MRI during cochlear implant assessment: Should we image the whole brain?

Objectives Magnetic resonance imaging (MRI) is a standard part of a cochlear implant assessment in most centres. While there is ample literature on the temporal bone-specific imaging that is required, the role of whole brain imaging has not been as fully studied. We present the first report of the i...

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Bibliographic Details
Published in:Cochlear implants international 2013-01, Vol.14 (1), p.2-6
Main Authors: Proctor, Robin D, Gawne-Cain, Mary L, Eyles, Julie, Mitchell, Timothy E, Batty, Vincent B
Format: Article
Language:English
Subjects:
Adult
Aged
Auditory Pathways - abnormalities
Auditory Pathways - pathology
Brain - abnormalities
Brain - pathology
Brain Diseases - diagnosis
Brain Diseases - pathology
Cochlear implant
Cochlear Implantation - methods
Cochlear Nerve - abnormalities
Cochlear Nerve - pathology
Contraindications
Ear, Inner - abnormalities
Ear, Inner - pathology
Extent of imaging
Female
Humans
Imaging
Incidental Findings
Infant
Magnetic resonance imaging
Magnetic Resonance Imaging - methods
Male
Prognosis
Retrospective Studies
Temporal Bone - pathology
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Summary:Objectives Magnetic resonance imaging (MRI) is a standard part of a cochlear implant assessment in most centres. While there is ample literature on the temporal bone-specific imaging that is required, the role of whole brain imaging has not been as fully studied. We present the first report of the incidence of associated brain abnormalities in the whole cochlear implant population, including adults and consider their significance. Methods We retrospectively reviewed 51 (12 adults and 39 children) sequential cases since we added whole brain MRI sequences to our cochlear implant assessment protocol. We reviewed the scans for abnormalities of the cochlea and cochlear nerve and a neuroradiologist reviewed the images of the whole brain sequences for further abnormalities. Results We identified abnormalities on the whole brain sequences in 21 (41%) of these patients, 5 of 12 adults (42%) and 16 of 39 children (41%). Thirty-six (71%) patients subsequently had at least one implant inserted, 13 with abnormalities on whole brain MRI (36%) and 23 without. Of the 15 patients who did not undergo subsequent implantation, 8 had positive findings on their whole brain MRI sequence (53%). There was no statistical difference in the probability of finding an abnormality on the whole brain MRI between those who did and those who did not go on to have an implant (P = 0.35). There were abnormalities within the inner ear in five patients. Discussion The abnormalities detected on the whole brain images are heterogenous and of wide ranging clinical significance ranging from truly incidental findings to abnormalities that are so severe that they may predict a very poor prognosis such that an implant may contribute little.
ISSN:1467-0100
1754-7628
DOI:10.1179/1754762811Y.0000000029