Abstract

Introduction

Tinnitus and sound intolerance are frequent and subjective complaints that may have an impact on a patient's quality of life.

Objective

To present a review of the salient points including concepts, pathophysiology, diagnosis and approach of the patient with tinnitus and sensitivity to sounds.

Methods

Literature review with bibliographic survey in LILACS, SciELO, Pubmed and MEDLINE database. Articles and book chapters on tinnitus and sound sensitivity were selected. The several topics were discussed by a group of Brazilian professionals and the conclusions were described.

Results

The prevalence of tinnitus has increased over the years, often associated with hearing loss, metabolic factors and inadequate diet. Medical evaluation should be performed carefully to guide the request of subsidiary exams. Currently available treatments range from medications to the use of sounds with specific characteristics and meditation techniques, with variable results.

Conclusion

A review on tinnitus and auditory sensitivity was presented, allowing the reader a broad view of the approach to these patients, based on scientific evidence and national experience.

KEYWORDS
Tinnitus; Hyperacusis; Hearing loss; Hearing aids

Resumo

Introdução

Zumbido e intolerância a sons são queixas frequentes e subjetivas que podem ter impacto na qualidade de vida do paciente.

Objetivo

Apresentar uma revisão dos principais pontos, inclusive conceitos, fisiopatologia, diagnóstico e abordagem do paciente com zumbido e sensibilidade a sons.

Método

Revisão da literatura com levantamento bibliográfico na base de dados da LILACS, SciELO, Pubmed e MEDLINE. Foram selecionados artigos e capítulos de livros sobre zumbido e sensibilidade a sons. Os diversos tópicos foram discutidos por um grupo de profissionais brasileiros e as conclusões, descritas.

Resultado

A prevalência de zumbido tem aumentado ao longo dos anos, muitas vezes associado a perda auditiva, fatores metabólicos e erros alimentares. A avaliação médica deve ser feita minuciosamente no sentido de orientar a solicitação de exames subsidiários. Os tratamentos disponíveis atualmente variam de medicamentos ao uso de sons com características específicas e técnicas de meditação, com resultados variáveis.

Conclusão

Foi apresentada uma revisão sobre os temas que permitindo ao leitor uma visão ampla da abordagem dos pacientes com zumbido e sensibilidade auditiva baseada em evidências científicas e experiência nacional.

PALAVRAS-CHAVE
Zumbido; Hiperacusia; Perda auditiva; Auxiliares de audição

Introduction

Tinnitus can be defined as a symptom related to the conscious perception of an auditory sensation in the absence of external sound stimuli. It is a prevalent otological symptom, that can have severe physical and emotional consequences. ¹1 Seidman MD, Jacobson GP. Update on tinnitus. Otolaryngol Clin N Am. 1996;29:455-65.

2 Jastreboff PJ. Phantom auditory perception (tinnitus): mechanisms of generation and perception. Neurosci Res. 1990;8:221-54.^-33 Oiticica J, Bittar RSM. Tinnitus prevalence in the city of Sao Paulo. Braz J Otorhinolaryngol. 2015;81:167-76.

Tinnitus is often accompanied by some intolerance to external sounds, which may be:

1. Hyperacusis: clinically, the patient has light to moderate sensitivity to sounds intensity, with physical discomfort. The Loudness Discomfort Level (LDL) measurement is below 90-100 dB NA. It is the most frequently studied type in studies.

2. Misophonia: clinically, the patient has aversion to specific sounds, usually low and repetitive, which trigger strong discomfort. It depends on associations of the auditory pathway with the limbic system and on previous negative experience with these sounds, regardless of intensity. Although common in practice, it has been described only recently.

3. Phonophobia: clinically, the patient is afraid of exposure to the sounds before they reach the discomfort level.

4. Recruitment: it is a cochlear phenomenon characterized by injury to outer hair cells (OHCs), of which auditory sensation is disproportionate to the increase in the physical intensity of the sound. Audiometry and immitanciometry show that there is a reduction in the auditory dynamic field. ⁴4 Jastreboff MM, Jastreboff PJ. Decreased sound tolerance and tinnitus retraining therapy (TRT). Aust New Zeal J Audiol. 2002;24:74-84.^,55 Sanchez TG, Pedalini MEB, Bento RF. Hiperacusia: artigo de revisão. Int Arch Otorhinolaryngol. 1999;3:184-8.

Tinnitus classification

There are several types of classifications,⁶6 Tunkel DE, Bauer CA, Sun GH, Rosenfeld RM, Chandrasekhar SS, Cunningham ER, et al. Clinical practice guideline: tinnitus. Otolaryngol Head Neck Surg. 2014;151:S1-40. and the ones most often used are those show in Table 1.

Epidemiology

According to the World Health Organization, 278 million people have tinnitus - approximately 15% of the world's population. This prevalence increases to 35% in individuals over 60 years of age.¹1 Seidman MD, Jacobson GP. Update on tinnitus. Otolaryngol Clin N Am. 1996;29:455-65. In a population study carried out in the city of São Paulo, there was a prevalence of 22%, more common in females (26% in women versus 17% in men) and increasely more common with aging. In most cases, tinnitus is mild and intermittent, and does not prompt the individual to seek medical assistance. ³3 Oiticica J, Bittar RSM. Tinnitus prevalence in the city of Sao Paulo. Braz J Otorhinolaryngol. 2015;81:167-76.^,77 Jastreboff PJ, Gray WC, Gold SL. Neurophysiological approach to tinnitus patients. Am J Otol. 1996;17:236-40. Hearing loss is associated with tinnitus in approximately 85-96% of cases, and only 8-10% of affected individuals have normal hearing.⁸8 Sanchez TG, Medeiros IR, Levy CP, Ramalho Jda R, Bento RF. Tinnitus in normally hearing patients: clinical aspects and repercussions. Braz J Otorhinolaryngol. 2005;71:427-31.

There are few studies on hyperacusis prevalence, but it is estimated to occur between 8-15% in the general population, around 3% in children and in 25-40% of those individuals who have tinnitus. ⁹9 Andersson G, Lindvall N, Hursti T, Carlbring P. Hypersensitivity to sound (hyperacusis): a prevalence study conducted via the Internet and post. Int J Audiol. 2002;41:545-54.^,1010 Coelho CB, Sanchez TG, Tyler RS. Hyperacusis, sound annoyance, and loudness hypersensitivity in children. Prog Brain Res. 2007;166:169-78.

Pathophysiology of tinnitus and hyperacusis

There are several hypotheses related to the mechanisms of tinnitus generation and hyperacusis. These can be divided didactically into peripheral and central mechanisms.

Peripheral mechanisms

• Spontaneous Otoacoustic Emissions (OAE): weak acoustic signal generated by the electromechanical activity of the OHCs and captured by microphones in the external acoustic meatus. Controversial mechanism, since individuals without a complaint of tinnitus may have spontaneous OAE.¹¹11 Penner MJ. Linking spontaneous otoacoustic emissions and tinnitus. Br J Audiol. 1992;26:115-23.

• Tectorial membrane detachment: cell injury cause by ototoxic agent or acoustic trauma, for instance, affects first the OHCs and, later, the inner hair cells (IHCs). ²2 Jastreboff PJ. Phantom auditory perception (tinnitus): mechanisms of generation and perception. Neurosci Res. 1990;8:221-54.^,1212 Stypulkowski PH. Mechanisms of salicylate ototoxicity. Hear Res. 1990;46:113-45. If the lesion affects only the OHCs, there may be loss of the tectorial membrane support and its direct contact with the IHCs, which generates sustained depolarization¹³13 Hazell JW, Jastreboff PJ. Tinnitus. I: Auditory mechanisms: a model for tinnitus and hearing impairment. J Otolaryngol. 1990;19:1-5. that can be perceived by the Central Nervous System (CNS) as tinnitus.¹⁴14 Baguley DM. Mechanisms of tinnitus. Br Med Bull. 2002;63:195-212.

• Disproportionate OHC lesion: the afferent pathway informs the CNS of the OHC position in relation to the tectorial membrane, and the efferent path regulates the length of the OHCs after information processing. As the efferent inhibitory impulse is the result of the summation of afferent impulses, there is a decrease in efferent activity. Since each efferent fiber innervates approximately 100 OHCs, this reduction in inhibition can affect areas of the basilar membrane with normal OHCs, causing them to contract freely; this stimulates the IHCs of these regions which could be responsible for the production of tinnitus.¹⁵15 Jastreboff PJ, Hazell JW. A neurophysiological approach to tinnitus: clinical implications. Br J Audiol. 1993;27:7-17.

• Neurotransmitter involvement: glutamate is the main excitatory neurotransmitter inside the cochlea, and an increase in its levels could increase cochlear activity, leading to the onset of tinnitus.¹⁶16 Pujol R, Puel JL. Excitotoxicity, synaptic repair, and functional recovery in the mammalian cochlea: a review of recent findings. Ann N Y Acad Sci. 1999;884:249-54. Physical or psychological stress increases dynorphin levels (opioid peptide), which potentiates glutamate action on NMDA (N-methyl-d-aspartate) receptors. The peripheral auditory lesion can lead to neuroplasticity of the auditory cortex, and this central reorganization, mediated by serotonin, may be responsible for the tinnitus.

