Summary
Acoustic trauma is the sustainment of an injury to the eardrum as a result of a very loud noise. Its scope usually covers loud noises with a short duration, such as an explosion, gunshot or a burst of loud shouting. Quieter sounds that are concentrated in a narrow frequency may also cause damage to specific frequency receptors.[1] The range of severity can vary from pain to hearing loss.[2]
| Acoustic trauma | |
|---|---|
| Specialty | Audiology |
Acute acoustic trauma can be treated by combining hyperbaric oxygen therapy (HBO) with corticosteroids. Acute noise exposure causes inflammation and lower oxygen supply in the inner ear. Corticosteroids hinder the inflammatory reaction and HBO provides an adequate oxygen supply. This therapy has been shown to be effective when initiated within three days after acoustic trauma. Therefore, this condition is considered an ENT emergency. [3]
Signs and Symptoms edit
Hazardous noise causes injury to the hearing mechanisms in the inner ear. Acoustic trauma may result in sensorineural HL (SNHL) that is either temporary (temporary threshold shift, TTS) or permanent (permanent threshold shift, PTS). A TTS will resolve with time, while the time frame for hearing recovery is unique in every case, any SNHL that persists beyond eight weeks after injury is most likely permanent and should be considered PTS.[4]
Causes edit
Acoustic trauma is an injury to the inner ear that's often caused by exposure to a high-decibel noise. This injury can occur after exposure to a single, loud noise or from exposure to noises at significant decibels over a longer period of time.[medical citation needed] Many cases have included a period of reduced hearing after exposure to loud sounds. Examples include after a concert or a visit to a discotheque or having worked with noisy equipment. This kind of hearing impairment is often temporary. After some recovery time, the acoustic trauma often will stop.[5]
Threshold of Hearing (Decibel, dB) edit
- 0-30: Faint
- 40-60: Moderate to quiet
- 70-90: Very noisy
- 100-120: Pain
- 130-180: Intolerable[6]
Pathophysiology edit
Acoustic trauma occurs when a continuous transient sounds transfers enough energy to a cochlea to result in necrosis of the outer hair cells (OHC), inner hair cells (IHC), and cause glutamate excitotoxicity of first-order afferent neurons of the spiral ganglion (cochlear synaptopathy). This can occur when an impact or impulse sound like an explosion occurs abruptly. When excessive, this force can lead to cellular metabolic overload, cell damage and cell death.[7] The force of that transient sound exceeds the elastic limit of the tissues. The organ of Corti can be sheared off the basilar membrane when the sound coming through the ear canal, middle ear and cochlea exceeds 132 dB. If the sound is more intense than 184 dB, the eardrum is ruptured. 184 dB and above usually comes from military sound exposures, such as with the explosion of an IED (improvised explosive device). When a person has a shock wave, not only is the eardrum ruptured, but also has ossicular discontinuities. The explosion or blast if powerful can cause traumatic brain injury. As a result, a person could have an auditory processing disability. Lung injures can develop as well as some injuries to the viscera.[8] Once exposure to damaging noise levels is discontinued, further significant progression of hearing loss stops. Individual susceptibility to noise-induced hearing loss varies greatly, but the reason that some people are more resistant to it while others are susceptible is not well understood.[7]
Diagnosis edit
The diagnosis is based on what environmental factors of that loud noise that was exposed. Audiometry will be used to detect signs of acoustic trauma. In this test, there are different sounds of varying loudness and of different tones that are exposed to more carefully assess what can be heard and what can't be heard.[5]
Treatment/Prevention edit
There are various treatment methods available depending on how severe the acoustic trauma is. Acoustic trauma cannot be reversed as of today. The goal of treatment is to protect the ear from further damage.[9] Below are possible preventive measures and treatment methods that could help in cases of acoustic trauma
Prognosis edit
Each episode of acoustic trauma results in permanent damage within the inner ear, even though the majority of patients, the symptoms will disappear and an audiogram will show normal hearing within a few hours to a few days. In some cases, the changes seen in the audiogram will only partially improve or remain permanent. One of the signs and symptoms of acoustic trauma is tinnitus and this may persist for a long time. In some cases, tinnitus may become a permanent condition.[10] There is no specific study done on Life Expectancy or statistical information for the prognosis of acoustic trauma. Overall, depending on how powerful the noise was and how and what degree of the severity, the prognosis is quite difficult to predict.[11]
Epidemiology edit
The prevalence depends on the environmental factors. Acoustic trauma is quite common during military service and during hunting activities where it's mainly associated with gun sports and particularly accidental shots. Of teenagers, 20-50 percent experience exposure to noise levels high enough to cause acute acoustic trauma.[10] Hearing loss due to noise is the second most common sensorineural hearing loss, after age-related hearing loss (presbycusis). Of more than 28 million Americans with some degree of hearing impairment, as many as 10 million have hearing loss caused by in part by excessive noise exposure in the workplace or during recreational activities.[12]
See also edit
References edit
- ^ Oberhaus, Daniel (5 April 2018). "A Former NASA Scientist Almost Lost His Hearing Because of a Toilet Lid". Motherboard. Vice Media. Retrieved 5 April 2018.
- ^ "Slideshow: Top Causes of Severe Hearing Loss". webmd.com.
- ^ a b c Bayoumy, AB; van der Veen, EL (2019). "Effect of hyperbaric oxygen therapy and corticosteroid therapy in military personnel with acute acoustic trauma". Journal of the Royal Army Medical Corps. 166 (4): jramc–2018–001117. doi:10.1136/jramc-2018-001117. PMID 30612101. S2CID 58655791.
- ^ a b Esquivel, Carlos (5 September 2018). "Aural Blast Injury/Acoustic Trauma and Hearing Loss". Military Medicine. 183 (suppl_2): 78–82. doi:10.1093/milmed/usy167. PMID 30189086. Archived from the original on 2020-11-17.
- ^ a b c d e "Acoustic trauma - What is an acoustic trauma? | Learn more!". www.hear-it.org. Retrieved 2020-11-12.
- ^ SpeakerMasters (2019-04-04). "Noise Level Chart: Decibel Levels of Common Sounds With Examples". BoomSpeaker.com. Retrieved 2020-11-12.
- ^ a b Rabinowitz, Peter (2000-05-01). "Noise-Induced Hearing Loss". American Family Physician. 61 (9): 2749–2756. ISSN 0002-838X. PMID 10821155.
- ^ Fligor, Brian J. "Acoustic Trauma from Recreational Noise Exposures Brian J. Fligor". AudiologyOnline. Retrieved 2020-11-12.
- ^ a b "Acoustic trauma: MedlinePlus Medical Encyclopedia". medlineplus.gov. Retrieved 2020-11-12.
- ^ a b c "Acute acoustic trauma | Evidence-Based Medicine Guidelines". evidence.unboundmedicine.com. Retrieved 2020-11-12.
- ^ Harada, Hirofumi; Shiraishi, Kimio; Kato, Toshihiko (2001-04-01). "Prognosis of acute acoustic trauma: a retrospective study using multiple logistic regression analysis". Auris Nasus Larynx. 28 (2): 117–120. doi:10.1016/S0385-8146(00)00117-6. ISSN 0385-8146. PMID 11240317.
- ^ Rabinowitz, Peter (2000-05-01). "Noise-Induced Hearing Loss". American Family Physician. 61 (9): 2749–2756. ISSN 0002-838X. PMID 10821155.