GGrantIndex
← Search

Auditory-space coding in cortex of awake cats

$41,608F32FY2003DCNIH

University Of Michigan At Ann Arbor, Ann Arbor MI

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Although the location of a sound source is almost certainly represented by the activity of cells in the auditory cortex, the exact nature of this representation is far from clear. Early expectations were for a systematic distribution of spatially tuned cells across the cortical surface which, as a population, would produce a coherent map of auditory space. In contrast, studies have consistently demonstrated that the spatial tuning of cortical cells is quite broad, with receptive fields often encompassing a hemifield or more of space, and have failed to identify a cortical map of auditory space. This has lead to the alternative suggestion that cortical neurons represent space 'panoramically' with the activity of individual cells providing information about much of auditory space. One limitation of most of these studies, however, is that they have been conducted in anesthetized animals. If their ultimate goal is to demonstrate how auditory space is represented in the cortex of normal animals, including humans, it follows that the use of global anesthesia should be avoided whenever possible. Presently, cats will be trained to perform a number of behavioral tasks including sound localization while neural activity is recorded from the auditory cortex. In addition to allowing for the comparison of spatial coding in awake and anesthetized animals (Specific Aim 1), the proposed studies will also address the possible task dependence of cortical responses (Specific Aim 2). Studies like these will contribute greatly to our understanding of the role of the cortex in sound localization and to the relationship between brain and behavior.

View original record on NIH RePORTER →