Development of electrophysiological properties of fusiform neurons from the dorsal cochlear nucleus of mice before and after hearing onset

Benites, Nikollas M.; Rodrigues, Beatriz; da Silveira, Carlos H.; Kushmerick, Christopher; Leão, Ricardo M.

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American Physiological Society, Journal of Neurophysiology, 1(130), p. 5-22, 2023

DOI: 10.1152/jn.00239.2022

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Development of electrophysiological properties of fusiform neurons from the dorsal cochlear nucleus of mice before and after hearing onset

Journal article published in 2023 by Nikollas M. Benites, Beatriz Rodrigues, Carlos H. da Silveira

, Christopher Kushmerick, Ricardo M. Leão

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Abstract

Auditory brainstem neurons express unique electrophysiological properties adapted for their complex physiological functions that develop before hearing onset. Fusiform neurons of the DCN present two firing states, quiet and active, but the origin of these states is not known. Here, we showed that the quiet and active states develop after hearing onset at P14, along with changes in action potentials, suggesting an influence of auditory input on the refining of fusiform neuron’s excitability.

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Development of electrophysiological properties of fusiform neurons from the dorsal cochlear nucleus of mice before and after hearing onset

Abstract