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Research Articles, Systems/Circuits

Distinct Sources of Variability Affect Eye Movement Preparation

Sanjeev B. Khanna, Adam C. Snyder and Matthew A. Smith
Journal of Neuroscience 5 June 2019, 39 (23) 4511-4526; DOI: https://doi.org/10.1523/JNEUROSCI.2329-18.2019
Sanjeev B. Khanna
1Department of Ophthalmology,
2Center for the Neural Basis of Cognition, University of Pittsburgh, Pittsburgh, Pennsylvania 15213,
3Department of Bioengineering, University of Pittsburgh, Pittsburgh, Pennsylvania 15261, and
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Adam C. Snyder
1Department of Ophthalmology,
2Center for the Neural Basis of Cognition, University of Pittsburgh, Pittsburgh, Pennsylvania 15213,
4Department of Electrical and Computer Engineering, Carnegie Mellon University, Pittsburgh, Pennsylvania 15213
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Matthew A. Smith
1Department of Ophthalmology,
2Center for the Neural Basis of Cognition, University of Pittsburgh, Pittsburgh, Pennsylvania 15213,
3Department of Bioengineering, University of Pittsburgh, Pittsburgh, Pennsylvania 15261, and
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Abstract

The sequence of events leading to an eye movement to a target begins the moment visual information has reached the brain, well in advance of the eye movement itself. The process by which visual information is encoded and used to generate a motor plan has been the focus of substantial interest partly because of the rapid and reproducible nature of saccadic eye movements, and the key role that they play in primate behavior. Signals related to eye movements are present in much of the primate brain, yet most neurophysiological studies of the transition from vision to eye movements have measured the activity of one neuron at a time. Less is known about how the coordinated action of populations of neurons contribute to the initiation of eye movements. One cortical area of particular interest in this process is the frontal eye fields, a region of prefrontal cortex that has descending projections to oculomotor control centers. We recorded from populations of frontal eye field neurons in macaque monkeys engaged in a memory-guided saccade task. We found a variety of neurons with visually evoked responses, saccade-aligned responses, and mixtures of both. We took advantage of the simultaneous nature of the recordings to measure variability in individual neurons and pairs of neurons from trial-to-trial, as well as the moment-to-moment population activity structure. We found that these measures were related to saccadic reaction times, suggesting that the population-level organization of frontal eye field activity is important for the transition from perception to movement.

SIGNIFICANCE STATEMENT The transition from perception to action involves coordination among neurons across the brain. In the case of eye movements, visual and motor signals coexist in individual neurons as well as in neighboring neurons. We used a task designed to compartmentalize the visual and motor aspects of this transition and studied populations of neurons in the frontal eye fields, a key cortical area containing neurons that are implicated in the transition from vision to eye movements. We found that the time required for subjects to produce an eye movement could be predicted from the statistics of the neuronal response of populations of frontal eye field neurons, suggesting that these neurons coordinate their activity to optimize the transition from perception to action.

  • correlation
  • eye movements
  • FEF
  • saccade
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The Journal of Neuroscience: 39 (23)
Journal of Neuroscience
Vol. 39, Issue 23
5 Jun 2019
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Distinct Sources of Variability Affect Eye Movement Preparation
Sanjeev B. Khanna, Adam C. Snyder, Matthew A. Smith
Journal of Neuroscience 5 June 2019, 39 (23) 4511-4526; DOI: 10.1523/JNEUROSCI.2329-18.2019

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Distinct Sources of Variability Affect Eye Movement Preparation
Sanjeev B. Khanna, Adam C. Snyder, Matthew A. Smith
Journal of Neuroscience 5 June 2019, 39 (23) 4511-4526; DOI: 10.1523/JNEUROSCI.2329-18.2019
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Keywords

  • correlation
  • eye movements
  • FEF
  • saccade

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