Martin Leinung scite author profile

The aim of this study was to evaluate artifacts produced by cochlear implants (CI) during 3.0 Tesla (T) magnetic resonance imaging of the brain using different sequences on phantom and cadaveric specimens. A phantom and three cadaveric specimens with CIs were imaged using a 3.0 T clinical scanner. Artifacts were analyzed quantitatively and according to the sequence used. Different brain regions were evaluated for image distortion and limitation of diagnostic significance. In cadaver studies, all sequences generated signal-void areas around the implant. In T2-weighted sequences, additional periodic shadowing was discovered. Anatomical structures of the brain on the contralateral side of the CI were for the most part undistorted. At 3T, artifacts around CIs with non-removable magnets compromise image quality of the nearby brain regions and diagnosis of brain lesions is limited. In the contralateral hemisphere, diagnostic accuracy is only marginally limited.

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Contact endoscopy for the evaluation of the pharyngeal and laryngeal mucosa

Warnecke

Averbeck

Leinung

et al. 2009

The Laryngoscope

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Demagnetization of Cochlear Implants and Temperature Changes in 3.0T MRI Environment

Majdani

Leinung

Rau

et al. 2008

Otolaryngol.--head neck surg.

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Martin Leinung

A robot-guided minimally invasive approach for cochlear implant surgery: preliminary results of a temporal bone study

Artifacts caused by cochlear implants with non-removable magnets in 3T MRI: phantom and cadaveric studies

Contact endoscopy for the evaluation of the pharyngeal and laryngeal mucosa

Demagnetization of Cochlear Implants and Temperature Changes in 3.0T MRI Environment

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