Central mechanisms

• Increased spontaneous neural activity in the auditory pathway and in the dorsal cochlear nucleus: the cochlear lesion reduces the afferent stimulus and affects the autoregulation of the central auditory pathway with increased spontaneous activity, interpreted as tinnitus. Autoregulation would lead to exaggerated electrical stimulation in response to sound, resulting in hyperacusis. ²2 Jastreboff PJ. Phantom auditory perception (tinnitus): mechanisms of generation and perception. Neurosci Res. 1990;8:221-54.^,1717 Pienkowski M, Tyler RS, Roncancio ER, Jun HJ, Brozoski T, Dauman N, et al. A review of hyperacusis and future directions: Part II, Measurement, mechanisms, and treatment. Am J Audiol. 2014;23:420-36.

• Cross-talk between the fibers of the VIII cranial nerve: when loss of the myelin sheath (by tumor compression or vascular loop) leads to the formation of atypical neural connections between nerve fibers, the resulting spontaneous activity can be interpreted by the auditory cortex as tinnitus.¹⁸18 Møller AR. Pathophysiology of tinnitus. Otolaryngol Clin N Am. 2003;36:249-26.

• Neural plasticity and alteration in the Tonotopic Map: the reorganization of the tonotopic map in the cochlear nuclei, in response to a cochlear lesion, would lead to the activation of certain regions of the auditory cortex, which results in the perception of tinnitus and hyperacusis.¹⁹19 Kaltenbach JA, Zhang J, Finlayson P. Tinnitus as a plastic phenomenon and its possible neural underpinnings in the dorsal cochlear nucleus. Hear Res. 2005;206:200-26.

Neurophysiological model

The neurophysiological model described by Pawell Jastreboff in 1990²2 Jastreboff PJ. Phantom auditory perception (tinnitus): mechanisms of generation and perception. Neurosci Res. 1990;8:221-54. explains the process that causes an individual to be disturbed by tinnitus. It can be divided into three phases: generation, detection and perception (Fig. 1). Generation occurs mainly in the peripheral auditory pathways (cochlear or auditory nerve dysfunction). Detection occurs in the subcortical centers and the perception in the auditory cortex.

Depending on the impact of tinnitus on the affected individual, areas of the CNS (limbic system, frontal cortex, autonomic nervous system) and areas of negative association that increase patient discomfort, may be activated.¹³13 Hazell JW, Jastreboff PJ. Tinnitus. I: Auditory mechanisms: a model for tinnitus and hearing impairment. J Otolaryngol. 1990;19:1-5.

Somatosensory Tinnitus

The psychoacoustic characteristics of tinnitus (intensity and frequency) and its location may be altered in some patients, even temporarily, by different stimuli: forced contractions of the head, face and neck muscles, pressure of myofascial trigger points (TP). This characterizes somatosensory tinnitus.²⁰20 Sanchez TG, Rocha CB. Diagnosis and management of somatosensory tinnitus: review article. Clinics. 2011;66:1089-94. Somatic influences on auditory perception are a fundamental physiological characteristic inherent to every human being, not limited to patients with tinnitus. Temporomandibular joint (TMJ) disorders may affect the auriculotemporal nerve with disinhibition of the dorsal cochlear nucleus activity, through the serotonergic somatosensory pathway.

Medical evaluation

Tinnitus may be the initial manifestation of several systemic ear diseases or appear during the course of the latter. The diagnosis and treatment of these diseases can lead to tinnitus abolition or amelioration. The patient's clinical history should be directed to the complaint:

1. Characterization

   • - Type of sound: it is noteworthy to ask what type of sound the patient hears: waterfall, whistle, cicada, etc. Pulsatile tinnitus can be caused by vascular diseases. In that case, it is important to evaluate any synchronicity with the heart beat and variations with the decubitus position, exercises, stress, etc. The description of sound as fast and repetitive clicks, although without synchronicity with the pulsation, suggests a diagnosis of myoclonus.

   • - Time of symptom onset: neuroplastic alterations tend to be greater in more chronic tinnitus.

   • - Laterality and symmetry: unilateral or asymmetrical tinnitus may indicate retrocochlear diseases and should be investigated in a manner similar to that for an unilateral or asymmetric sensorineural hearing loss.

   • - Continuous or intermittent: the tinnitus may be continuous or intermittent.

   • - Modulation: represents the immediate change of tinnitus (intensity, frequency or location) in the presence of some stimulus: head movement, position, muscle contraction, stress, noise, etc.

2. Associated symptoms

   • - Hearing loss: common in patients with tinnitus, it may indicate an underlying otologic disease.

   • - Vertigo and dizziness: a specific neurotological diagnosis (dizziness, lightheadedness, decreased visualacuity, fainting sensation, etc.), periodicity (continuous or attacks), auditory symptoms (aural fullness or hypoacusis, worsening of tinnitus, autophony) and other balance complaints (lateropulsion, oscillopsia, gait changes).

   • - Exposure to noise: it can be occupational or recreational. The exposure period, frequency and intensity should be characterized. It is also important to verify the exposure to impact noises such as fireworks, shots and explosions, or barotrauma.

   • - Otologic history: it should include all otologic symptoms. In the presence of pain with normal otoscopy, questions should be asked about dental symptoms: bruxism or dental tightening, inappropriate habits such as chewing gum, biting pens or pencil, etc.

   • General symptoms and personal history: cardiovascular, metabolic, hormonal, neurological or psychiatric diseases and sleep quality.

   • - Use of medication and illicit drugs: current use or at the time of the tinnitus onset, paying special attention to the use of ototoxic drugs.

3. Improvement and worsening factors

   Patients with tinnitus usually report worsening in silent environments. Exposure to noise may be the temporary worsening factor for tinnitus; for instance, in the tonic tensor tympani syndrome and in the semicircular canal dehiscence.²¹21 Nields JA, Fallon BA, Jastreboff PJ. Carbamazepine in the treatment of Lyme disease-induced hyperacusis. J Neuropsychiatry Clin Neurosci. 1999;11:97-99. Studies on foods that interfere with tinnitus are scarce. Fish consumption one or more times a week and dairy restriction seem to reduce persistent tinnitus.²²22 McCormack A, Edmondson-Jones M, Mellor D, Dawes P, Munro KJ, Moore DR, et al. Association of dietary factors with presence and severity of tinnitus in a middle-aged UK population. PLOS ONE. 2014;9:e114711. Hearing loss is an important risk factor, as well as exposure to noise, hyperlipidemia, asthma, osteoarthritis, rheumatoid arthritis and thyroid diseases²³23 Kim H-J, Lee H-J, An S-Y, Sim S, Park B, Kim SW, et al. Analysis of the prevalence and associated risk factors of tinnitus in adults. PLOS ONE. 2015;10:e0127578. and systemic arterial hypertension.²⁴24 Figueiredo RR, de Azevedo AA, Penido de NO. Tinnitus and arterial hypertension: a systematic review. Eur Arch Otorhinolaryngol. 2015;272:3089-94.

   Depression and anxiety may be associated, especially in the most uncomfortable cases. ²⁵25 McCormack A, Edmondson-Jones M, Somerset S, Hall D. A systematic review of the reporting of tinnitus prevalence and severity. Hear Res. 2016;337:70-9.^,2626 Pattyn T, Van Den Eede F, Vanneste S, Cassiers L, Veltman DJ, Van De Heyning P, et al. Tinnitus and anxiety disorders: a review. Hear Res. 2016;333:255-65. Among the medications implicated in the onset of tinnitus are antibiotics (aminoglycosides), diuretics (furosemide), chemotherapeutics (cisplatin), as well as nonsteroidal anti-inflammatory drugs and quinine.²⁷27 Seidman MD, Babu S. Alternative medications and other treatments for tinnitus: facts from fiction. Otolaryngol Clin N Am. 2003;36:359-81.

4. Diet and habits

   • - Smoking: it may have an ototoxic effect.²⁸28 Paschoal CP, Azevedo MF. Cigarette smoking as a risk factor for auditory problems. Braz J Otorhinolaryngol. 2009;75:893-902.

   • - Alcoholism: it can alter endolymph density, producing transient dysfunction of the outer and IHCs.

   • - Xanthine consumption: the three main xanthine alkaloids are caffeine (coffee), theophylline (teas) and theobromine (cocoa), substances present in cola drinks, analgesic drugs, antihistamines, etc. Although excessive consumption of xanthines (above 250 mg/day or 3 coffees/day) is considered an exacerbating factor for tinnitus and dizziness, this is controversial.²⁹29 Figueiredo RR, Kennedy R, Moreira DP, Penido NDO. Effects of the reduction of caffeine consumption on tinnitus. Braz J Otorhinolaryngol. 2014;80:416-21.

