The authors have no other funding, financial relationships, or conflicts of interest to disclose.
Mouse cochleostomy: A minimally invasive dorsal approach for modeling cochlear implantation
Version of Record online: 14 MAY 2013
Copyright © 2013 The American Laryngological, Rhinological and Otological Society, Inc.
Volume 123, Issue 12, pages E109–E115, December 2013
How to Cite
Soken, H., Robinson, B. K., Goodman, S. S., Abbas, P. J., Hansen, M. R. and Kopelovich, J. C. (2013), Mouse cochleostomy: A minimally invasive dorsal approach for modeling cochlear implantation. The Laryngoscope, 123: E109–E115. doi: 10.1002/lary.24174
This study was supported by NIH T32 DC000040 grant as well as NIDCD-P30 DC 010362.
- Issue online: 25 NOV 2013
- Version of Record online: 14 MAY 2013
- Manuscript Accepted: 2 APR 2013
- Manuscript Revised: 25 FEB 2013
- Manuscript Received: 10 JAN 2013
- Cochlear implant;
- acoustic evoked auditory brainstem response;
- distortion product otoacoustic emissions;
- stapedial artery;
- hearing preservation
The murine model has been used extensively to model and study human deafness. Technical difficulty in the surgical approach due to the small size of the tympanic bulla and a robust stapedial artery has limited its application for studies of cochlear implantation and electrical stimulation. We describe a minimally traumatic, stapedial artery–sparing approach to the round window that may be used to access the mouse cochlea for acute or chronic studies of implantation and stimulation.
Fifteen C57BL6J mice were used to validate this approach. Auditory brainstem response threshold and distortion product otoacoustic emissions were obtained preoperatively and 2 weeks postoperatively to determine hearing preservation results.
The approach provided excellent exposure for round-window implantation. Substantial hearing was preserved in all animals with a mean postimplantation auditory brainstem response threshold increase of 27.8 dB. Otoacoustic emissions were lost in subjects with the largest threshold shifts.
Residual hearing after cochlear implantation is a determinant of success both with standard cochlear implant electrodes and with electrodes designed to optimize hearing preservation. Here, we have preserved usable hearing after implantation of C57BL6J mice, an endogenous model of human presbycusia. The murine model may become a powerful tool to assay the effects of cochlear intervention in different genetic backgrounds. Laryngoscope, 123:E109–E115, 2013