Vision has long served as a model system in health and disease for the analysis of perceptual and cognitive systems at the level of the cerebral cortex. Great progress has also been made in recent years regarding an understanding of higher cortical areas involved in auditory cognition. However, knowledge about auditory processing streams still lags far behind that in vision. We propose to use single-and multi-unit electrophysiology to study cortical areas along the superior temporal gyrus (STG) and sulcus (STS) in a nonhuman primate, the rhesus macaque, whose cortical organization is similar to that of humans. Our analysis is based on the hypothesis that at least 2 specialized processing streams exist both in the visual and auditory system, an antero-ventral stream for the identification of objects, and a postero-dorsal stream for the analysis of space. Thus we predict that anterior superior temporal areas (AST) rostral and lateral to primary auditory cortex (A1) show enhanced selectivity for auditory objects regardless of spatial location (Specific Aim 1), whereas posterior superior temporal areas (PST) caudal to A1 show enhanced selectivity for location in space regardless of auditory object type (Specific Aim 2). We will focus on the processing of species-specific communication calls and will test whether neurons in the superior temporal (ST) cortex can form invariances for pitch and caller identity. In a third Specific Aim, we will use anatomical tracers, injected into physiologically characterized regions, to uncover the input connections to AST and PST from auditory, visual, and multisensory areas. Our studies, using alert monkeys trained in a behavioral task, will contribute to the understanding of unified principles of perception and cognition across sensory systems. They will further our understanding of deficits in human cognition from stroke or Alzheimer's disease, which result in visual and auditory agnosia as well as loss of spatial orientation. The studies are also relevant for disorders such as dyslexia and autism, which include problems in reading comprehension or a person's ability for social communication. Auditory processing deficits are a common symptom in both, and clarification of the neural mechanisms for auditory cortical communication is a major prerequisite for finding a cure. Finally, understanding temporal cortex with its massive connections to frontal cortex will yield important clues about higher mental disorders, such as schizophrenia, which are often characterized by auditory hallucinations. ? ? ?

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
1R01NS052494-01A2
Application #
7142689
Study Section
Cognitive Neuroscience Study Section (COG)
Program Officer
Babcock, Debra J
Project Start
2006-08-01
Project End
2011-01-31
Budget Start
2006-08-01
Budget End
2007-01-31
Support Year
1
Fiscal Year
2006
Total Cost
$296,892
Indirect Cost
Name
Georgetown University
Department
Neurology
Type
Schools of Medicine
DUNS #
049515844
City
Washington
State
DC
Country
United States
Zip Code
20057
Rauschecker, Josef P (2018) Where, When, and How: Are they all sensorimotor? Towards a unified view of the dorsal pathway in vision and audition. Cortex 98:262-268
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Erickson, Laura C; Rauschecker, Josef P; Turkeltaub, Peter E (2017) Meta-analytic connectivity modeling of the human superior temporal sulcus. Brain Struct Funct 222:267-285
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DeWitt, Iain; Rauschecker, Josef P (2016) Convergent evidence for the causal involvement of anterior superior temporal gyrus in auditory single-word comprehension. Cortex 77:164-166
Leaver, Amber M; Seydell-Greenwald, Anna; Rauschecker, Josef P (2016) Auditory-limbic interactions in chronic tinnitus: Challenges for neuroimaging research. Hear Res 334:49-57
Rauschecker, Josef P (2015) Auditory and visual cortex of primates: a comparison of two sensory systems. Eur J Neurosci 41:579-85
Bornkessel-Schlesewsky, Ina; Schlesewsky, Matthias; Small, Steven L et al. (2015) Neurobiological roots of language in primate audition: common computational properties. Trends Cogn Sci 19:142-50
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Bornkessel-Schlesewsky, Ina; Schlesewsky, Matthias; Small, Steven L et al. (2015) Response to Skeide and Friederici: the myth of the uniquely human 'direct' dorsal pathway. Trends Cogn Sci 19:484-5

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