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Retroauricular Approach for Targeted Cochlear Therapy Experiments in Wistar Albino Rats

Year 2017, Volume: 34 Issue: 3, 200 - 205, 01.05.2017

Abstract

Background: As the idea of stem cell technology in the treatment of sensorial hearing loss has emerged over the past decades, the need for in vivo models for related experiments has become explicit. One of the most common experimental models for inner ear stem cell delivery experiments is the Wistar albino rat. Aims: To investigate the surgical anatomy of the temporal bone of the Wistar albino rat with respect to the dissection steps, operative techniques and potential pitfalls of surgery. Study Design: Animal experimentation. Methods: Adult Wistar albino rats were operated on via the retroauricular approach under an operation microscope. The anatomy of the temporal bone, the surgical route to the temporal bulla and the inner ear were investigated. Technical details of surgical steps, complications and potential pitfalls during the surgery were noted. Results: The study group consisted of 40 adult Wistar albino rats. The mean times to reach the bulla and to achieve cochleostomy were 4.3 (2-13 min) and 7.5 min (3.5-22 min), respectively. The mean width of the facial nerve was 0.84 mm (0.42-1.25 mm). The stapedial artery lay nearly perpendicular to the course of the facial nerve (88-93 °C). There were three major complications: two large cochleostomies and one massive bleed from the stapedial artery. Conclusion: The facial nerve was the key anatomical landmark in locating the bulla. By retrograde tracing of the facial nerve, it was possible to find the bulla ventral (inferior) to the main trunk. The facial nerve trunk was the upper limit when drilling the bulla. By dissecting the main trunk of the facial nerve and retracting cranially, a large drilling space could be achieved. Our results suggest that the retroauricular approach is an effective, feasible route for inner ear drug delivery experiments in Wistar albino rats.

References

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  • 2. Lu W, Xu J, Shepherd RK. Cochlear implantation in rats: a new surgical approach. Hear Res 2005;205:115-22.
  • 3. Pinilla M, Ramírez-Camacho R, Jorge E, Trinidad A, Vergara J. Ventral approach to the rat middle ear for otologic research. Otolaryngol Head Neck Surg 2001;124:515-7.
  • 4. Backhouse S, Coleman B, Shepherd R. Surgical access to the mammalian cochlea for cell-based therapies. Exp Neurol 2008;214:193-200.
  • 5. Hellström S, Salen B, Stenfors LE. Anatomy of the rat middle ear. A study under the dissection microscope. Acta Anat (Basel) 1982;112:346-52.
  • 6. Judkins RF, Li H. Surgical anatomy of the rat middle ear. Otolaryngol Head Neck Surg 1997;117:438-47.
  • 7. Albiin N, Hellström S, Salén B, Stenfors LE, Söderberg O. The anatomy of the eustachian tube in the rat: a macro-and microscopical study. Anat Rec 1983;207:513-21.
  • 8. Fu Y, Wang S, Liu Y, Wang J, Wang G, Chen Q, et al. Study on neural stem cell transplantation into natural rat cochlea via round window. Am J Otolaryngol 2009;30:8-16.
  • 9. Zhao LD, Li L, Wu N, Li DK, Ren LL, Guo WW, et al. Migration and differentiation of mouse embryonic stem cells transplanted into mature cochlea of rats with aminoglycoside-induced hearing loss. Acta Otolaryngol 2013;133:136-43.
  • 10. Jero J, Tseng CJ, Mhatre AN, Lalwani AK. A surgical approach appropriate for targeted cochlear gene therapy in the mouse. Hear Res 2001;151:106- 14.
  • 11. Albuquerque AA, Rossato M, Oliveira JA, Hyppolito MA. Understanding the anatomy of ears from guinea pigs and rats and its use in basic otologic research. Braz J Otorrinolaringol 2009;75:43-9.
  • 12. Bogaerts S, Douglas S, Corlette T, Pau H, Saunders D, McKay S, et al. Microsurgical access for cell injection into the mammalian cochlea. J Neurosci Methods 2008;168:156-63.
Year 2017, Volume: 34 Issue: 3, 200 - 205, 01.05.2017

