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Insights into Imaging
Published in: Insights into Imaging 3/2016

Open Access 01-06-2016 | Pictorial Review

Post traumatic deafness: a pictorial review of CT and MRI findings

Authors: Olivier Maillot, Arnaud Attyé, Eric Boyer, Olivier Heck, Adrian Kastler, Sylvie Grand, Sébastien Schmerber, Alexandre Krainik

Published in: Insights into Imaging | Issue 3/2016

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Abstract

Hearing loss is a common functional disorder after trauma, and radiologists should be aware of the ossicular, labyrinthine or brain lesions that may be responsible. After a trauma, use of a systematic approach to explore the main functional components of auditory pathways is essential. Conductive hearing loss is caused by the disruption of the conductive chain, which may be due to ossicular luxation or fracture. This pictorial review firstly describes the normal 2-D and 3-D anatomy of the ossicular chain, including the incudo-malleolar and incudo-stapedial joints. The role of 3-D CT in the post-traumatic evaluation of injury to the temporal bone is then evaluated. In the case of sensorineural hearing loss, CT can detect pneumolabyrinth and signs of perilymphatic fistulae but fails to detect subtle lesions within the inner ear, such as labyrinthine haemorrhage or localized brain axonal damage along central auditory pathways. The role that MRI with 3-D-FLAIR acquisition plays in the detection of inner ear haemorrhage and post-traumatic lesions of the brain parenchyma that may lead to auditory agnosia is also discussed.

