1. Disruption of lateral olivocochlear neurons with a dopaminergic neurotoxin depresses spontaneous auditory nerve activity.
- Author
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Le Prell, Colleen G., Dolan, David F., Hughes, Larry F., Altschuler, Richard A., Shore, Susan E., and Jr, Sanford C. Bledsoe
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DOPAMINERGIC mechanisms , *NEUROTOXIC agents , *ACOUSTIC nerve , *AUDITORY pathways , *NEURONS , *BRAIN stem , *GUINEA pigs as laboratory animals - Abstract
Neurons of the lateral olivocochlear (LOC) system project from the auditory brainstem to the cochlea, where they synapse on radial dendrites of auditory nerve fibers. Selective LOC disruption depresses sound-evoked auditory nerve activity in the guinea pig, but enhances it in the mouse. Here, LOC disruption depressed spontaneous auditory nerve activity in the guinea pig. Recordings from single auditory nerve fibers revealed a significantly reduced proportion of fibers with the highest spontaneous firing rates (SRs) and an increased proportion of neurons with lower SRs. Ensemble activity, estimated using round window noise, also decreased after LOC disruption. Decreased spontaneous activity after LOC disruption may be a consequence of reduced tonic release of excitatory transmitters from the LOC terminals in guinea pigs. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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