Our goals concern the visual function of the two functional streams that may be identified in the monkey's geniculo-cortical visual pathway. Our working hypothesis is that these streams subserve different visual functions, and that different forms of developmental visual disorder may reflect abnormalities that are primarily confined to one or the other of these streams. 1. We will continue our quantitative studies of the functional properties of neurons in the striate cortex of the macaque. We will pay particular attention to the relay of spatial, temporal and chromatic information by different neural groups, and to the distribution of neurons with particular properties within the functional architecture of the cortex. 2. In order to study the functions of extrastriate visual areas, we will obtain an accurate quantitative description of the response properties of neurons in several areas of the macaque's extrastriate visual cortex. A particular concern will be to establish the stimulus dimensions for which neurons in a particular area show an invariant selectivity. The areas to be studied will include V2, V3, V3a, the V4 complex, and MT. Having identified candidate stimulus dimensions for at least some of these areas, we will use statistical methods to compare the performance of neurons with psychophysical measures of performance, using stimuli designed to tap particular kinds of visual capacity related to the dimensions for which invariants have been identified. In order to study the degree to which neural properties in each area are simply derived from their inputs, and the degree to which they result from significant local processing, we will identify and characterize the neurons in V1 and V2 that project to particular higher-order areas, and compare their properties with those of neurons in their target areas. 3. We will study the visual behavior of monkeys reared in ways that create conditions resembling human strabismic and anisometropic amblyopia. We will establish how experimental amblyopia affects spatial contrast detection and discrimination, chromatic constrast detection, and the visual space sense, in order to characterize the changes that occur in psychophysically-defined visual mechanisms. We will attempt to link particular functional deficits to clinically-identified visual problems. 4. We will study the way in which the development of the functional properties of neurons in striate and extrastriate visual cortex is affected by experimental amblyopia. We are particularly interested in establishing the relationship between the psychophysical and neural changes underlying the amblyopic deficit. Our working hypothesis is that anisometropic amblyopia primarily involves a deficit in the """"""""parvocellular"""""""" stream, while strabismic amblyopia also involves important deficits in the """"""""magnocellular"""""""" stream. Thus, the overall goals of this project are concerned with understanding the cortical mechanisms underlying normal visual performance, and the way in which those mechanisms are altered by amblyopia.

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
5R01EY002017-12
Application #
3256399
Study Section
Visual Sciences A Study Section (VISA)
Project Start
1977-08-01
Project End
1991-06-30
Budget Start
1989-07-01
Budget End
1990-06-30
Support Year
12
Fiscal Year
1989
Total Cost
Indirect Cost
Name
New York University
Department
Type
Schools of Arts and Sciences
DUNS #
004514360
City
New York
State
NY
Country
United States
Zip Code
10012
Wang, Helena X; Movshon, J Anthony (2016) Properties of pattern and component direction-selective cells in area MT of the macaque. J Neurophysiol 115:2705-20
Kumbhani, Romesh D; El-Shamayleh, Yasmine; Movshon, J Anthony (2015) Temporal and spatial limits of pattern motion sensitivity in macaque MT neurons. J Neurophysiol 113:1977-88
Kiorpes, Lynne (2015) Visual development in primates: Neural mechanisms and critical periods. Dev Neurobiol 75:1080-90
El-Shamayleh, Yasmine; Kumbhani, Romesh D; Dhruv, Neel T et al. (2013) Visual response properties of V1 neurons projecting to V2 in macaque. J Neurosci 33:16594-605
Jazayeri, Mehrdad; Wallisch, Pascal; Movshon, J Anthony (2012) Dynamics of macaque MT cell responses to grating triplets. J Neurosci 32:8242-53
Kiorpes, Lynne; Price, Tracy; Hall-Haro, Cynthia et al. (2012) Development of sensitivity to global form and motion in macaque monkeys (Macaca nemestrina). Vision Res 63:34-42
Graf, Arnulf B A; Kohn, Adam; Jazayeri, Mehrdad et al. (2011) Decoding the activity of neuronal populations in macaque primary visual cortex. Nat Neurosci 14:239-45
El-Shamayleh, Yasmine; Movshon, J Anthony (2011) Neuronal responses to texture-defined form in macaque visual area V2. J Neurosci 31:8543-55
Hedges, James H; Gartshteyn, Yevgeniya; Kohn, Adam et al. (2011) Dissociation of neuronal and psychophysical responses to local and global motion. Curr Biol 21:2023-8
Levi, Dennis M; McKee, Suzanne P; Movshon, J Anthony (2011) Visual deficits in anisometropia. Vision Res 51:48-57

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