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Olfactory progenitor cell transplantation into the mammalian inner ear

A practical consideration in the development of cellular therapy technology for the inner ear is the development of an in vitro model for assessing the optimal conditions for successful application of cells. The first part of this thesis describes the adaptation of the cochleovestibular structure harvested from P1 mouse pups for analysis of factors critical for the optimal implantation of stem cells in the inner ear. Results of these studies establish that the c17.2 neural stem cell line can be introduced into the cochleovestibular structure in vitro. Using this model, c17.2 cells demonstrated survival predominantly within the vestibule and basal spiral ganglion regions. Furthermore, the addition of the ototoxin, cisplatin and the neurotrophin, Brain Derived Neurotrophic Growth Factor (BDNF) enhanced the survival and migration/dispersion of c17.2 cells within the cochleovestibular explant. The second part of this thesis examines the hypothesis that olfactory neurosphere (ONS) and progenitor cells harvested from the olfactory epithelium represent a viable source of graft material for potential therapeutic applications in the inner ear. Olfactory epithelium represents a unique source of pluripotent cells that may serve as either homografts or autografts. The feasibility of ONSs to survive and integrate into a mammalian cochlea in vivo was assessed. The ONSs were isolated as a crude fraction from the olfactory epithelium of P1 to P3 day old swiss webster mouse pups, ubiquitously expressing the Green Fluorescent Protein (GFP) marker. The ONSs were microinjected into the cochleae of adult CD1 male mice. Four weeks following their implantation, ONS cells expressing the GFP marker and stained by Nestin were identified in all areas of the cochlea and vestibule, including the spiral ganglion. Robust survival and growth of the implanted ONS and ONS derived cells in the cochlea also included the development of ???tumor-like??? clusters, a phenomenon not observed in control animals implanted with c17.2 neural stem cells. Collectively, the results of this thesis illustrate the potential of olfactory neurosphere and progenitor cells to survive in the inner ear and expose a potential harmful effect of their transplantation.

Identiferoai:union.ndltd.org:ADTP/257193
Date January 2006
CreatorsPatel, Nirmal Praful, School of Medicine, UNSW
PublisherAwarded by:University of New South Wales. School of Medicine
Source SetsAustraliasian Digital Theses Program
LanguageEnglish
Detected LanguageEnglish
RightsCopyright Nirmal Praful Patel, http://unsworks.unsw.edu.au/copyright

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