The overall goal of these experiments is to understand how the brain controls where we look. To accomplish this, it is important to study brain activity and behavior under conditions that closely approximate those in the real world. All of the proposed experiments will use awake behaving rhesus monkeys as subjects. This work focuses upon the frontal eye field (FEF), a region of cerebral cortex shared by both human and non-human primates that is closely involved in the control of purposive voluntary eye movements. A great deal is known about the FEF's role in controlling single saccades to a small number of potential targets. However, its role in the generation of eye movement strategies involving continuous series of self-generated eye movements in a rich natural environment is poorly understood. The experiments described in this proposal use semi-chronic arrays of microelectrodes to record single neuron activity from the FEF while monkeys search for targets in natural scenes. The power of this design is that one can observe the activities of many single neurons while the monkey makes series of self-guided eye movements in search of the target. Preliminary experiments suggest that the activities of FEF neurons are directly related to the development and execution of eye movement strategies to optimize these search movements. The activities seen are related to 1) planning efficient search movements, 2) selecting the location of the search target, and 3) controlling both exploratory and goal-directed saccades.
The Aims of this proposal will use this preliminary data as a foundation to 1) Understand both the behavioral mechanisms and underlying neural activity responsible for planning efficient eye movements during visual search; 2) Understand the process of target recognition and selection; and 3) investigate differences in neural activity between exploratory eye movements (used to survey the visual environment) and exploitative eye movements (that capture the ultimate target of the search). Specifically, this aim will look at how visual space is represented during these different types of eye movements. The contributions of these three aims will be significant because they spearhead the use of natural scene search to study how the FEF is involved in eye movement strategies, including the development of both the data analysis and the experimental techniques needed to do so. This will lead to a deeper understanding of the FEF, the generation of real world eye movement strategies, and the data analysis techniques needed to make sense of complicated multivariate data.

Public Health Relevance

Due to the known and expected similarities between monkey and human eye movement systems, these experiments provide a model for the functional organization of frontal eye field cortex in humans. Impairment of frontal eye field function has been implicated in a number of diseases that affect eye movements, including schizophrenia, bipolar disorder, autism spectrum disorder, and frontal lobe damage.

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
5R01EY021579-06
Application #
9524727
Study Section
Mechanisms of Sensory, Perceptual, and Cognitive Processes Study Section (SPC)
Program Officer
Flanders, Martha C
Project Start
2012-04-01
Project End
2020-07-31
Budget Start
2018-08-01
Budget End
2019-07-31
Support Year
6
Fiscal Year
2018
Total Cost
Indirect Cost
Name
Northwestern University at Chicago
Department
Biology
Type
Schools of Arts and Sciences
DUNS #
160079455
City
Evanston
State
IL
Country
United States
Zip Code
60201
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Ramkumar, Pavan; Lawlor, Patrick N; Glaser, Joshua I et al. (2016) Feature-based attention and spatial selection in frontal eye fields during natural scene search. J Neurophysiol 116:1328-43
Ramkumar, Pavan; Fernandes, Hugo; Kording, Konrad et al. (2015) Modeling peripheral visual acuity enables discovery of gaze strategies at multiple time scales during natural scene search. J Vis 15:
Fernandes, Hugo L; Stevenson, Ian H; Phillips, Adam N et al. (2014) Saliency and saccade encoding in the frontal eye field during natural scene search. Cereb Cortex 24:3232-45