Cochlear Implantation in the Guinea Pig
- PMID: 29985368
- PMCID: PMC6101746
- DOI: 10.3791/56829
Cochlear Implantation in the Guinea Pig
Abstract
Cochlear implants are highly efficient devices that can restore hearing in subjects with profound hearing loss. Due to improved speech perception outcomes, candidacy criteria have been expanded over the last few decades. This includes patients with substantial residual hearing that benefit from electrical and acoustical stimulation of the same ear, which makes hearing preservation during cochlear implantation an important issue. Electrode impedances and the related issue of energy consumption is another major research field, as progress in this area could pave the way for fully implantable auditory prostheses. To address these issues in a systematic way, adequate animal models are essential. Therefore, the goal of this protocol is to provide an animal model of cochlear implantation, which can be used to address various research questions. Due to its large tympanic bulla, which allows easy surgical access to the inner ear, as well as its hearing range which is relatively similar to the hearing range of humans, the guinea pig is a commonly used species in auditory research. Cochlear implantation in the guinea pig is performed via a retroauricular approach. Through the bullostomy a cochleostomy is drilled and the cochlear implant electrode is inserted into the scala tympani. This electrode can then be used for electrical stimulation, determination of electrode impedances and the measurement of compound action potentials of the auditory nerve. In addition to these applications, cochlear implant electrodes can also be used as drug delivery devices, if a topical delivery of pharmaceutical agents to the cells or fluids of the inner ear is intended.
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References
-
- Stevens G, et al. Global and regional hearing impairment prevalence: an analysis of 42 studies in 29 countries. Eur J Public Health. 2013;23(1):146–152. - PubMed
-
- Arnoldner C, et al. Electric acoustic stimulation in patients with postlingual severe high-frequency hearing loss: clinical experience. Adv Otorhinolaryngol. 2010;67:116–124. - PubMed
-
- Kral A, O'Donoghue GM. Profound deafness in childhood. N Engl J Med. 2010;363(15):1438–1450. - PubMed
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