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Revision as of 15:33, 22 December 2014

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Tinnitus (IPA pronunciation: Template:IPA or Template:IPA,[1] from the Latin word for "ringing"[2]) is the perception of sound in the human ear in the absence of corresponding external sound(s).

Pathophysiology

Pathophysiology of Subjective Tinnitus

One of the possible mechanisms relies in the otoacustic emissions. The inner ear contains thousands of minute hairs which vibrate in response to sound waves and cells which convert neural signals back into acoustical vibrations. The sensing cells are connected with the vibratory cells through a neural feedback loop, whose gain is regulated by the brain. This loop is normally adjusted just below onset of self-oscillation, which gains the ear spectacular sensitivity and selectivity. If something changes, it's easy for the delicate adjustment to cross the barrier of oscillation and tinnitus results. This can actually be measured by a very sensitive microphone outside the ear.

Other possible mechanisms of how things can change in the ear is damage to the receptor cells. Although receptor cells can be regenerated from the adjacent supporting Deiters cells after injury in birds, reptiles, and amphibians, in mammals it is believed that they can be produced only during embryogenesis. Although mammalian Deiters cells reproduce and position themselves appropriately for regeneration, they have not been observed to transdifferentiate into receptor cells except in tissue culture experiments.[3][4] Therefore, if these hairs become damaged, through prolonged exposure to excessive decibel levels, for instance, then deafness to certain frequencies occurs. In tinnitus, they may falsely relay information at a certain frequency that an externally audible sound is present, when it is not.

The mechanisms of subjective tinnitus are often obscure. While it is not surprising that direct trauma to the inner ear can cause tinnitus, other apparent causes (e.g., temporomandibular joint disorder (TMJ) and dental disorders) are difficult to explain. Recent research has proposed that there are two distinct categories of subjective tinnitus: Otic tinnitus, caused by disorders of the inner ear or the acoustic nerve, and somatic tinnitus, caused by disorders outside the ear and nerve but still within the head or neck. It is further hypothesized that somatic tinnitus may be due to "central crosstalk" within the brain, as certain head and neck nerves enter the brain near regions known to be involved in hearing.

While most discussions of tinnitus tend to stress physical mechanisms, there is strong evidence that the level of an individual's awareness of their tinnitus can be stress-related, and so should be addressed by improving the state of the nervous system generally, using gradual, unobtrusive, long-term treatments. [2]

Pathophysiology of Objective Tinnitus

In a minority of cases, a clinician can perceive an actual sound (e.g., a bruit) emanating from the patient's ears. This is called objective tinnitus. Objective tinnitus can arise from muscle spasms that cause clicks or crackling around the middle ear.[5] Some people experience a sound that beats in time with the pulse (pulsatile tinnitus[6]). Pulsatile tinnitus is usually objective in nature, resulting from altered blood flow or increased blood turbulence near the ear (such as from atherosclerosis or venous hum[7]), but it can also arise as a subjective phenomenon from an increased awareness of blood flow in the ear.[6] Rarely, pulsatile tinnitus may be a symptom of potentially life-threatening conditions such as carotid artery aneurysm[8] or carotid artery dissection.[9]

Causes of subjective tinnitus

Tinnitus can have many different causes, but most commonly results from otologic disorders - the same conditions that cause hearing loss. The most common cause is noise-induced hearing loss, resulting from exposure to excessive or loud noises. Ototoxic drugs can cause tinnitus either secondary to hearing loss or without hearing loss, and may increase the damage done by exposure to loud noise, even at doses that are not in themselves ototoxic.[10]

Common Causes of Tinnitus[11]

Complete Differential Diagnosis of Tinnitus

Diagnosis

Symptoms

Tinnitus can be perceived in one or both ears or in the head. It is usually described as a ringing noise, but in some patients it takes the form of a high pitched whining, buzzing, hissing, humming, or whistling sound, or as ticking, clicking, roaring, "crickets" or "locusts", tunes, songs, or beeping.[12] It has also been described as a "whooshing" sound, as of wind or waves.[13] Tinnitus is not itself a disease but a symptom resulting from a range of underlying causes, including ear infections, foreign objects or wax in the ear, and injury from loud noises. Tinnitus is also a side-effect of some oral medications, such as aspirin, and may also result from an abnormally low level of serotonin activity.

The sound perceived may range from a quiet background noise to one that can be heard even over loud external sounds. The term "tinnitus" usually refers to more severe cases. Heller and Bergman (1953) conducted a study of 80 tinnitus-free university students placed in a soundproofed room found that 93% reported hearing a buzzing, pulsing or whistling sound. Cohort studies have demonstrated that damage to hearing (among other health effects) from unnatural levels of noise exposure is very widespread in industrialized countries.[14]

Because tinnitus is often defined as a subjective phenomenon, it is difficult to measure using objective tests, such as by comparison to noise of known frequency and intensity, as in an audiometric test. The condition is often rated clinically on a simple scale from "slight" to "catastrophic" according to the practical difficulties it imposes, such as interference with sleep, quiet activities, or normal daily activities.[15] For research purposes, the more elaborate Tinnitus Handicap Inventory is often used.[16]

Physical examination

The ears should be examined for wax and a foreign body.