   • - Consumption of fast-absorbing sugars and carbohydrates: it may cause tinnitus or worsen existing tinnitus by hyperinsulinism and alterations in the endocochlear potential. ³⁰30 Albernaz PLM, Fukuda Y. Glucose, insulin and inner ear pathology. Acta Otolaryngol. 1984;96:466-501.^,3131 Sanchez TG, Medeiros ÍRT, Coelho F, Constantino G, Bento RF. Frequency of glucose, lipids and thyroid hormones disorders in tinnitus patients. Arq Fund Otorrinolaringol. 2001;5:16-20.

   • - Prolonged fasting: The Na/K pump mechanism that is responsible for the endocochlear potential is energy dependent and the inner ear does not store energy. Prolonged fasting (over 3 h) is related to energy deficit and alteration in the endocochlear potential, which may worsen tinnitus.³¹31 Sanchez TG, Medeiros ÍRT, Coelho F, Constantino G, Bento RF. Frequency of glucose, lipids and thyroid hormones disorders in tinnitus patients. Arq Fund Otorrinolaringol. 2001;5:16-20.

Physical examination

It should include otoscopy, oroscopy, anterior and posterior rhinoscopy. The otoscopy of patients with vascular tinnitus may show a reddish retrotympanic area (paraganglioma, aberrant internal carotid artery in the middle ear, high and dehiscent jugular bulb, among others). Periauricular, periorbital, cervical auscultation and neck palpation can provide signs of vascular malformations, arteriovenous fistulas, or venous "hum" - a situation in which tinnitus increases with contralateral cervical rotation and decreases with ipsilateral rotation. In the case of tinnitus related to the patent auditory tube, synchrony with respiration is observed and otoscopy reveals motion of the tympanic membrane during inspiration and expiration.

Pulsatile tinnitus may be associated with benign intracranial hypertension. The presence of papilledema in the fundoscopic examination of the eye assists in the diagnosis.

The evaluation of cranial nerves identifies central etiologies, especially in patients with headache, paresthesia, diplopia or dizziness. The study of cranial pairs, cerebellar tests and the assessment of upper and lower limb muscle strength should be included. Tumors of cranial nerves IX, X, XI may generate pulsatile tinnitus by altering blood flow through the jugular bulb inside the jugular foramen.³²32 Kotzias SA, Onishi ET, Mendes RCCG. Zumbido pulsátil. In: Caldas Neto S, Mello Júnior JF, Martins RHG, Costa SS, editors. Tratado de Otorrinolaringologia e Cirurgia Cérvicofacial. 2nd ed. São Paulo: Editora Roca; 2011. p. 468-78.

TMJ evaluation

When associated with tinnitus, TMJ disorders may also exhibit otalgia, hearing loss, ear fullness, hyperacusis, and dizziness. Physical examination should be performed with special attention to pain in the TMJ region (spontaneous, with chewing and during palpation); crackling of the joint; difficulty in maximal mouth opening. Forced jaw protrusion or lateralization can modulate the tinnitus.

Nasofibroscopy

Some types of myoclonus can cause tinnitus via contraction of the middle ear muscles (tensor tympani and stapedius muscles)³³33 Golz A, Fradis M, Netzer A, Martzu D, Joachims HZ. Stapedius muscle myoclonus. Ann Otol Rhinol Laryngol. 2003;112:522-4. or muscles of the palatal region (soft palate and pharyngeal).³⁴34 Seidman MD, Arenberg JG, Shirwany NA. Palatal myoclonus as a cause of objective tinnitus: a report of six cases and a review of the literature. Ear Nose Throat J. 1999;78:292-7. Palatal myoclonus may be inhibited by opening the mouth; thus, palatal observation through nasofibroscopy is essential.³²32 Kotzias SA, Onishi ET, Mendes RCCG. Zumbido pulsátil. In: Caldas Neto S, Mello Júnior JF, Martins RHG, Costa SS, editors. Tratado de Otorrinolaringologia e Cirurgia Cérvicofacial. 2nd ed. São Paulo: Editora Roca; 2011. p. 468-78. It is possible to observe rhythmic movements in the soft palate region.

Questionnaires

It is critical to distinguish between tinnitus and tinnitus reactions. For that purpose, questionnaires assessing and quantifying tinnitus and its effects on the patient's life can be used.

The most often used are: Tinnitus Questionnaire,³⁵35 Hallam RS, Jakes SC, Hinchcliffe R. Cognitive variables in tinnitus annoyance. Br J Clin Psychol. 1988;27:213-22. Tinnitus Handicap Inventory (THI),³⁶36 Newman CW, Jacobson GP, Spitzer JB. Development of the tinnitus handicap inventory. Arch Otolaryngol Head Neck Surg. 1996;122:143-8. Tinnitus Reaction Questionnaire³⁷37 Wilson PH, Henry J, Bowen M, Haralambous G. Tinnitus reaction questionnaire: psychometric properties of a measure of distress associated with tinnitus. J Speech Hear Res. 1991;34:197-201. and Tinnitus Handicap Questionnaire.³⁸38 Kuk FK, Tyler RS, Russell D, Jordan H. The psychometric properties of a tinnitus handicap questionnaire. Ear Hear. 1990;11:434-45. All show good reproducibility and internal consistency and, therefore, the choice of the tool should be made based on the existence of the adapted version in the country's language and familiarity with the questionnaire. The THI, developed by Newman,³⁶36 Newman CW, Jacobson GP, Spitzer JB. Development of the tinnitus handicap inventory. Arch Otolaryngol Head Neck Surg. 1996;122:143-8. has been validated in several languages, including Portuguese. ³⁹39 Paula Erika Alves F, Cunha F, Onishi ET, Branco-Barreiro FC, Ganança FF. Tinnitus Handicap Inventory: cross-cultural adaptation to Brazilian Portuguese. Pro Fono. 2005;17:303-10.^,4040 Schmidt LP, Teixeira VN, Dall'Igna C, Dallagnol D, Smith MM. Brazilian Portuguese Language version of the "Tinnitus Handicap Inventory": validity and reproducibility. Braz J Otorhinolaryngol. 2006;72:808-10. The tool consists of 25 questions with a score varying from 0 to 100; the higher the score, the greater the effect of tinnitus on the patient's life. The Tinnitus Questionnaire is a long questionnaire consisting of 52 questions and has a shorter version, called the "Mini Tinnitus Questionnaire" (or Mini-TQ).⁴¹41 Hiller W, Goebel G. Rapid assessment of tinnitus-related psychological distress using the Mini-TQ. Int J Audiol. 2015;43:600-4. The Mini-TQ has a Portuguese version, with 12 questions that mainly evaluate the annoyance with tinnitus and how it affects the individual's daily life.⁴²42 Cerejeira R, Cerejeira J, Paiva S, Gonçalves P, Firmino H, Quartilho M, et al. The Portuguese version of Mini-Tinnitus Questionnaire: brief screening test for assessment of tinnitus-induced stress. Otol Neurotol. 2009;30:112-5.

The Visual Analog Scale (VAS) is used to measure subjective phenomena, and is used widely in pain assessment. It provides a simple and quick measurement of intensity and degree of annoyance, using numbers from 0 to 10.⁴³43 Zusman M. The Absolute Visual Analogue Scale (AVAS) as a measure of pain intensity. Aust J Physiother. 1986;32:244-6.

Complementary assessment

Hearing tests

Hearing tests help to diagnose hearing loss, as well as to aid in the diagnosis leading to specific treatment. A second reason to perform these tests is to establish if the patient is a candidate for hearing aid use.

Audiometry

Speech and pure-tone audiometry, and immittance testing: assess auditory acuity, type and degree of hearing loss, thus directing the medical evaluation.

• - High-frequency audiometry: it evaluates the frequencies of 9000-20,000 Hz, corresponding to the base of the cochlear. There is still no consensus for auditory thresholds at these frequencies.

• - Acuphenometry: tinnitus can be measured to demonstrate to patients that their tinnitus is real, help in patient counseling, and assist in sound therapy prognosis.

• - Tinnitus Matching (TM) attempts to establish the pitch (frequency) and loudness (intensity) of tinnitus.

• - Minimum Masking Level (MML) evaluates the lowest sound intensity that masks the tinnitus.

• - Residual Inhibition or Suppression Effect: evaluates the temporary inhibition of tinnitus, after stimulation with broadband noise 10 dB above MML, for 60 s. When present, partial or total inhibition occurs after the end of the stimulus and lasts a brief time until the tinnitus returns to its previous level.

• - LDL: assesses the noise discomfort threshold. Pure or pulsating tones are presented, with a gradual increase of 5 in 5 dB, between 500 and 8000 Hz, with 1-second inter-stimulus intervals and 1-second duration. The patient should raise his/her hand when the sound is at such intensity that he or she does not want to hear it (initial discomfort), in order to evaluate the lowest sound intensity that causes discomfort.

Electrophysiological and electroacoustic tests

Electrophysiological and electroacoustic tests help to manage the patient with a tinnitus complaint in two ways: by facilitating the investigation of the causal factor and the understanding of the pathophysiological mechanisms involved.

1. Tests requested for topographic assessment of tinnitus:

   1. Patient with tinnitus and/or auditory hypersensitivity and sensorineural hearing loss:

      • - Brainstem Auditory Evoked Potential (BAEP): when the objective is to evaluate the auditory nerve and/or brainstem (tumors, demyelination or dyssynchrony).

