP): CEFAC; 2000
³⁸
MühlnickelW, Elbert T, Taub E, Flor H. Reorganization of auditory cortex in tinnitus. Proc Natl Acad Sci U S A 1998;95(17): 10340-10343
³⁹
Almeida LD, Mitre EI, Lemos L, Simões ECC. Vestibulometria em indivíduos com zumbido e exame audiológico normal. CEFAC 2005;7(03):382-387
⁴⁰
Sindhusake D, Golding M, Newall P, Rubin G, Jakobsen K, Mitchell P. Risk factors for tinnitus in a population of older adults: the blue mountains hearing study. Ear Hear 2003;24(06):501-507
⁴¹
Sanches TG, Medeiros IRT, Coelho FF, Constantino GTL, Bento RF. Frequência de alterações da glicose, lipídeos e hormônios tireoidianos em pacientes com zumbido. Arq Int Otorrinolaringol 2001;5(01):6-10
⁴²
Almeida TAS, Samelli AG, Mecca FDN, Martino E, Paulino AM. Sensação subjetiva dozumbido pré e pós-intervenção nutricional. Pro Fono 2009;21(04):291-296
⁴³
Weber SR, Périco E. Zumbido no trabalhador exposto ao ruído. Rev Soc Bras Fonoaudiol 2011;16(04):459-465
⁴⁴
Paulino CA, Benedito JS. Uso de medicamentos entre pacientes idosos vestibulopatas. Rev Equil Corporal Saúde 2011;3(02):10-22
⁴⁵
Acrani IO, Pereira LD. Resolução temporal e atenção seletiva de indivíduos com zumbido. Pro Fono 2010;22(03):233-238
⁴⁶
Corona AP, Figuerêdo RBS. Influência do zumbido nos limiares auditivos de altas frequências. Rev Soc Bras Fonoaudiol 2007;12 (01):29-33
⁴⁷
Burguetti FAR, Peloggia AG, Carvallo RMM. Limiares de audibilidade emaltas frequências em indivíduos com queixa de zumbido. Arq Int Otorrinolaringol 2004;8(04):277-283
⁴⁸
Klagenberg KF, Oliva FC, Gonçalves CGO, Lacerda ABM, Garofani VG, Zeigelboim BS. Audiometria de altas frequências no diagnóstico complementar em audiologia: uma revisão da literatura nacional. Rev Soc Bras Fonoaudiol 2011;16(01): 109-114
⁴⁹
Auerbach BD, Rodrigues PV, Salvi RJ. Central gain control in tinnitus and hyperacusis. Front Neurol 2014;5:206
⁵⁰
Seimetz BM, Teixeira AR, Rosito LPS, Flores LS, Pappen CH, Dalligna C. Análise do pitch e loudness do zumbido em indivíduos com presbiacusia. Clin Biomed Res 2014:34
⁵¹
Araújo NSS, Ruiz ACP, Pereira LD. SSW- Análise quantitativa dos erros: inventário de atendimento de 2005. Rev CEFAC 2009;11(01):

Publication Dates

Publication in this collection
12 Mar 2021
Date of issue
Jan-Mar 2021

History

Received
17 July 2019
Accepted
13 Jan 2020

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

[1] ¹
Jafaria Z, Toufan R, Aghamollaei M, Asad Malayeri S, Rahimzadeh S, Esmaili M. Imapct of tinnitus on divided and selective auditory attention in workers expose to occupational noise. Advances in cognitive. Science 2012;14(03):51-62

[2] ²
Okada DM, Onishi ET, Chami FL, Borin A, Cassola N, Guerreiro VM. O uso da acupuntura para alívio imediato do zumbido. Rev Bras Otorrinolaringol 2006;72(02):182-186

[3] ³
Lasisi AO, Abiona T, Gureje O. Tinnitus in the elderly: Profile, correlates, and impact in the Nigerian Study of Ageing. Otolaryngol Head Neck Surg 2010;143(04):510-515

[4] ⁴
Pinto PCL, Sanchez TG, Tomita S. Avaliação da relação entre severidade do zumbido e perda auditiva, sexo e idade do paciente. Rev Bras Otorrinolaringol (Engl Ed) 2010;76(01):18-24

[5] ⁵
Baguley DM. Hyperacusis. J R Soc Med 2003;96(12):582-585

[6] ⁶
Lewis JE, Stephens SD, McKenna L. Tinnitus and suicide. Clin Otolaryngol Allied Sci 1994;19(01):50-54

[7] ⁷
Langers DRM, de Kleine E, van Dijk P. Tinnitus does not require macroscopic tonotopic map reorganization. Front Syst Neurosci 2012;6(02):2

[8] ⁸
Huang CY, Lee HH, Chung KC, Chen HC, Shen YJ, Wu JL. Relationships among speech perception, self-rated tinnitus loudness and disability in tinnitus patients with normal pure-tone thresholds of hearing. ORL J Otorhinolaryngol Relat Spec 2007;69(01):25-29

[9] ⁹
Newman CW, Wharton JA, Shivapuja BG, Jacobson GP. Relationships among psychoacoustic judgments, speech understanding ability and self-perceived handicap in tinnitus subjects. Audiology 1994;33(01):47-60

