Abstract

In most natural environments, wavefronts from a single source will reach a listener through both direct and reflected paths. The direct path is the shortest distance between the source and the listener. while the reflected paths are longer and yield wavefronts that arrive at the listener from multiple directions. Despite the multiplicity of information, the listener perceives a spatially distinct sound localized at the position of the source. Because the location of the wavefront that arrives first dominates the spatial percept, the phenomenon is called the """"""""law of the first wavefront"""""""" or the """"""""precedence effect"""""""". Because of its importance for understanding binaural information processing in general, and the localization of sounds in reverberant environments in particular, the conditions under which the """"""""precedence- effect"""""""" and related events occur have been extensively studied. Despite the wealth of behavioral data, there appear to be no published electrophysiological studies that explain the neural basis of the phenomena surrounding the """"""""precedence effect"""""""". Our preliminary studies indicate that neurons in the inferior colliculus (IC) of the """"""""awake"""""""" rabbit can show responses consistent with phenomena surrounding the """"""""precedence effect"""""""". We propose a series of investigations predicated on our preliminary observations that capitalize on the collaborative efforts of neurophysiologists and psychoacousticians. Our goal is to elucidate the neural mechanisms and pathways that underlie several important psychoacoustic phenomena concerning the processing of successive acoustic stimuli, including the """"""""precedence effect"""""""". To that end, single-unit recording will be made in the IC of the """"""""awake"""""""" rabbit. We will examine the effects on these responses of chemically inactivating the dorsal nucleus of the lateral lemniscus which we hypothesize is a major source of inhibitory input to the IC.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Program Projects (P01)
Project #
5P01DC001366-04
Application #
5209948
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
4
Fiscal Year
1996
Total Cost
Indirect Cost

  Publications

Batra, Ranjan (2006) Responses of neurons in the ventral nucleus of the lateral lemniscus to sinusoidally amplitude modulated tones. J Neurophysiol 96:2388-98
Kuwada, Shigeyuki; Fitzpatrick, Douglas C; Batra, Ranjan et al. (2006) Sensitivity to interaural time differences in the dorsal nucleus of the lateral lemniscus of the unanesthetized rabbit: comparison with other structures. J Neurophysiol 95:1309-22
Kim, J J; Gross, J; Potashner, S J et al. (2004) Fine structure of degeneration in the cochlear nucleus of the chinchilla after acoustic overstimulation. J Neurosci Res 77:798-816
Kim, J J; Gross, J; Potashner, S J et al. (2004) Fine structure of long-term changes in the cochlear nucleus after acoustic overstimulation: chronic degeneration and new growth of synaptic endings. J Neurosci Res 77:817-28
Muly, S M; Gross, J S; Potashner, S J (2004) Noise trauma alters D-[3H]aspartate release and AMPA binding in chinchilla cochlear nucleus. J Neurosci Res 75:585-96
Kim, J J; Gross, J; Morest, D K et al. (2004) Quantitative study of degeneration and new growth of axons and synaptic endings in the chinchilla cochlear nucleus after acoustic overstimulation. J Neurosci Res 77:829-42
Sterbing, Susanne J; Hartung, Klaus; Hoffmann, Klaus-Peter (2003) Spatial tuning to virtual sounds in the inferior colliculus of the guinea pig. J Neurophysiol 90:2648-59
Sterbing, Susanne J; Hartung, Klaus; Hoffmann, Klaus-Peter (2002) Representation of sound source direction in the superior colliculus of the guinea pig in a virtual auditory environment. Exp Brain Res 142:570-7
Muly, S M; Gross, J S; Morest, D K et al. (2002) Synaptophysin in the cochlear nucleus following acoustic trauma. Exp Neurol 177:202-21
Fitzpatrick, Douglas C; Kuwada, Shigeyuki; Batra, Ranjan (2002) Transformations in processing interaural time differences between the superior olivary complex and inferior colliculus: beyond the Jeffress model. Hear Res 168:79-89

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