      • - Transient/Distortion-Product OAEs: Normal OAEs and altered audiometric thresholds suggest a noncochlear cause. In this situation, imaging tests and/or BAEP assessment should be requested.⁴⁴44 Romanos J, Kimura L, Fávero ML, Izarra FAR, de Mello Auricchio MTB, Batissoco AC, et al. Novel OTOF mutations in Brazilian patients with auditory neuropathy. J Hum Genet. 2009;54:382-5.

   2. Patient with tinnitus and/or auditory hypersensitivity without hearing loss:

      • - Transients/Distortion-Product OAE: its alteration suggests that such a cochlear lesion was not sufficient to generate effects on tonal audiometry, similar to a subclinical hearing loss.

      • - BAEP: changes in the auditory nerve and/or brainstem can also occur without associated hearing loss.

   3. Patient with tinnitus and/or auditory hypersensitivity and dizziness regardless of hearing loss:

      • - Electrocochleography: it is indicated to investigate endolymphatic hydrops.

      • - VEMP or Vestibular Evoked Myogenic Potential: it assesses the involvement of the otolithic organs and their nerve pathways. It evaluates the involvement of otolithic organs and the associated pathways.

2. Examinations requested for scientific research and understanding of pathophysiological mechanisms of tinnitus and/or sound hypersensitivity:

   • - BAEP: The increased amplitude ratio of III/I and V/I waves suggests greater electrical activity in the ventral cochlear nucleus and inferior colliculus, while the increase in the latency of the V wave and the III-V interpeak suggest changes in electrical conduction, whether primary or secondary to the tinnitus.⁴⁵45 Kehrle HM, Granjeiro RC, Sampaio ALL, Bezerra R, Almeida VF, Oliveira CA. Comparison of auditory brainstem response results in normal-hearing patients with and without tinnitus. Arch Otolaryngol Head Neck Surg. 2008;134:647-51.

   • - P300: altered latencies may suggest changes in functions such as attention and short-term auditory memory.⁴⁶46 Filha VAVDS, Matas CG. Late Auditory evoked potentials in individuals with tinnitus. Braz J Otorhinolaryngol. 2010;76:263-70.

   • Contralateral suppression of OAE: it evaluates the involvement of the corticofugal auditory efferent system in the origin and maintenance of tinnitus and auditory hypersensitivity.⁴⁷47 Fávero ML, Sanchez TG, Bento RF, Nascimento AF. Contralateral suppression of otoacoustic emission in patients with tinnitus. Braz J Otorhinolaryngol. 2006;72:223-6.

Laboratory tests

Some tests may provide relevant information to the investigation of etiological, predisposing, or coadjuvant factors in patients with tinnitus.

• - Fasting glucose and glycated hemoglobin: may be replaced or supplemented by the 3-h glucose tolerance test and insulin curve. In this case, the objective is to evaluate glucose metabolism and the consequent insulin production, with hyperinsulinemia and reactive hypoglycemia being possible suspicions, or also, disaccharidase alterations (lactose intolerance).³¹31 Sanchez TG, Medeiros ÍRT, Coelho F, Constantino G, Bento RF. Frequency of glucose, lipids and thyroid hormones disorders in tinnitus patients. Arq Fund Otorrinolaringol. 2001;5:16-20.

• - Total cholesterol and fractions and Triglycerides: allow investigating factors that cause blood hyperviscosity or atherosclerotic plaques.⁴⁸48 Sutbas A, Yetiser S, Satar B, Akcam T, Karahatay S, Saglam K. Low-cholesterol diet and antilipid therapy in managing tinnitus and hearing loss in patients with noise-induced hearing loss and hyperlipidemia. Int Tinnitus J. 2007;13:143-9.

• - Free T4, TSH, anti-peroxidase antibodies and antithyroglobulin antibodies: search for early thyroid abnormalities. ²³23 Kim H-J, Lee H-J, An S-Y, Sim S, Park B, Kim SW, et al. Analysis of the prevalence and associated risk factors of tinnitus in adults. PLOS ONE. 2015;10:e0127578.^,4949 Elliott B. Diagnosing and treating hypothyroidism. Nurse Pract. 2000;25:., 92-4; 99-105.

Zinc: especially in elderly patients, or in the postoperative period of bariatric surgery, in which this trace element may be deficient.⁵⁰50 Berkiten G, Kumral TL, Yildirim G, Salturk Z, Uyar Y, Atar Y. Effects of serum zinc level on tinnitus. Am J Otolaryngol. 2015;36:230-4.

Other tests may be requested, such as the whole blood count; Magnesium⁵¹51 Cevette MJ, Barrs DM, Patel A, Conroy KP, Sydlowski S, Noble BN, et al. Phase 2 study examining magnesium-dependent tinnitus. Int Tinnitus J. 2010;16:168-73.; Vitamin B12⁵²52 Shemesh Z, Attias J, Ornan M, Shapira N, Shahar A. Vitamin B12 deficiency in patients with chronic-tinnitus and noise-induced hearing loss. Am J Otolaryngol. 1993;14:94-9.; Folic acid⁵³53 Lasisi AO, Fehintola FA, Yusuf OB. Age-related hearing loss, vitamin B12, and folate in the elderly. Otolaryngol Head Neck Surg. 2010;143:826-30.; Cortisol⁵⁴54 Kim D-K, Chung DY, Bae SC, Park K-H, Yeo SW, Park S-N. Diagnostic value and clinical significance of stress hormones in patients with tinnitus. Eur Arch Otorhinolaryngol. 2013;271:1-7.; Serotonin⁵⁴54 Kim D-K, Chung DY, Bae SC, Park K-H, Yeo SW, Park S-N. Diagnostic value and clinical significance of stress hormones in patients with tinnitus. Eur Arch Otorhinolaryngol. 2013;271:1-7.; Vitamin D; Ferritin.

Laboratory tests in patients with hyperacusis

To date, laboratory abnormalities related to hyperacusis and misophonia have not been identified.

Imaging diagnosis

1. Imaging tests in non-rhythmic tinnitus

   • - Cervical X-ray: allows the diagnosis of cervical diseases such as compression of vessels by the alar process of the vertebrae.

   • - Temporal bone tomography: this test allows the identification of middle and inner ear diseases that may be associated with non-rhythmic tinnitus. ³⁰30 Albernaz PLM, Fukuda Y. Glucose, insulin and inner ear pathology. Acta Otolaryngol. 1984;96:466-501.^,5555 Kang M, Escott E. Imaging of tinnitus. Otolaryngol Clin N Am. 2008;41:179-93.

   • - Magnetic resonance imaging of the inner ear with gadolinium: it helps in the identification of neurologic diseases and is essential to rule out retrocochlear disease in patients with unilateral or asymmetrical tinnitus, with or without hearing loss. ³⁰30 Albernaz PLM, Fukuda Y. Glucose, insulin and inner ear pathology. Acta Otolaryngol. 1984;96:466-501.^,5555 Kang M, Escott E. Imaging of tinnitus. Otolaryngol Clin N Am. 2008;41:179-93.

2. Imaging tests in patients with rhythmic tinnitus

   • - Temporal bone CT with contrast: it may clarify possible retrotympanic pulsatile lesions identified at otoscopy: aberrant carotid artery, high jugular bulb and glomus tumor.⁵⁶56 Madani G, Connor SEJ. Imaging in pulsatile tinnitus. Clin Radiol. 2009;64:319-28.

   • - Doppler ultrasound of carotid, vertebral and subclavian arteries: it investigates atherosclerotic disease that can change laminar blood flow. These patients usually have hypercholesterolemia, hypertension, diabetes mellitus, angina and smoking habit.⁵⁶56 Madani G, Connor SEJ. Imaging in pulsatile tinnitus. Clin Radiol. 2009;64:319-28.

   • - Transcranial Doppler ultrasound: it evaluates atherosclerosis in the intracranial carotid system, in addition to arterial malformations and other vascular abnormalities.⁵⁶56 Madani G, Connor SEJ. Imaging in pulsatile tinnitus. Clin Radiol. 2009;64:319-28.

   • - Angiotomography: it is considered the gold standard in pulsatile tinnitus. It shows the association of the vessels with the bony structures of the temporal bone.⁵⁷57 Mundada P, Singh A, Lingam RK. CT arteriography and venography in the evaluation of pulsatile tinnitus with normal otoscopic examination. Laryngoscope. 2015;125:979-84.

   • - Magnetic resonance angiography: the arterial phase is important in the diagnosis of carotid artery dissection. The venous phase allows the diagnosis of fistulas and arteriovenous malformations, but with less sensitivity than angiography. It helps to investigate pulsatile tinnitus, palatal or stapedius myoclonus, as there may be associated neurological lesions. It also helps in the diagnosis of benign intracranial hypertension, which usually affects middle-aged, Caucasian, obese women with complaints of headache, visual blurring, double vision and/or pain on ocular movement.⁵⁸58 Shweel M, Hamdy B. Diagnostic utility of magnetic resonance imaging and magnetic resonance angiography in the radiological evaluation of pulsatile tinnitus. Am J Otolaryngol. 2013;34:710-7.

