Inner ear damage following electric current and lightning injury: a literature review

Audiovestibular sequelae of electrical injury, due to lightning or electric current, are probably much more common than indicated in literature. The aim of the study was to review the impact of electrical injury on the cochleovestibular system. Studies were identified through Medline, Embase, CINAHL...

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Bibliographic Details
Published in:European archives of oto-rhino-laryngology 2014-05, Vol.271 (5), p.855-861
Main Authors: Modayil, P. C., Lloyd, G. W., Mallik, A., Bowdler, D. A.
Format: Article
Language:English
Subjects:
Accidents, Occupational
Deafness - diagnosis
Deafness - therapy
Ear, Inner - injuries
Electric Injuries - diagnosis
Electric Injuries - therapy
Head and Neck Surgery
Hearing Loss, Sensorineural - diagnosis
Hearing Loss, Sensorineural - therapy
Humans
Lightning Injuries - diagnosis
Lightning Injuries - therapy
Medicine
Medicine & Public Health
Meniere Disease - diagnosis
Meniere Disease - therapy
Neurosurgery
Otorhinolaryngology
Prognosis
Review Article
United Kingdom
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Summary:Audiovestibular sequelae of electrical injury, due to lightning or electric current, are probably much more common than indicated in literature. The aim of the study was to review the impact of electrical injury on the cochleovestibular system. Studies were identified through Medline, Embase, CINAHL and eMedicine databases. Medical Subject Headings used were ‘electrical injury’, ‘lightning’, ‘deafness’ and ‘vertigo’. All prospective and retrospective studies, case series and case reports of patients with cochlear or vestibular damage due to lightning or electrical current injury were included. Studies limited to external and middle ear injuries were excluded. Thirty-five articles met the inclusion criteria. Fifteen reported audiovestibular damage following electric current injury (domestic or industrial); a further 15 reported lightning injuries and five concerned pathophysiology and management. There were no histological studies of electrical current injury to the human audiovestibular system. The commonest acoustic insult after lightning injury is conductive hearing loss secondary to tympanic membrane rupture and the most frequent vestibular symptom is transient vertigo. Electrical current injuries predominantly cause pure sensorineural hearing loss and may significantly increase a patient’s lifetime risk of vertigo. Theories for cochleovestibular damage in electrical injury include disruption of inner ear anatomy, electrical conductance, hypoxia, vascular effects and stress response hypothesis. The pathophysiology of cochleovestibular damage following electrical injury is unresolved. The mechanism of injury following lightning strike is likely to be quite different from that following domestic or industrial electrical injury. The formulation of an audiovestibular management protocol for patients who have suffered electrical injuries and systematic reporting of all such events is recommended.
ISSN:0937-4477
1434-4726
DOI:10.1007/s00405-013-2544-7