[10] ¹⁰
Branco-Barreiro FCA. Zumbido em adultos ouvintes normais: um estudo sobre o processamento auditivo central e o handicap [Thesis]. São Paulo (SP): Pontifícia Universidade Católica de São Paulo; 1998

[11] ¹¹
Ryu IS, Ahn JH, Lim HW, Joo KY, Chung JW. Evaluation of masking effects on speech perception in patients with unilateral chronic tinnitus using the hearing in noise test. Otol Neurotol 2012;33 (09):1472-1476

[12] ¹²
Esteves CC, Brandão FN, Siqueira CGA, Carvalho SAS. Audição, zumbido e qualidade de vida: um estudo piloto. Rev CEFAC 2012; 14(05):836-843

[13] ¹³
Martins ML, et al. Interferência do zumbido no reconhecimento e percepção de fala. Anais do XXIII Congresso Brasileiro e IX Congresso Internacional de Fonoaudiologia. Salvador/BA, Brazil, 2015

[14] ¹⁴
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[15] ¹⁵
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Hyperacusis	Discomfort Threshold
Negative	95 db or > at all frequencies
Mild	80-90 db at two or more frequencies
Moderate	65-75 at two or more frequencies
Severe	60 db or < at two or more frequencies

Test	Hearing Abilities	Performance Parameters
NS	Auditory Closing	Monoaural presentation at 40 dBSL of 25 monosyllables with ipsilateral white noise at a S/R ratio = + 5
SSW	Figure-background for verbal sounds Binaural integration Binaural separation	Dichotic presentation at 50 dBSL of four alternate disyllables.
PPS	Temporal ordination	Monoaural presentation at 50 dBSL of three pure tones in sequence for the patient to designate as delicate/heavy (sharp/bass).
GIN	Temporal resolution	Monoaural presentation at 50 dBSL for the detection of silence intervals in the noise.
MLD	Binaural interaction	Binaural presentation at 50 dBSL of noise and pulsatile tones of 500 Hz, in and out of phase.

Tinnitus characteristics		n	%
Sound description	Cricket	7	36.8
	Wheezing/Creaking	7	36.8
	Pressure Pot	2	10.5
	Cicada	1	5.3
	Bee	1	5.3
	Drops	1	5.3
Localization	RE	4	21.1
	LE	1	5.3
	RE > LE	4	21.1
	LE > RE	4	21.1
	RE = LE	4	21.1
	Head	2	10.5
Duration of tinnitus	Constant	16	84.2
Duration of tinnitus	Variable	2	15.8
Loudness	Mild	5	26.3
	Moderate	9	47.4
	Intense	2	10.5
	Variable	3	15.8
Occurrence	Sporadic	2	10.5
	Frequent	4	21.1
	Very frequent	13	68.4
Onset	Sudden	9	47.4
Onset	Progressive	10	52.6

Discomfort Threshold		N	%	p-value
Initial RE	Negative Mild Moderate Severe	6 6 3 4	31.6 31.6 15.8 21.1	0.416
Final RE	Negative Mild Moderate Severe	9 6 3 1	47.4 31.6 15.8 5.3	0.416
Initial LE	Negative Mild Moderate Severe	7 5 3 4	36.8 26.3 15.8 21.1	0.287
Final LE	Negative Mild Moderate Severe	11 2 5 1	57.9 10.5 26.3 5.3	0.287

	Assessments		Minimum	Maximum	Average	Standard deviation	p-value
CAP	SSW CR SSW CL NS RE NS LE PPS RE PPS LE GIN RE GIN LE MLD	Initial Final Initial Final Initial Final Initial Final Initial Final Initial Final Initial Final Initial Final Initial Final	57.5 60.0 18.0 17.5 72.0 80.0 76.0 84.0 30.0 73.3 46.6 73.3 5.0 5.0 5.0 5.0 8.0 8.0	100 100 98.0 97.5 100 100 100 100 100 100 100 100 15.0 12.0 12.0 10.0 20.0 18.0	83.6 85.7 72.8 76.8 91.3 92.6 91.7 93.8 88.5 90.6 89.7 90.6 7.0 7.3 8.2 8.5 13.5 12.9	12.4 11.5 23.3 20.6 7.9 6.5 7.3 5.0 16.7 8.7 13.7 8.4 2.8 2.4 1.8 1.8 3.3 2.8	0.243 0.061 0.299 0.082 0.592 0.948 0.418 0.626 0.626
THI	Functional Emotional Catastrophic Total	Initial Final Initial Final Initial Final Initial Final	0.0 0.0 0.0 0.0 0.0 0.0 8.0 4.0	28.0 20.0 30.0 28.0 14.0 14.0 72.0 54.0	12.5 7.6 12.6 8.0 6.9 6.5 32.1 21.6	8.3 6.5 8.8 6.9 4.3 3.7 19.5 13.7	0.044* 0.004* 0.706 0.023*
VAS	Initial Final	2.0 1.0	10.0 8.0	6.7 4.9	2.4 2.1	0.001*