   • - Angiography: it allows the diagnosis of small arteriovenous fistulas, but it should be the last option due to its risks. It also becomes important in patients with glomus tumor to assess the vascular supply and the possibility for embolization.⁵⁹59 Ahsan SF, Seidman M, Yaremchuk K. What is the best imaging modality in evaluating patients with unilateral pulsatile tinnitus?. Laryngoscope. 2015;125:284-5.

Fig. 2 shows a suggested investigation flowchart for pulsatile tinnitus.

Treatment and rehabilitation

Counseling is a principal component of two important therapies for hyperacusis. In Hyperacusis Activities Treatment, guidelines on thinking, emotions, hearing, concentration and sleep are proposed, in addition to the acoustic therapy that will be discussed below. This counseling is directed by a specific questionnaire to recognize the areas most affected.⁶⁰60 Tyler RS, Noble W, Coelho C, Roncancio ER, Jun HJ. Tinnitus and hyperacusis. In: Katz J, Chasin M, English K, Hood LJ, Tillery KL, editors. Handbook of clinical audiology. 7th ed. Baltimore: Lippincott Williams and Wilkins; 2015. p. 647-58. In Tinnitus Retraining Therapy (TRT), the counseling is also directed toward auditory hypersensitivity - hyperacusis and misophonia. In the latter, results exceed 76% for isolated hyperacusis or 83% for isolated misophonia.⁶¹61 Jastreboff PJ, Jastreboff MM. Treatments for decreased sound tolerance (hyperacusis and misophonia). Semin Hear. 2014;35:105-20.

Ear protective devices can increase a person's hearing sensitivity and we often see patients with hyperacusis wearing them. They should be encouraged to avoid such protection because it reinforces an association between auditory signals and distress and potentiates existing fear and underlying anxiety.⁶²62 Aazh H, McFerran D, Salvi R, Prasher D, Jastreboff M, Jastrebof P. Insights from the first international conference on hyperacusis: causes, evaluation, diagnosis and treatment. Noise Health. 2014;16:123-6.

Pharmacological and surgical treatment of hyperacusis

Successful treatments have already been described in patients with hyperacusis using alprazolam,⁶³63 Johnson RM, Brummett R, Schleuning A. Use of alprazolam for relief of tinnitus - a double-blind study. Arch Otolaryngol Head Neck Surg. 1993;119:842-5. carbamazepine,²¹21 Nields JA, Fallon BA, Jastreboff PJ. Carbamazepine in the treatment of Lyme disease-induced hyperacusis. J Neuropsychiatry Clin Neurosci. 1999;11:97-99. fluoxetine and fluvoxamine⁶⁴64 Gopal KV, Daly DM, Daniloff RG, Pennartz L. Effects of selective serotonin reuptake inhibitors on auditory processing: case study. J Am Acad Audiol. 2000;11:454-63. and citalopram.¹⁷17 Pienkowski M, Tyler RS, Roncancio ER, Jun HJ, Brozoski T, Dauman N, et al. A review of hyperacusis and future directions: Part II, Measurement, mechanisms, and treatment. Am J Audiol. 2014;23:420-36.

Regarding the surgical treatment of hypersensitivity, isolated reports in the literature range from fascia reinforcement placed on the oval and round windows, obliteration of semicircular canal dehiscence and even labyrinthectomy. ⁶⁵65 Dang PT, Kennedy TA, Gubbels SP. Simultaneous, unilateral plugging of superior and posterior semicircular canal dehiscences to treat debilitating hyperacusis. J Laryngol Otol. 2014;128:174-8.^,6666 Silverstein H, Wu YHE, Hagan S. Round and oval window reinforcement for the treatment of hyperacusis. Am J Otolaryngol. 2015;36:158-62.

Pharmacological treatment of tinnitus

Although to date there is no drug approved by the F.D.A. (Food and Drug Administration) with a specific indication for tinnitus treatment, there is no reason to believe that tinnitus cannot be pharmacologically treated.

There is no consensus regarding the duration of treatment, as it should be individualized. In most studies, the treatment is carried out for 2-3 months.

Didactically, one can classify drugs for tinnitus treatment in three large groups (Table 2):

• - Drugs that improve vascular supply and inner ear metabolism;

• - Drugs that act on ion channels;

• - Drugs that act on neurotransmitters.

Vascular and metabolic supply of the inner ear

The indication for the use of trimetazidine, which presumably acts on cochlear metabolism, has recently been withdrawn for treatment of dizziness and tinnitus.

Ginkgo Biloba shows diverse results in systematic reviews. A recent study assessing 1543 patients, concluded that there is limited evidence to demonstrate its efficacy in tinnitus treatment.⁶⁷67 Hilton MP, Zimmermann EF, Hunt WT. Gingko biloba for tinnitus. Cochrane Database Syst Rev [Internet]. 2013, http://dx.doi.org/10.1002/14651858.CD003852.pub3/epdf.
http://dx.doi.org/10.1002/14651858.CD003...

A single study analyzed the efficacy of vinpocetine demonstrating some positive results in tinnitus associated with acoustic trauma.⁶⁸68 Pilgramm M, Schumann K. Need for rheologically active, vasoactive and metabolically active substances in the initial treatment of acute acoustic trauma. HNO. 1986;34:424-8.

Betahistine may be effective when tinnitus is associated with dizziness.⁶⁹69 Ganança MM, Caovilla HH, Gazzola JM, Ganança CF, Ganança FF. Betahistine in the treatment of tinnitus in patients with vestibular disorders. Braz J Otorhinolaryngol. 2011;77:499-503.

Ion channels

There have been studies on drugs that act on the sodium, potassium and calcium channels.

Sodium channels

The prototype of this approach was the verification of the immediate effects of intravenous lidocaine on tinnitus.⁷⁰70 Melding PS, Goodey RJ, Thorne PR. The use of intravenous lignocaine in the diagnosis and treatment of tinnitus. J Laryngol Otol. 1978;92:115-21. However, because of the administration route and possible side effects, there is no clinical application for lidocaine in tinnitus treatment. A systematic review of the use of anticonvulsants (including carbamazepine and lamotrigine) concluded that there is no evidence that anticonvulsants have a significant positive effect on tinnitus treatment.⁷¹71 Hoekstra CEL, Rynja SP, Van Zanten GA, Rovers M. Anticonvulsants for tinnitus. Cochrane Database of Syst Rev. 2009;6:CD007960.

Potassium channels

There is only experimental evidence of the effect of this type of drug on tinnitus, including the flindokalner.⁷²72 Salvi R, Lobarinas E, Sun W. Pharmacological treatments for tinnitus: new and old. Drugs Future. 2009;34:381-400.

Calcium channels

Although the mechanism of action for gabapentin is not fully understood, it is believed that calcium channel blocking is the main mechanism. A recent systematic review concluded that there is not enough clinical evidence to recommend the use of gabapentin for the treatment of tinnitus.⁷³73 Aazh H, El Refaie A, Humphriss R. Gabapentin for tinnitus: a systematic review. Am J Audiol. 2011;20:151-8.

A single open-label study evaluated the effects of nimodipine with a poor outcome.⁷⁴74 Davies E, Knox E, Donaldson I. The usefulness of nimodipine, an l-calcium channel antagonist, in the treatment of tinnitus. Br J Audiol. 1994;28:125-9.

Neurotransmitters

Glutamate

This is the main excitatory neurotransmitter and the effects of excitotoxicity have been well experimentally documented.¹⁶16 Pujol R, Puel JL. Excitotoxicity, synaptic repair, and functional recovery in the mammalian cochlea: a review of recent findings. Ann N Y Acad Sci. 1999;884:249-54. Caroverine blocks AMPA and NMDA receptors, but the promising initial results were not replicated.⁷⁵75 Domeisen H, Hotz MA, Hausler R. Caroverine in tinnitus treatment [letter to the editor]. Acta Otolaryngol. 1998;118:606-8. It is not commercially available in Brazil. Memantine is an NMDA blocker that has shown promising results in experimental studies,⁷⁶76 Oestreicher E, Arnold W, Ehrenberger K, Felix D. Memantine suppresses the glutamatergic neurotransmission of mammalian inner hair cells. ORL J Otorhinolaryngol Relat Spec. 1998;60:18-21. but not in a clinical trial.⁷⁷77 Figueiredo RR, Langguth B, Mello de Oliveira P, Aparecida de Azevedo A. Tinnitus treatment with memantine. Otolaryngol Head Neck Surg. 2008;138:492-6. Acamprosate is an NMDA blocker that also has GABAergic activity. The results were positive in two studies, ⁷⁸78 Azevedo AA, Figueiredo RR. Tinnitus treatment with acamprosate: double-blind study. Braz J Otorhinolaryngol. 2005;71:618-23.^,7979 Sharma DK, Kaur S, Singh J, Kaur I. Role of acamprosate in sensorineural tinnitus. Indian J Pharmacol. 2012;44:93-6. but the drug is not available in Brazil. The clinical trial of the NMDA blocker esketamine (AM-101) for the treatment of tinnitus for up to 3 months in duration, using intratympanic injections, is currently in phase 3, with very promising phase 2 results.⁸⁰80 van de Heyning P, Muehlmeier G, Cox T, Lisowska G, Maier H, Morawski K, et al. Efficacy and safety of am-101 in the treatment of acute inner ear tinnitus — a double-blind, randomized, placebo-controlled phase ii study. Otol Neurotol. 2014;35:589-97.