Measuring tinnitus

The basis of quantitative measurement of tinnitus relies on the brain’s tendency to select out only the loudest sounds heard. Based on this tendency, the amplitude of a patient's tinnitus can be measured by playing sample sounds of known amplitude and asking the patient which he or she hears. The tinnitus will always be equal to- or less than sample noises heard by the patient. This method works very well to gauge objective tinnitus (see above.) For example: if a patient has a pulsatile paraganglioma in his ear, he will not be able to hear the blood flow through the tumor when the sample noise is 5 decibels louder than the noise produced by the blood. As sound amplitude is gradually decreased, the tinnitus will become audible, and the level at which it does so provides an estimate of the amplitude of the objective tinnitus.

Objective tinnitus, however, is quite uncommon. Often patients with pulsatile tumors will report other coexistent sounds, distinct from the pulsatile noise, that will persist even after their tumor has been removed. This is generally subjective tinnitus, which, unlike the objective form, cannot be tested by comparative methods.

If a subject is focused on a sample noise, they can often detect it to levels below 5 decibels, which would indicate that their tinnitus would be almost impossible to hear. Conversely, if the same test subject is told to focus only on their tinnitus, they will report hearing the sound even when test noises exceed 70 decibels, making the tinnitus louder than a ringing phone. This quantification method suggests that subjective tinnitus relates only to what the patient is attempting to hear. Patients actively complaining about tinnitus could thus be assumed to be people who have become obsessed with the noise. This is only partially true. The problem is involuntary; generally complaining patients simply cannot override or ignore their tinnitus. The noise is often present in both quiet and noisy environments, and can become quite intrusive to their daily lives.

Subjective tinnitus may not always be correlated with ear malfunction or hearing loss. Even people with near-perfect hearing may still complain of it. Tinnitus may also have a connection to memory problems, anxiety, fatigue or a general state of poor health.

Prevention

Tinnitus and hearing loss can be permanent conditions, thus, precautionary measures are advisable. If a ringing in the ears is audible after exposure to a loud environment, such as a rock concert or a work place, it means that damage has been done. Prolonged exposure to noise levels as low as 70 dB can result in damage to hearing (see noise health effects). If it is not possible to limit exposure, earplugs or ear defenders should be worn. For musicians and DJs, special musicians' earplugs can lower the volume of the music without distorting the sound and can prevent tinnitus from developing in later years.

It is also important to check medications for potential ototoxicity. Ototoxicity can be cumulative between medications, or can greatly increase the damage done by noise. If ototoxic medications must be administered, close attention by the physician to prescription details, such as dose and dosage interval, can reduce the damage done.[17]

Treatment

There are many treatments that are effective for objective tinnitus. But there are no clear effective treatments for subjective tinnitus. Conversely, tinnitus may resolve without any treatment. In the subjective tinnitus the treatment of the associated problems like fatigue, anxiety and a bad healthy status is essential to achieve success. Effective treatments include:

Objective tinnitus:

  • Gamma knife radiosurgery (glomus jugulare)[18]
  • Shielding of cochlea by teflon implant[19]
  • Botulinum toxin (palatal tremor)[20]
  • Propranolol and clonazepam (arterial anatomic variation)[21]

Subjective tinnitus:

  • Drugs and nutrients
    • Lidocaine, injection into the inner ear found to surpress the tinnitus for 20 minutes, according to a Swedish study. [22]
    • Benzodiazepines (xanax, ativan, klonopin)
    • Avoidance of caffeine, nicotine, salt[23][24][25]
    • Avoidance of or consumption of alcohol[26][25]
    • Zinc supplementation (where serum zinc deficiency is present)[27][28][29]
    • Acamprosate[30]
    • Etidronate or sodium fluoride (otosclerosis)[31]
    • Lignocaine or anticonvulsants (usually in patients responsive to white noise masking)[32]
    • Carbemazepine[33]
    • Melatonin (especially for those with sleep disturbance)[34]
    • Sertraline[35]
    • Vitamin combinations (lipo-flavonoid)[36]
  • Electrical stimulation
    • Transcranial magnetic stimulation or transcranial direct current stimulation[37][38]
    • Transcutaneous electrical nerve stimulation[39]
    • Direct stimulation of auditory cortex by implanted electrodes[40]
  • Surgery
    • Repair of perilymph fistula[41]
  • External sound
  • Psychological
    • Cognitive behavior therapy[50]
  • Light-based

Although there are no specific cures for tinnitus, anything that brings the person out of the "fight or flight" stress response helps symptoms recede over a period of time. Calming body-based therapies, counseling and psychotherapy help restore well-being, which in turn allows tinnitus to settle. Chronic tinnitus can be quite stressful psychologically, as it distracts the affected individual from mental tasks and interferes with sleep, particularly when there is no external sound. Additional steps in reducing the impact of tinnitus on adverse health consequences include: a review of medications that may have tinnitus as a side effect; a physical exam to reveal possible underlying health conditions that may aggravate tinnitus; receiving adequate rest each day; and seeking a physician's advice concerning a sleep aid to allow for a better sleep pattern.