Key Points

The most common middle ear injuries are incudo-malleolar and incudo-stapedial joint luxation.
In patients with SNHL, CT can detect pneumolabyrinth or perilymphatic fistula
3-D-FLAIR MRI appears the best sequence to highlight labyrinthine haemorrhage
Axonal damage and brain hematoma may lead to deafness
Literature
1.
Sun GH, Shoman NM, Samy RN et al (2011) Do contemporary temporal bone fracture classification systems reflect concurrent intracranial and cervical spine injuries? Laryngoscope 121:929–932CrossRefPubMed
2.
Cvorovic L, Ljiljana C, Jovanovic MB et al (2012) Management of complication from temporal bone fractures. Eur Arch Otorhinolaryngol 269:399–403CrossRefPubMed
3.
Fatterpekar GM, Doshi AH, Dugar M et al (2006) Role of 3D CT in the evaluation of the temporal bone. Radiographics 26(Suppl 1):S117–S132CrossRefPubMed
4.
Leng S, Diehn FE, Lane JI et al (2015) Temporal bone CT: improved image quality and potential for decreased radiation dose using an ultra-high-resolution scan mode with an iterative reconstruction algorithm. AJNR Am J Neuroradiol 36:1599–1603CrossRefPubMed
5.
Mark AS, Seltzer S, Harnsberger HR (1993) Sensorineural hearing loss: more than meets the eye? AJNR Am J Neuroradiol 14:37–45PubMed
6.
Petrovic BD, Futterer SF, Hijaz T et al (2010) Frequency and diagnostic utility of intralabyrinthine FLAIR hyperintensity in the evaluation of internal auditory canal and inner ear pathology. Acad Radiol 17:992–1000CrossRefPubMed
7.
Ulug T, Ulubil SA (2006) Contralateral labyrinthine concussion in temporal bone fractures. J Otolaryngol 35:380–383CrossRefPubMed
8.
9.
Morvan JB, Cathelinaud O, Rivière D et al (2012) Diagnosis and treatment of post-traumatic perilymphatic fistula: report of 16 cases. Rev Laryngol Otol Rhinol (Bord) 133:171–176
10.
Swartz JD Temporal bone trauma: imaging of the temporal bone, 4th edn
11.
Algin O, Berçin S, Akgunduz G et al (2012) Evaluation of labyrinthine fistula by MR cisternography. Emerg Radiol 19:557–560CrossRefPubMed
12.
Mark AS, Fitzgerald D (1993) Segmental enhancement of the cochlea on contrast-enhanced MR: correlation with the frequency of hearing loss and possible sign of perilymphatic fistula and autoimmune labyrinthitis. AJNR Am J Neuroradiol 14:991–996PubMed
13.
Wood CP, Hunt CH, Bergen DC et al (2014) Tympanic plate fractures in temporal bone trauma: prevalence and associated injuries. AJNR Am J Neuroradiol 35:186–190CrossRefPubMed
14.
Ilea A, Butnaru A, Sfrângeu SA et al (2014) Role of mastoid pneumatization in temporal bone fractures. AJNR Am J Neuroradiol 35:1398–1404CrossRefPubMed
15.
Meriot P, Veillon F, Garcia JF et al (1997) CT appearances of ossicular injuries. Radiographics 17:1445–1454CrossRefPubMed
16.
Martin C, Michel F, Pouget J-F et al (2004) Pathology of the ossicular chain: comparison between virtual endoscopy and 2D spiral CT-data. Otol Neurotol 25:215–219CrossRefPubMed
17.
18.
Lourenco MT, Yeakley JW, Ghorayeb BY (1995) The “Y” sign of lateral dislocation of the incus. Am J Otol 16:387–392PubMed
19.
Bogaerts M, Waterval J, van Dinther J et al (2014) Treatment of traumatic stapediovestibular luxation: case report with the introduction of a new technique and review of literature. Otol Neurotol 35:582–588CrossRefPubMed
20.
Hatano A, Rikitake M, Komori M et al (2009) Traumatic perilymphatic fistula with the luxation of the stapes into the vestibule. Auris Nasus Larynx 36:474–478CrossRefPubMed
21.
Kagoya R, Ito K, Kashio A et al (2010) Dislocation of stapes with footplate fracture caused by indirect trauma. Ann Otol Rhinol Laryngol 119:628–630PubMed
22.
23.
Delrue S, De Foer B, van Dinther J et al (2015) Handling an isolated malleus handle fracture: current diagnostic work-up and treatment options. Ann Otol Rhinol Laryngol 124:244–249CrossRefPubMed
24.
Blanchard M, Abergel A, Vérillaud B et al (2011) Isolated malleus-handle fracture. Auris Nasus Larynx 38:439–443CrossRefPubMed
25.
Park GY, Choi JE, Cho Y-S (2014) Traumatic ossicular disruption with isolated fracture of the stapes suprastructure: comparison with incudostapedial joint dislocation. Acta Otolaryngol 134:1225–1230CrossRefPubMed
26.
Attyé A, Dumas G, Troprès I et al (2015) Recurrent peripheral vestibulopathy: is MRI useful for the diagnosis of endolymphatic hydrops in clinical practice? Eur Radiol
27.
Nieuwenhuys R (1984) Anatomy of the auditory pathways, with emphasis on the brain stem. Adv Otorhinolaryngol 34:25–38PubMed
28.
29.
Dubrulle F, Kohler R, Vincent C et al (2010) Differential diagnosis and prognosis of T1-weighted post-gadolinium intralabyrinthine hyperintensities. Eur Radiol 20:2628–2636CrossRefPubMed
30.
Sugiura M, Naganawa S, Sato E, Nakashima T (2006) Visualization of a high protein concentration in the cochlea of a patient with a large endolymphatic duct and sac, using three-dimensional fluid-attenuated inversion recovery magnetic resonance imaging. J Laryngol Otol 120:1084–1086CrossRefPubMed
31.
Naganawa S, Ishihara S, Iwano S et al (2009) Detection of presumed hemorrhage in the ampullar endolymph of the semicircular canal: a case report. Magn Reson Med Sci 8:187–191CrossRefPubMed
32.
Prisman E, Ramsden JD, Blaser S, Papsin B (2011) Traumatic perilymphatic fistula with pneumolabyrinth: diagnosis and management. Laryngoscope 121:856–859CrossRefPubMed
33.
Lee EJ, Yang YS, Yoon YJ (2012) Case of bilateral pneumolabyrinth presenting as sudden, bilateral deafness, without temporal bone fracture, after a fall. J Laryngol Otol 126:717–720CrossRefPubMed
34.
Naganawa S, Yamazaki M, Kawai H et al (2012) Visualization of endolymphatic hydrops in Ménière’s disease after single-dose intravenous gadolinium-based contrast medium: timing of optimal enhancement. Magn Reson Med Sci 11:43–51CrossRefPubMed
35.
DiBiase P, Arriaga MA (1997) Post-traumatic hydrops. Otolaryngol Clin North Am 30:1117–1122PubMed
36.
Hattiangadi N, Pillion JP, Slomine B et al (2005) Characteristics of auditory agnosia in a child with severe traumatic brain injury: a case report. Brain Lang 92:12–25CrossRefPubMed
37.
38.
Sydlowski SA, Levy M, Hanks WD et al (2013) Auditory profile in superficial siderosis of the central nervous system: a prospective study. Otol Neurotol 34:611–619CrossRefPubMed
39.
Kim C-S, Song J-J, Park M-H et al (2006) Cochlear implantation in superficial siderosis. Acta Otolaryngol 126:892–896CrossRefPubMed
40.
41.
Profant O, Škoch A, Balogová Z et al (2014) Diffusion tensor imaging and MR morphometry of the central auditory pathway and auditory cortex in aging. Neuroscience 260:87–97CrossRefPubMed
42.
Beauchamp MH, Beare R, Ditchfield M et al (2013) Susceptibility weighted imaging and its relationship to outcome after pediatric traumatic brain injury. Cortex 49:591–598CrossRefPubMed
43.
Delouche A, Attyé A, Heck O et al (2016) Diffusion MRI: pitfalls, literature review and future directions of research in mild traumatic brain injury. Eur J Radiol 85:25–30CrossRefPubMed
Metadata
Title
Post traumatic deafness: a pictorial review of CT and MRI findings
Authors
Olivier Maillot
Arnaud Attyé
Eric Boyer
Olivier Heck
Adrian Kastler
Sylvie Grand
Sébastien Schmerber
Alexandre Krainik
Publication date
01-06-2016
Publisher
Springer Berlin Heidelberg
Published in
Insights into Imaging / Issue 3/2016
Electronic ISSN: 1869-4101
DOI
https://doi.org/10.1007/s13244-016-0490-9

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