GABA

A recent systematic review of the benzodiazepines used in the treatment of tinnitus has concluded that there is evidence, albeit not robust, of positive effects of clonazepam, a GABA-A receptor agonist, but not of alprazolam or diazepam.⁸¹81 Jufas NE, Wood R. The use of benzodiazepines for tinnitus: systematic review. J Laryngol Otol. 2015;129:14-22. In a randomized cross-over study against Ginkgo biloba, the efficacy of clonazepam in tinnitus relief was demonstrated.⁸²82 Han S-S, Nam E-C, Won JY, Lee KU, Chun W, Choi HK, et al. Clonazepam Quiets tinnitus: a randomised crossover study with Ginkgo Biloba. J Neurol Neurosurg Psychiatry. 2012;83:821-7. The risk of dependence and side effects (drowsiness, urinary retention, increased eye pressure) require caution for its use.

Experimental evidence for efficacy of the GABA-B agonist baclofen a has not been replicated in clinical trials.⁸³83 Szczepaniak WS, Møller AR. Effects of (−)-baclofen, clonazepam, and diazepam on tone exposure- induced hyperexcitability of the inferior colliculus in the rat: possible therapeutic implications for pharmacological management of tinnitus and hyperacusis. Hear Res. 1996;97:46-53.

Serotonin

Selective serotonin reuptake inhibitors (SSRIs) are widely used as antidepressants in the associations between tinnitus, anxiety, and depression. A recent systematic review concluded that there is insufficient evidence of a direct effect of antidepressants on tinnitus.⁸⁴84 Baldo P, Doree C, Lazzarini R, Molin P, McFerran D. Antidepressants for patients with tinnitus. Cochrane Database Syst Rev. 2006;18:CD003853. However, they may be helpful in relieving depression and anxiety associated with it. It is worth adding that there are reports about the onset or worsening of tinnitus with the use of antidepressants, especially the tricyclic ones. A single clinical trial demonstrated the benefits of sertraline, an SSRI, in tinnitus relief.⁸⁵85 Zoger S, Svedlund J, Holgers K-M. The effects of sertraline on severe tinnitus suffering - a randomized, double-blind, placebo-controlled study. J Clin Psychopharmacol. 2006;26:32-9. Trazodone, a serotonin modulator, on the other hand, showed no beneficial effects.⁸⁶86 Dib GC, Kasse CA, De Andrade TA, Testa JRG, Cruz OLM. Tinnitus treatment with trazodone. Braz J Otorhinolaryngol. 2007;73:390-7.

Cyclobenzaprine has several mechanisms of action, including 5 HT-2 receptor antagonism. Clinical studies showed a positive effect in some patients at the dose of 30 mg a day.⁸⁷87 Coelho C, Figueiredo R, Frank E, Burger J, Schecklmann M, Landgrebe M, et al. Reduction of tinnitus severity by the centrally acting muscle relaxant cyclobenzaprine: an open-label pilot study. Audiol Neurotol. 2012;17:179-88.

Dopamine

Agonists (piribedil⁸⁸88 de Azevedo AA, Langguth B, de Oliveira PM, Rodrigues Figueiredo R, Aparecida De Azevedo A, Langguth B, et al. Tinnitus treatment with piribedil guided by electrocochleography and acoustic otoemissions. Otol Neurotol. 2009;30:676-80. and pramipexole⁸⁹89 Sziklai I, Szilvássy J, Szilvássy Z. Tinnitus control by dopamine agonist pramipexole in presbycusis patients: a randomized, placebo-controlled, double-blind study. Laryngoscope. 2011;121:888-93.) and antagonists (sulpiride⁹⁰90 Lopez Gonzalez MA, Muratori Leon ML, Moreno Vaquera J. Sulpiride as initial treatment in tinnitus retraining therapy. Acta Otorrinolaringol Esp. 2003;54:237-41.) have shown beneficial effects in clinical trials, but need confirmation by randomized trials with larger samples. Pyribedil was commercially discontinued in Brazil approximately 2 years ago.

Other mechanisms of action

Several drugs have already been assessed in clinical studies without meaningful results, such as melatonin, furosemide, atorvastatin, misoprostol, vardenafil. The drugs described for use in tinnitus cases of muscular origin include clonazepam, thiocolchicoside and sumatriptan.⁹¹91 Herraiz C, Aparicio JM. Diagnostic clues in pulsatile tinnitus (somatosounds). Acta Otorrinolaringol Esp. 2007;58:426-33. There are clinical reports on the relief of tinnitus of vascular origin with propranolol.⁹²92 Albertino S, Assunção De ARM, Souza JA. Pulsatile tinnitus: treatment with clonazepam and propranolol. Braz J Otorhinolaryngol. 2005;71:111-3.

Use of supplements in the treatment of tinnitus

Dietary supplements may contain vitamins, minerals, herbs or nutritional substances. Considered as "natural" products, they are inexpensive and can be sold without a prescription, but that does not necessarily mean they are safe and effective.⁹³93 Coelho CB. Medications, supplements and alternativemedicines. In: Tyler RS, editor. The consumer handbook on tinnitus. 1st ed. Sedona: Auricle Ink Publishers; 2008. p.199-214. The most often used in the treatment of tinnitus are:

• - Vitamin B12: Vitamin B12 deficiency may cause tinnitus and cyanocobalamin replacement may improve the symptom.⁵²52 Shemesh Z, Attias J, Ornan M, Shapira N, Shahar A. Vitamin B12 deficiency in patients with chronic-tinnitus and noise-induced hearing loss. Am J Otolaryngol. 1993;14:94-9.

• - Melatonin (N-acetyl-5-methoxitriptamine): is a hormone secreted by the pineal gland. It acts on sleep control, has neuromodulatory action and antioxidant properties.⁹⁴94 Hardeland R, Pandi-Perumal SR, Cardinali DP. Melatonin. Int J Biochem Cell Biol. 2006;38:313-6. The use of melatonin improves sleep, particularly in elderly patients with insomnia. It is inexpensive and safe, and has few adverse effects. Preliminary studies suggest that melatonin has a positive effect on sleep disturbances caused by tinnitus.⁹⁵95 Miroddi M, Bruno R, Galletti F, Calapai F, Navarra M, Gangemi S, et al. Clinical pharmacology of melatonin in the treatment of tinnitus: a review. Eur J Clin Pharmacol. 2015;71:263-70.

• - Zinc: this element plays an essential role in function of the cochlear and auditory pathways. Zinc replacement therapy may benefit patients with tinnitus,⁹⁶96 Coelho C, Witt SA, Ji H, Hansen MR, Gantz B, Tyler R. Zinc to treat tinnitus in the elderly: a randomized placebo controlled crossover trial. Otol Neurotol. 2013;34:1146-54. especially in subjects with zinc deficiency.

Sound therapy

Personal Sound Amplifier (PSA) and sound generator

There is an association between tinnitus and hearing loss in approximately 85-96% of cases.²2 Jastreboff PJ. Phantom auditory perception (tinnitus): mechanisms of generation and perception. Neurosci Res. 1990;8:221-54. The decrease in the sound entry into the cochlea results in a decrease in afferent activity to the auditory nerve and the auditory pathways, resulting in changes in all pathways that are responsible for the appearance of tinnitus.⁹⁷97 Kaltenbach JA. Insights on the origins of tinnitus: an overview of recent research. Hear J. 2009;62:26-9. Several studies have shown a reduction of tinnitus annoyance with the use of a hearing aid and/or sound generator. ⁹⁸98 Parazzini M, Del Bo L, Jastreboff M, Tognola G, Ravazzani P. Open ear hearing aids in tinnitus therapy: an efficacy comparison with sound generators. Int J Audiol. 2011;50:548-53.^,9999 dos Santos G, Bento R, de Medeiros I, Oiticcica J, da Silva E, Penteado S. The influence of sound generator associated with conventional amplification for tinnitus control: randomized blind clinical trial. Trends Hear. 2014;18:1-9. In the American Academy of Otorhinolaryngology guidelines, the use of hearing aids is recommended for patients with hearing loss and tinnitus discomfort, although prospective studies are of low quality and limited by methodological problems (bias, small sample, short time of treatment and with associated treatments, such as sound therapy and counseling). The literature contains some studies that showed improvement in tinnitus discomfort with the use of the hearing aid after one to three months of treatment. ⁹⁹99 dos Santos G, Bento R, de Medeiros I, Oiticcica J, da Silva E, Penteado S. The influence of sound generator associated with conventional amplification for tinnitus control: randomized blind clinical trial. Trends Hear. 2014;18:1-9.^,100100 Ferrari GMDS, Sanchez TG, Pedalini MEB. The efficacy of open molds in controlling tinnitus. Braz J Otorhinolaryngol. 2007;73:370-7. Therefore, we suggest that a test with PSA, with or without a sound generator, should be performed for a period equal to or greater than 30 days. The tinnitus improvement occurs in approximately 82% of patients who used an open-fit BTE (Behind-the-Ear) PSA with relief ventilation, and there was no difference between the two groups. However, the preference for open-fit occurs in 66% of the patients.¹⁰⁰100 Ferrari GMDS, Sanchez TG, Pedalini MEB. The efficacy of open molds in controlling tinnitus. Braz J Otorhinolaryngol. 2007;73:370-7. In clinical practice, we observed that patients who receive both a hearing aid and a sound generator show tinnitus improvement during the prosthesis adaptation period and often choose the device without a sound generator, since the hearing aid helps to mask external noise. Sound amplification improves patient quality of life by favoring hearing and masking tinnitus. Advice and/or guidance regarding tinnitus is essential during the adaptation to hearing aids, aiming to inform the patient about the reason for choosing this treatment to improve both hearing and tinnitus.