Abstract

References

  • 1. Bergin M, Vlajkovic SM, Bird P, Thorne PR. Systematic review of animal models of middle ear surgery. World J Otorhinolaryngol 2013;3:71-88.
  • 2. Lu W, Xu J, Shepherd RK. Cochlear implantation in rats: a new surgical approach. Hear Res 2005;205:115-22.
  • 3. Pinilla M, Ramírez-Camacho R, Jorge E, Trinidad A, Vergara J. Ventral approach to the rat middle ear for otologic research. Otolaryngol Head Neck Surg 2001;124:515-7.
  • 4. Backhouse S, Coleman B, Shepherd R. Surgical access to the mammalian cochlea for cell-based therapies. Exp Neurol 2008;214:193-200.
  • 5. Hellström S, Salen B, Stenfors LE. Anatomy of the rat middle ear. A study under the dissection microscope. Acta Anat (Basel) 1982;112:346-52.
  • 6. Judkins RF, Li H. Surgical anatomy of the rat middle ear. Otolaryngol Head Neck Surg 1997;117:438-47.
  • 7. Albiin N, Hellström S, Salén B, Stenfors LE, Söderberg O. The anatomy of the eustachian tube in the rat: a macro-and microscopical study. Anat Rec 1983;207:513-21.
  • 8. Fu Y, Wang S, Liu Y, Wang J, Wang G, Chen Q, et al. Study on neural stem cell transplantation into natural rat cochlea via round window. Am J Otolaryngol 2009;30:8-16.
  • 9. Zhao LD, Li L, Wu N, Li DK, Ren LL, Guo WW, et al. Migration and differentiation of mouse embryonic stem cells transplanted into mature cochlea of rats with aminoglycoside-induced hearing loss. Acta Otolaryngol 2013;133:136-43.
  • 10. Jero J, Tseng CJ, Mhatre AN, Lalwani AK. A surgical approach appropriate for targeted cochlear gene therapy in the mouse. Hear Res 2001;151:106- 14.
  • 11. Albuquerque AA, Rossato M, Oliveira JA, Hyppolito MA. Understanding the anatomy of ears from guinea pigs and rats and its use in basic otologic research. Braz J Otorrinolaringol 2009;75:43-9.
  • 12. Bogaerts S, Douglas S, Corlette T, Pau H, Saunders D, McKay S, et al. Microsurgical access for cell injection into the mammalian cochlea. J Neurosci Methods 2008;168:156-63.
There are 12 citations in total.

Details

Other ID JA69EM22KB
Journal Section Research Article
Authors

Selçuk Mülazımoğlu This is me

Emre Ocak This is me

Gülşah Kaygusuz This is me

Mustafa Kürşat Gökcan This is me

Publication Date May 1, 2017
Published in Issue Year 2017 Volume: 34 Issue: 3

Cite

APA Mülazımoğlu, S., Ocak, E., Kaygusuz, G., Gökcan, M. K. (2017). Retroauricular Approach for Targeted Cochlear Therapy Experiments in Wistar Albino Rats. Balkan Medical Journal, 34(3), 200-205.
AMA Mülazımoğlu S, Ocak E, Kaygusuz G, Gökcan MK. Retroauricular Approach for Targeted Cochlear Therapy Experiments in Wistar Albino Rats. Balkan Medical Journal. May 2017;34(3):200-205.
Chicago Mülazımoğlu, Selçuk, Emre Ocak, Gülşah Kaygusuz, and Mustafa Kürşat Gökcan. “Retroauricular Approach for Targeted Cochlear Therapy Experiments in Wistar Albino Rats”. Balkan Medical Journal 34, no. 3 (May 2017): 200-205.
EndNote Mülazımoğlu S, Ocak E, Kaygusuz G, Gökcan MK (May 1, 2017) Retroauricular Approach for Targeted Cochlear Therapy Experiments in Wistar Albino Rats. Balkan Medical Journal 34 3 200–205.
IEEE S. Mülazımoğlu, E. Ocak, G. Kaygusuz, and M. K. Gökcan, “Retroauricular Approach for Targeted Cochlear Therapy Experiments in Wistar Albino Rats”, Balkan Medical Journal, vol. 34, no. 3, pp. 200–205, 2017.
ISNAD Mülazımoğlu, Selçuk et al. “Retroauricular Approach for Targeted Cochlear Therapy Experiments in Wistar Albino Rats”. Balkan Medical Journal 34/3 (May 2017), 200-205.
JAMA Mülazımoğlu S, Ocak E, Kaygusuz G, Gökcan MK. Retroauricular Approach for Targeted Cochlear Therapy Experiments in Wistar Albino Rats. Balkan Medical Journal. 2017;34:200–205.
MLA Mülazımoğlu, Selçuk et al. “Retroauricular Approach for Targeted Cochlear Therapy Experiments in Wistar Albino Rats”. Balkan Medical Journal, vol. 34, no. 3, 2017, pp. 200-5.
Vancouver Mülazımoğlu S, Ocak E, Kaygusuz G, Gökcan MK. Retroauricular Approach for Targeted Cochlear Therapy Experiments in Wistar Albino Rats. Balkan Medical Journal. 2017;34(3):200-5.