Review
Neural circuits underlying adaptation and learning in the perception of auditory space

https://doi.org/10.1016/j.neubiorev.2011.03.008Get rights and content
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Abstract

Sound localization mechanisms are particularly plastic during development, when the monaural and binaural acoustic cues that form the basis for spatial hearing change in value as the body grows. Recent studies have shown that the mature brain retains a surprising capacity to relearn to localize sound in the presence of substantially altered auditory spatial cues. In addition to the long-lasting changes that result from learning, behavioral and electrophysiological studies have demonstrated that auditory spatial processing can undergo rapid adjustments in response to changes in the statistics of recent stimulation, which help to maintain sensitivity over the range where most stimulus values occur. Through a combination of recording studies and methods for selectively manipulating the activity of specific neuronal populations, progress is now being made in identifying the cortical and subcortical circuits in the brain that are responsible for the dynamic coding of auditory spatial information.

Keywords

Auditory cortex
Inferior colliculus
Sound localization
Binaural
Adaptive coding
Perceptual learning
Plasticity
Descending pathway
Corticocollicular projection
Chromophore-targeted laser photolysis
Cholinergic
Nucleus basalis

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