Normal vision begins and ends with a rapid, saccadic eye movement. While much is known about the final stages of saccade generation in the brainstem as well as about the first steps of visual processing, there is no information about how the target for a saccade is selected. Thus, the long-term objective of the proposed work is to understand how pattern recognition by the visual system and cognitive processing direct gaze. The purpose of these experiments is to investigate the respective roles in saccade target selection of two specific areas of cerebral cortex in rhesus monkey (Macaca mulatta): the frontal and supplementary eye fields, which are at the interface of visual processing and motor output. While in previous neurophysiological studies of these areas, saccades were directed by a single target, the proposed experiments are designed to study the neural activation associated with saccades generated in response to more complex stimulus arrays. Single neurons will be recorded while monkeys generate saccades to perform a variety of visual detection, search and matching tasks. The analysis of the data will aim to distinguish neurons with activity not solely dictated by the arrangement of the stimuli or the execution of the saccade but instead reflecting the processing required to discriminate the target from the distractors. Neuronal activity will also be recorded while monkeys generate saccades to stimuli presented during binocular rivalry in an effort to understand the factors involved in bringing the target to conscious awareness. The strength of this proposal lies in the simultaneous assessment of visuomotor behavior and the activity of neurons which are candidates for generating key elements of the observed behavior. Successful completion of these experiments will provide new knowledge about the neural mechanisms in frontal cortex responsible for selecting the target for a saccade and generating visually-guided eye movements. This information is necessary for understanding the nature of the gaze control problems associated with frontal lobe dysfunction consequent to a number of diseases.

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
5R01EY008890-04
Application #
2162553
Study Section
Visual Sciences B Study Section (VISB)
Project Start
1991-01-01
Project End
1995-12-31
Budget Start
1994-01-01
Budget End
1994-12-31
Support Year
4
Fiscal Year
1994
Total Cost
Indirect Cost
Name
Vanderbilt University Medical Center
Department
Psychology
Type
Schools of Arts and Sciences
DUNS #
004413456
City
Nashville
State
TN
Country
United States
Zip Code
37212
Cosman, Joshua D; Lowe, Kaleb A; Zinke, Wolf et al. (2018) Prefrontal Control of Visual Distraction. Curr Biol 28:1330
Cosman, Joshua D; Lowe, Kaleb A; Zinke, Wolf et al. (2018) Prefrontal Control of Visual Distraction. Curr Biol 28:414-420.e3
Schall, Jeffrey D; Palmeri, Thomas J; Logan, Gordon D (2017) Models of inhibitory control. Philos Trans R Soc Lond B Biol Sci 372:
Nelson, Matthew J; Murthy, Aditya; Schall, Jeffrey D (2016) Neural control of visual search by frontal eye field: chronometry of neural events and race model processes. J Neurophysiol 115:1954-69
Logan, Gordon D; Yamaguchi, Motonori; Schall, Jeffrey D et al. (2015) Inhibitory control in mind and brain 2.0: blocked-input models of saccadic countermanding. Psychol Rev 122:115-47
Neggers, S F W; Zandbelt, B B; Schall, M S et al. (2015) Comparative diffusion tractography of corticostriatal motor pathways reveals differences between humans and macaques. J Neurophysiol 113:2164-72
Heitz, Richard P; Schall, Jeffrey D (2013) Neural chronometry and coherency across speed-accuracy demands reveal lack of homomorphism between computational and neural mechanisms of evidence accumulation. Philos Trans R Soc Lond B Biol Sci 368:20130071
Schall, Jeffrey D (2013) Macrocircuits: decision networks. Curr Opin Neurobiol 23:269-74
Purcell, Braden A; Schall, Jeffrey D; Woodman, Geoffrey F (2013) On the origin of event-related potentials indexing covert attentional selection during visual search: timing of selection by macaque frontal eye field and event-related potentials during pop-out search. J Neurophysiol 109:557-69
Reinhart, Robert M G; Heitz, Richard P; Purcell, Braden A et al. (2012) Homologous mechanisms of visuospatial working memory maintenance in macaque and human: properties and sources. J Neurosci 32:7711-22

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