Sound generator

It can be used in several ways: mixing point - TRT, total and partial sound masking. Or, the lowest intensity capable of promoting tinnitus relief - TAT (Tinnitus Activities Treatment).¹⁰¹101 Tyler RS, Gogel SA, Gehringer AK. Tinnitus activities treatment. Prog Brain Res. 2007;166:425-34. Any therapeutic approach applying sound therapy for tinnitus is improved when it is associated with counseling/guidance.

In patients with reduced sound tolerance, it is essential to avoid sound deprivation with the use of an ear protector, which can increase central auditory gain and exacerbate the symptoms of hyperacusis.⁴4 Jastreboff MM, Jastreboff PJ. Decreased sound tolerance and tinnitus retraining therapy (TRT). Aust New Zeal J Audiol. 2002;24:74-84. In these cases, it is advisable to carry out sound desensitization with the use of a sound generator and hearing aid, gradually introducing the sound for the time that is tolerated by the patient. The adaptation must be slow and progressive, depending on the patient's tolerance. Initially, it is recommended to use the hearing aid in quiet environments and, subsequently, in noisy environments. In severe cases of reduced sound tolerance, it may be necessary to initially apply the sound generator to improve sound tolerance and a later adaptation with a hearing aid.¹⁰²102 Herráiz C, Plaza G, Aparicio JM. Fisiopatología y tratamiento de la hiperacusia (hipersensibilidad al sonido). Acta Otorrinolaringol Esp. 2006;57:373-7. Currently, the use of digital technology devices has facilitated the programming of these treatments combined with a hearing aid and a sound generator. The use of hearing aids may be valid in patients suffering from tinnitus, even with mild hearing loss.

Music therapy in tinnitus treatment

Customized sounds for tinnitus pitch

Customized acoustic stimuli are adapted according to the patient's hearing and tinnitus pitch. Two types of sounds are offered: relaxing soft music of variable amplitude and a broadband noise similar to white noise. At different phases, the white noise is added or may be removed to help mask the tinnitus. Between 80 and 90% of patients experienced a significant reduction in tinnitus, even when they were not using the device.¹⁰³103 Paul B, Ron A, Lyndall G, Peter J, Davis PB, Wilde RA, et al. Treatment of tinnitus with a customized acoustic neural stimulus: a controlled clinical study. Ear Nose Throat J. 2008;87:330-9.

Fractal tones

Based on the fractal analysis of sounds, five patterns of semi-random tones, similar to bell tunes, were created along with broadband white noise. The proposal is the presentation of melodic tones with a slower time (60-70 beats per minute, similar to resting heart rate), less repetition and without emotional content, which promotes relaxation. A study on the effectiveness of music therapy with fractal tones showed that it does not depend on the nature of the hearing loss or tinnitus characteristics.¹⁰⁴104 Sweetow RW, Sabes JH. An overview of common procedures for the management of tinnitus patients. Hear J. 2010;63:11-5.

S-Tones with modulated amplitude and frequency

S-Tones, with modulated frequency and amplitude, produce a robust and synchronized neuronal activity in the auditory cortex. Very slow sounds produce explosions of neural activity, and very fast sounds do not show synchronization, but if presented within a specific interval, the neurons synchronously fire in response to the sound stimulus. Suppression is a physiological process where sounds modulate the activity of the auditory cortex and interrupt tinnitus generation.¹⁰⁵105 Reavis KM, Chang JE, Zeng F-G. Patterned sound therapy for the treatment of tinnitus. Hear J. 2010;63:21-4.

Spectral notched music

The notched music, tailor-made with the removal of sounds that have the same frequency as the tinnitus, can reduce its volume. The results indicate that the short-term, intensive Tailor-Made Notched Sound Therapy seems to be effective in patients with tinnitus frequencies ≤8 kHz due to the ability of the notched sound to reduce the excitability of hyperactive auditory neurons, which would occur as a result of the strengthening of inhibitory networks, previously weakened in the critical frequency band of tinnitus.

Tones for central neural auditory desynchronization

Acoustic Coordinated Reset Neuromodulation aims to reduce abnormal levels of synchronous neural activity in the cerebral auditory cortex, a condition in which a large population of neurons repeatedly and spontaneously fires impulses at the same time. The Neuromodulator CR emits a sequence of low intensity tones, obtained through a mathematical algorithm in which the used tones coincide with the frequency bands adjacent to the tinnitus frequency, individually adjusted for each person. The objective is to stop the increase of the abnormal synchronic firing in brain auditory neurons, responsible for the tinnitus perception.¹⁰⁶106 Tass PA, Adamchic I, Freund HJ, Von Stackelberg T, Hauptmann C. Counteracting tinnitus by acoustic coordinated reset neuromodulation. Restor Neurol Neurosci. 2012;30:137-59.

Habituation therapy or TRT

TRT or Habituation Therapy aims to change the most activated neural networks in patients with tinnitus annoyance, which are limbic system (hippocampal segment) and the autonomic nervous system, regardless of the source of the tinnitus.²2 Jastreboff PJ. Phantom auditory perception (tinnitus): mechanisms of generation and perception. Neurosci Res. 1990;8:221-54. The TRT is based on three pillars:

• - Demystification: includes all measures used to reduce or eliminate the negative connotation and activation of the limbic and autonomic nervous systems.

• - Counseling: covers all anti-tinnitus measures. The removal of negative associations related to tinnitus, through counseling sessions in which the patient understands the hearing function and the mechanisms of tinnitus perception, may be sufficient to promote the habituation of the reaction, that is, the patient can still perceive the tinnitus, but ceases to be bothered by it.

• - Habituation: physiological process characterized by the progressive decline of responses to the same stimulus. The concomitant use of sound therapy may be necessary, for it promotes the constant input of sounds, either through sound generators, hearing aid amplification prostheses or environmental sounds. Habituation occurs if the stimulus is neutral, that is, free of associations and/or connotations with negative emotional states. Patients with hyperacusis, associated or not with tinnitus, are also candidates for treatment with TRT. Table 3 summarizes the proposals and modalities of TRT treatment according to patient groups. The efficacy of habituation therapy is around 84-86%, and may vary according to patient adherence to treatment. ¹⁰⁷107 Jastreboff PJ, Jastreboff MM. Tinnitus retraining therapy: a different view on tinnitus. ORL J Otorhinolaryngol Relat Spec. 2006;68:23-9.^,108108 Henry MA, Schechter MA, Zaugg TL, Griest S, Jastreboff PJ, Vernon JA, et al. Clinical trial to compare tinnitus masking and tinnitus retraining therapy. Acta Otolaryngol. 2006;126:64-9.

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  Table 3
  Categorization of tinnitus patients for TRT.
  

Transcranial magnetic stimulation (TMS)

It is a noninvasive technique of neurostimulation and cortical neuromodulation. The procedure generates repetitive pulses of short duration (100-300 microseconds) and high power (1.5-2.0 Tesla) magnetic field.¹⁰⁹109 Hallett M. Transcranial magnetic stimulation: a primer. Neuron. 2007;55:187-99. Modern TMS systems apply a rapidly changing magnetic field over a specific neural region, inducing electrical activity in the target cortical region. This is typically characterized by disruption of the stimulated target area activity and potential for change in the function of the interrupted area. Therefore, there is neuroplasticity modulation in cortical and thalamic-cortical areas in the same way. TMS is a safe and effective procedure for tinnitus control, but it requires studies with a longer follow-up period.¹¹⁰110 Peng Z, Chen XQ, Gong SS. Effectiveness of repetitive transcranial magnetic stimulation for chronic tinnitus: a systematic review. Otolaryngol Head Neck Surg. 2012;147:817-25.

