نتایج جستجو برای: dorsal cochlear nucleusdcn

تعداد نتایج: 60453  

Journal: :Journal of neurophysiology 1997
K A Davis H F Voigt

Cross-correlation analysis of simultaneously recorded spike trains was used to study the internal organization of the dorsal cochlear nucleus (DCN) of unanesthetized decerebrate Mongolian gerbils. The goal was to test the model (adapted from cat) that its principal cells (type III and type IV units) receive three sources of shared auditory input: excitatory input from the auditory nerve; inhibi...

Journal: :Journal of neurophysiology 2000
T J Imig N G Bibikov P Poirier F K Samson

We tested two hypotheses to determine whether dorsal cochlear nucleus (DCN) neurons are specialized to derive directionality from spectral notches: DCN neurons exhibit greater spectral-dependent directionality than ventral cochlear nucleus (VCN) neurons, and spectral-dependent directionality depends on response minima (nulls) produced by coincidence of best frequency (BF) and spectral-notch cen...

2004
Michael A. Eager David B. Grayden Anthony N. Burkitt Hamish Meffin

Abstract We present a detailed network model of neurons of the cochlear nucleus to explore leveldependent processing by T stellate cells. These cells selectively process input from two types of auditory nerve fibres to enhance their dynamic range. We use a biologically plausible network between T stellate, D stellate and tuberculoventral cells, to show how level-dependent selective processing c...

Journal: :The European journal of neuroscience 2005
S E Shore

A necessary requirement for multisensory integration is the convergence of pathways from different senses. The dorsal cochlear nucleus (DCN) receives auditory input directly via the VIIIth nerve and somatosensory input indirectly from the Vth nerve via granule cells. Multisensory integration may occur in DCN cells that receive both trigeminal and auditory nerve input, such as the fusiform cell....

Journal: :Journal of neurophysiology 2015
Mu Zhou Ya-Tang Li Wei Yuan Huizhong W Tao Li I Zhang

In central auditory pathways, neurons exhibit a great diversity of temporal discharge patterns, which may contribute to the parallel processing of auditory signals. How such response diversity emerges in the central auditory circuits remains unclear. Here, we investigated whether synaptic mechanisms can contribute to the generation of the temporal response diversity at the first stage along the...

Journal: :Hearing research 2008
Roland Schaette Richard Kempter

Cochlear damage can change the spontaneous firing rates of neurons in the dorsal cochlear nucleus (DCN). Increased spontaneous firing rates (hyperactivity) after acoustic trauma have been observed in the DCN of rodents such as hamsters, chinchillas and rats. This hyperactivity has been interpreted as a neural correlate of tinnitus. In cats, however, the spontaneous firing rates of DCN neurons w...

2017
Ruili Xie Paul B. Manis

Radiate and planar neurons are the two major types of multipolar neurons in the ventral cochlear nucleus (VCN). Both cell types receive monosynaptic excitatory synaptic inputs from the auditory nerve, but have different responses to sound and project to different target regions and cells. Although the intrinsic physiology and synaptic inputs to planar neurons have been previously characterized,...

2004
ICHIJI TASAKI HALLOWELL DAVIS

IN A RECENT PAPER one of us (7) described the technique and the results of recording impulses from individual auditory nerve fibers in the modiolus of the guinea pig. The present investigation is an extension to the cochlear nucleus in the medulla oblongata of the same technique of recording action potentials with submicroscopic microelectrodes (6). Action potentials from single elements in the...

Journal: :Journal of neurophysiology 2003
Jason S Rothman Paul B Manis

In the ventral cochlear nucleus (VCN), neurons transform information from auditory nerve fibers into a set of parallel ascending pathways, each emphasizing different aspects of the acoustic environment. Previous studies have shown that VCN neurons differ in their intrinsic electrical properties, including the K+ currents they express. In this study, we examine these K+ currents in more detail u...

2011
Sidney P. Kuo Laurence O. Trussell

Inhibitory interneurons across diverse brain regions commonly exhibit spontaneous spiking activity, even in the absence of external stimuli. It is not well understood how stimulus-evoked inhibition can be distinguished from background inhibition arising from spontaneous firing. We found that noradrenaline simultaneously reduced spontaneous inhibitory inputs and enhanced evoked inhibitory curren...

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