Related Chapters

External Links

References

  1. American Tinnitus Association | Home | Help For Ringing In The Ears
  2. Dictionary of tinnitus - Merriam-Webster Online Dictionary
  3. Supporting cell proliferation after hair cell injury in mature guinea pig cochlea in vivo
  4. Mammalian cochlear supporting cells can divide and trans-differentiate into hair cells
  5. ENT Health Information > Hearing > Tinnitus
  6. 6.0 6.1 RNID.org.uk: Information and resources: Our factsheets and leaflets: Tinnitus: Factsheets and leaflets
  7. Diagnosis and cure of venous hum tinnitus
  8. Otologic manifestations of petrous carotid aneurysms
  9. Carotid Artery Dissection
  10. Ototoxic drugs and noise
  11. Diagnostic approach to tinnitus
  12. RNID.org.uk: Information and resources: Tinnitus: About tinnitus: What is tinnitus
  13. Medline Plus Medical Encyclopedia: Ear noises or buzzing
  14. Noise exposure and subjective hearing symptoms among school children in Sweden
  15. Guidelines for the Grading of Tinnitus Severity
  16. Development of the Tinnitus Handicap Inventory
  17. IngentaConnect Drug-induced Otoxicity: Current Status
  18. Treatment of glomus jugulare tumors in patients with advanced age: planned limited surgical resection followed by staged gamma knife radiosurgery: a preliminary report
  19. Pulsatile tinnitus and the intrameatal vascular loop: why do we not hear our carotids?
  20. Botulinum toxin is effective and safe for palatal tremor: a report of five cases and a review of the literature
  21. Pulsatile tinnitus: treatment with clonazepam and propranolol
  22. Swedish website about tinnitus
  23. Rogers, June: "Only When I Eat: Hope at Last". Ki Publishing Co-operative. UK ISBN 0951 0769 06
  24. Vascular decompression of the cochlear nerve in tinnitus sufferers
  25. 25.0 25.1 Meniere's disease: differential diagnosis and treatment
  26. Patients' reports of the effect of alcohol on tinnitus
  27. The role of zinc in the treatment of tinnitus
  28. The role of zinc in management of tinnitus
  29. Zinc in the management of tinnitus. Placebo-controlled trial
  30. Tinnitus treatment with acamprosate: double-blind study
  31. Etidronate for the the neurotologic symptoms of otosclerosis: preliminary study [sic]
  32. Drugs in the treatment of tinnitus
  33. Typewriter tinnitus: a carbamazepine-responsive syndrome related to auditory nerve vascular compression
  34. The effects of melatonin on tinnitus and sleep
  35. The effects of sertraline on severe tinnitus suffering--a randomized, double-blind, placebo-controlled study
  36. Williams HL, Maher FT, Corbin KB, et al: Eriodictyol glycoside in the treatment of Meniere’s disease. Ann Otol Rhinol Laryngol 72:1082, 1963.
  37. Transcranial magnetic stimulation for the treatment of tinnitus: a new coil positioning method and first results
  38. Transient tinnitus suppression induced by repetitive transcranial magnetic stimulation and transcranial direct current stimulation
  39. Treatment of tinnitus with transcutaneous electrical nerve stimulation improves patients' quality of life
  40. Primary and secondary auditory cortex stimulation for intractable tinnitus
  41. Perilymph fistula--45 case analysis
  42. Tinnitus masker - sonic designs by Jon Dattorro...
  43. Long-term clinical trial of tinnitus retraining therapy
  44. Outcomes of clinical trial: tinnitus masking versus tinnitus retraining therapy
  45. Auditive stimulation therapy as an intervention in subacute and chronic tinnitus: a prospective observational study
  46. OHSU Tinnitus Clinic: Comprehensive Treatment Programs including Tinnitus Retraining Therapy (TRT)
  47. Ultra-high-frequency ultrasonic external acoustic stimulation for tinnitus relief: a method for patient selection
  48. Tinnitus improvement with ultra-high-frequency vibration therapy
  49. Subdividing tinnitus into bruits and endogenous, exogenous, and other forms
  50. Treatment of tinnitus in the elderly: a controlled trial of cognitive behavior therapy
  51. http://www.tinnitusformula.com/infocenter/articles/treatments/LLLT.aspx

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