Cognitive-behavioral therapy (CBT)

Therapeutic approaches typically involve relaxation training to reduce alertness, creating methods to ignore the tinnitus-related information. CBT aims to identify and change the emotional significance of tinnitus. According to McKenna et al.,¹¹¹111 McKenna L, Handscomb L, Hoare DJ, Hall DA. A scientific cognitive-behavioral model of tinnitus: novel conceptualizations of tinnitus distress. Front Neurol. 2014;5:1-15. regardless of the symptom's initial cause, the cognitive behavioral process contributes to its severity through intrusive negative thoughts, selective attention, hypervigilance, misconceptions, counterproductive behaviors and a distorted perception of tinnitus. CBT is structured, for a limited time, as an objective to help the patient face certain difficulties, constructing positive thoughts. A 15-year follow-up study demonstrated stability in the improvement,¹¹²112 Goebel G, Kahl M, Arnold W, Fichter M. 15-year prospective follow-up study of behavioral therapy in a large sample of inpatients with chronic tinnitus. Acta Otolaryngol Suppl. 2006;:70-9. constituting a good therapeutic option for patients with tinnitus, alone or associated with other types of treatment.

Acupuncture

Acupuncture has been used in the treatment of tinnitus, similar to the treatment of painful conditions. The needle stimulation causes an electrical discharge that triggers action potentials and influences the activity of the olivocochlear nucleus or the modulation of ascending auditory pathway connections with the limbic system and the amygdala.⁶6 Tunkel DE, Bauer CA, Sun GH, Rosenfeld RM, Chandrasekhar SS, Cunningham ER, et al. Clinical practice guideline: tinnitus. Otolaryngol Head Neck Surg. 2014;151:S1-40. In the studies that showed positive results of acupuncture on tinnitus, the time and degree of improvement were very variable. ¹¹³113 Okada DM, Onishi ET, Chami FI, Borin A, Cassola N, Guerreiro VM. Acupuncture for tinnitus immediate relief. Braz J Otorhinolaryngol. 2006;72:182-6.

114 Jeon SW, Kim KS, Nam HJ. Long-term effect of acupuncture for treatment of tinnitus: a randomized, patient- and assessor-blind, sham-acupuncture-controlled, pilot trial. J Altern Complement Med. 2012;18:693-9.^-115115 Laureano MR, Onishi ET, Bressan RA, Neto PB, Castiglioni MLV, Batista IR, et al. The effectiveness of acupuncture as a treatment for tinnitus: a randomized controlled trial using 99mTc-ECD SPECT. Eur Radiol. 2016;26:3234-42. Acupuncture is a safe treatment option with no adverse effects, but more studies are required to evaluate its effect on tinnitus.

Mindfulness

Mindfulness has its origin in Eastern meditative practices. It is defined as a specific form of concentration at the present time, intentionally and without judgment. The practices encompass several techniques, such as breathing exercises, experiencing everyday situations in a conscious way and attention to the sense organs. Studies have shown benefits over tinnitus, reducing annoyance, improving depressive and anxious states and facilitating the acceptance of tinnitus by the patient in up to 87.5%.¹¹⁶116 Kreuzer PM, Goetz M, Holl M, Schecklmann M, Landgrebe M, Staudinger S, et al. Mindfulness-and body-psychotherapy-based group treatment of chronic tinnitus: a randomized controlled pilot study. BMC Complement Altern Med. 2012;12:235.

Physical therapy in the treatment of chronic tinnitus

There are anatomical and functional associations between the ears and the mandible, face, nape and neck. Somatosensory tinnitus may be divided according to the topography of symptoms as (1) Craniofacial Dysfunction (CFD), and (2) Craniocervical Dysfunction (CCD).

CFD

They represent TMJ, masticatory system muscles and/or neuromuscular attachment dysfunctions. In 2003, Tuz et al. evaluated the prevalence of 4 otologic symptoms (otalgia, tinnitus, vertigo and hearing loss) in 200 patients with temporomandibular dysfunction and compared them with an asymptomatic control group.¹¹⁷117 Tuz HH, Onder EM, Kisnisci RS. Prevalence of otologic complaints in patients with temporomandibular disorder. Am J Orthod Dentofac Orthop. 2003;123:620-3. Tinnitus is at least 2 times more prevalent in patients with CFD. The following are associated factors: dental malocclusion associated with stress and muscular tension, inadequate masticatory power and/or muscular overload during the masticatory process, bruxism, anxiety disorders, systemic diseases that alter bone structures, postural disorders, sleep deprivation. The otologic symptomatology is due to the fact that the ears and the TMJ and its attachments share common innervations (mainly the V and VII cranial nerves) and have neural networks crossed at the level of the brainstem that are able to modulate each other. The cranio-cervical-facial system (mouth, face, head and neck) can modulate the onset and/or perception of tinnitus twice as frequently in tinnitus patients than in the ones without this symptom.¹¹⁸118 Levine RA, Abel M, Cheng H. CNS somatosensory-auditory interactions elicit or modulate tinnitus. Exp Brain Res. 2003;:643-8. The long-term effects of TMJ treatment have been described in 73 tinnitus patients and in 50 patients with tinnitus and TMJ dysfunction.¹¹⁹119 Tullberg M, Ernberg M. Long-term effect on tinnitus by treatment of temporomandibular disorders: a two-year follow-up by questionnaire. Acta Odontol Scand. 2006;64:89-96. In the treatment group, 43% of the patients had tinnitus improvement, 39% had unaltered tinnitus, and 18% had symptom worsening.

CCD

A recent study showed that among treated patients with non-pulsatile tinnitus, 43% were diagnosed with somatosensory tinnitus.¹²⁰120 Michiels S, De Hertogh W, Truijen S, Van de Heyning P. Cervical spine dysfunctions in patients with chronic subjective tinnitus. Otol Neurotol. 2015;36:741-5. CCD may be related to inadequate posture of the body. The patient has pain and physiological movement limitation, neck stiffness, sensitivity and/or pain at cervical muscle palpation, radiated pains, headaches and joint dysfunction. Cervical proprioception dysfunction may cause tinnitus and other neurotological symptoms. The patient should be referred early for multidisciplinary evaluation, including otorhinolaryngologist, and physical therapist, physiatrist or orthopedist. In 2012, researchers recruited 71 patients with tinnitus and myofascial pain, divided into one group for deactivation of TP and one placebo group.¹²¹121 Rocha CB, Sanchez TG. Efficacy of myofascial trigger point deactivation for tinnitus control. Braz J Otorhinolaryngol. 2012;78:21-6. There was effective improvement in tinnitus in the active therapy group compared to the placebo. There was an association between pain and tinnitus improvement. The factors correlated with better response to TP deactivation therapy were: (1) the presence of myofascial pain around the ear, (2) the laterality between the symptoms (ipsilateral tinnitus and pain), (3) the reduction of tinnitus by muscle palpation in the initial evaluation.

Invasive neuromodulation (cochlear implant (CI))

Mertens et al. evaluated the effect of CI on disabling tinnitus of unilateral hearing loss patients for more than 10 years.¹²²122 Mertens G, De Bodt M, Van de Heyning P. Cochlear implantation as a long-term treatment for ipsilateral incapacitating tinnitus in subjects with unilateral hearing loss up to 10 years. Hear Res. 2016;331:1-6. Among patients with unilateral anacusis, 83% had tinnitus suppression. Among those with asymmetric hearing loss, 55% reported that the main benefit was auditory improvement. The improvement occurred within the first 3 months after activation. A randomized controlled trial evaluated the effect of CI, unilateral or bilateral, on tinnitus perception in patients with severe bilateral post-lingual deafness.¹²³123 van Zon A, Smulders YE, Ramakers GGJ, Stegeman I, Smit AL, Van Zanten GA, et al. Effect of unilateral and simultaneous bilateral cochlear implantation on tinnitus: a randomized controlled trial. Laryngoscope. 2015;126:956-61. Before the CI, the prevalence of tinnitus was 42.1%. One year after the CI, the TQ and THI questionnaire scores showed a reduction of 71.4% and 80%, respectively. Although the CI is effective in reducing tinnitus, the patient should be aware of the possibility of its onset or worsening after the procedure. A systematic review assessed the effect of CI on tinnitus in patients with bilateral SHL (sensorineural hearing loss). There was partial improvement of tinnitus in 25 to 72% and total suppression between 8 and 45%. Tinnitus remained unchanged in 0 to 36% of cases and worsened in 0-25% of the time.¹²⁴124 Ramakers GGJ, van Zon A, Stegeman I, Grolman W. The effect of cochlear implantation on tinnitus in patients with bilateral hearing loss: a systematic review. Laryngoscope. 2015;125:2584-92. A retrospective study by Kloostra et al.¹²⁵125 Kloostra FJJ, Arnold R, Hofman R, Van Dijk P. Changes in tinnitus after cochlear implantation and its relation with psychological functioning. Audiol Neurotol. 2015;20:81-9. showed that 51.3% of 212 implanted patients had tinnitus. After the CI, 55.6% of the patients reported tinnitus improvement or suppression, while 8.2% had symptom worsening. Among the patients without tinnitus in the preoperative period, 19.6% started to perceive the symptom in the postoperative period.

Conclusion

It is undeniable that the great medical advances in the last decades have made possible the understanding of phenomena that were previously little known and even neglected, such as tinnitus. The large volume-of information presented in this article is proof of this fact. The complexity and variety of factors that can influence the sensation and degree of discomfort make each patient unique and worthy of individualized attention and care, often with interdisciplinary cooperation. The authors hope that this review may provide support to professionals in assisting them in the understanding, approach and treatment of patients with tinnitus and sound intolerance.

References

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