Traumatic dislocation of middle ear ossicles: A new computed tomography classification predicting hearing outcome

To assess the feasibility of radiologic measurements and find out whether hearing outcome could be predicted based on computer tomography (CT) scan evaluation in patients with temporal bone fractures and suspected ossicular joint dislocation. We assessed 4002 temporal bone CT scans and identified 34...

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Bibliographic Details
Published in:PloS one 2021-02, Vol.16 (2), p.e0245796-e0245796
Main Authors: Mantokoudis, Georgios, Schläpfer, Njima, Kellinghaus, Manuel, Hakim, Arsany, von Werdt, Moritz, Caversaccio, Marco D, Wagner, Franca
Format: Article
Language:English
Subjects:
Biology and Life Sciences
Complications and side effects
Computed tomography
CT imaging
Diagnosis
Diagnostic systems
Dislocation
Dislocations
Drug dosages
Ear ossicles
Eardrum
Editing
Emergency medical care
Emergency medical services
Evaluation
Fractures
Head
Head and neck
Head injuries
Hearing
Hearing loss
Injuries
Medical imaging
Medicine and Health Sciences
Middle ear
Neck
Neuroimaging
Otolaryngology
Patients
Research and Analysis Methods
Risk factors
Social Sciences
Surgery
Temporal bone
Trauma
Traumatic brain injury
Variables
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Summary:To assess the feasibility of radiologic measurements and find out whether hearing outcome could be predicted based on computer tomography (CT) scan evaluation in patients with temporal bone fractures and suspected ossicular joint dislocation. We assessed 4002 temporal bone CT scans and identified 34 patients with reported ossicular joint dislocation due to trauma. We excluded those with no proven traumatic ossicular dislocation in CT scan and patients with bilateral temporal bone fractures. We measured four parameters such as malleus-incus axis distance, malleus-incus angle at midpoints, malleus- incus axis angle and ossicular joint space. The contralateral healthy side served as its own control. Hearing outcome 1-3 months after the index visit was analyzed. We assessed diagnostic accuracy and performed a logistic regression using radiologic measurement parameters for outcome prediction of conductive hearing loss (defined as >20dB air-bone gap). We found excellent inter-rater agreement on the measurement of axis deviation between incus and malleus in CT scans (interclass correlation coefficient 0.81). The larger the deviation of incus and malleus axis, the higher probability of poor hearing outcome (odds ratio (OR) 2.67 per 0.1mm, p = .006). A cut-off value for the axis deviation of 0.25mm showed a sensitivity of 0.778 and a specificity of 0.94 (p < .001) for discrimination between poor and good hearing outcome in terms of conductive hearing loss. Adequate assessment of high resolution CT scans of temporal bone in which ossicular chain dislocation had occurred after trauma was feasible. Axis deviations of the incus and the malleus were strongly predictive for poor hearing outcome in terms of air conduction 1-3 months after trauma. We propose a 3-level classification system for hearing outcome prediction based on radiologic measures.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0245796