7th Annual Meeting of the International Multisensory Research Forum
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Troy Hackett

Sources of somatic sensory input to auditory cortex in monkeys
Multiple Paper Presentation

Troy Hackett
Dept. Psychology, Vanderbilt University

John Smiley
Cognitive Neuroscience & Schizophrenia Program, Nathan Kline Inst.

George Karmos
Inst. Psychology, Hungarian Acad. Sci., Budapest, Hungary

Istvan Ulbert
Inst. Psychology, Hungarian Acad. Sci., Budapest, Hungary

Peter Lakatos
Cognitive Neuroscience & Schizophrenia Program, Nathan Kline Inst.

Charles Schroeder
Cognitive Neuroscience & Schizophrenia Program, Nathan Kline Inst.

     Abstract ID Number: 209
     Last modified: April 7, 2006
     Presentation date: 06/18/2006 2:00 PM in Hamilton Building, McNeil Theatre
     (View Schedule)

Abstract
Convergent auditory and somatic sensory activity in auditory cortex has been observed in several physiological studies of humans and nonhuman primates. These interactions have been found in association areas such as caudomedial (CM) belt area of auditory cortex adjacent to the core area, A1, as well as in the core or other belt areas. Since distinct sources of auditory input contribute to variations in the auditory properties of these areas, it is likely that regional differences in somatic sensory input underlie differences in multisensory activity, as well. To determine potential sources somatic input to A1, CM and adjoining areas, parallel studies of their cortical and thalamic connections were conducted in marmoset and macaque monkeys. In both species, the results suggest that the retroinsular area (Ri), located in the fundus of the lateral sulcus, is the principal source of somatosensory input to CM. Additional strong inputs from numerous multisensory nuclei in the posterior thalamus may also contribute to somatic activation in CM. In contrast, A1 lacks significant inputs from Ri, and has relatively fewer inputs from multisensory thalamic nuclei. These findings are consistent with current physiological findings, and support the hypothesis that regional differences characterize multisensory activity in auditory cortex.

To be Presented at the Following Symposium:
multisensory processing in and near primary auditory cortex
Other papers in this Symposium:

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