Christine Völker scite author profile

The inferior colliculus (IC) is a nucleus of the auditory pathway and its fourth relay station. It integrates afferent information from the superior olivary complex and the cochlear nucleus. To date, no causal therapeutic options are known for damaged neuronal structures in this area. Regenerative medicine offers a potential approach to causally treating hearing impairment. After neural stem cells had been identified in certain areas of the auditory pathway, the question arouses, whether the IC also has a neurogenic potential. Cells from the IC of postnatal day 6 rats were extracted and cultured as neurospheres. Cells in the neurospheres showed mitotic activity and positive stain of neural stem cell markers (Nestin, DCX, Atoh1, and Sox-2). In addition, single cells were differentiated into neuronal and glial cells shown by the markers β-III-tubulin, GFAP, and MBP. In summary, basic stem cell criteria could be detected and characterized in cells isolated from the IC of the rat. These findings will lead to a better understanding of the development of the auditory pathway and may also be relevant for identifying causal therapeutic approaches in the future.

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Cochlear nucleus whole mount explants promote the differentiation of neuronal stem cells from the cochlear nucleus in co-culture experiments

Rak¹,

Völker²,

Jürgens³

et al. 2015

Brain Research

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Einfluss verformbarer Memory-CI-Elektroden auf dynamische intracochleäre Druckverhältnisse: Insertions- und Rückzug-Kräfte unterschiedlicher Elektrodendesigns

Völker

Engert

et al. 2023

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Influence of Malleable Memory CI Electrodes on Dynamic Intracochlear Pressure Conditions: Insertion and Pullback Forces of Different Electrode Designs

Völker

Engert

et al. 2023

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