4.7 Article

Stimulus onset quenches neural variability: a widespread cortical phenomenon

Journal

NATURE NEUROSCIENCE
Volume 13, Issue 3, Pages 369-U25

Publisher

NATURE PUBLISHING GROUP
DOI: 10.1038/nn.2501

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Funding

  1. Helen Hay Whitney
  2. Burroughs Welcome Fund Career Awards in the Biomedical Sciences
  3. US National Institutes of Health (NIH) [EY05603, EY014924, EY015958, EY018894, EY02017, EY04440, EY016774, 1 EY13138-01, EY019288]
  4. National Institute of Neurological Disorders and Stroke Collaborative Research in Computational Neuroscience [R01-NS054283]
  5. Michael Flynn Stanford Graduate Fellowship
  6. Howard Hughes Medical Institute
  7. Sloan FoundationPew Charitable Trust
  8. US National Defense Science and Engineering Graduate Fellowships
  9. National Science Foundation Graduate Research Fellowships
  10. Christopher and Dana Reeve Foundation
  11. Stanford Center for Integrated Systems
  12. National Science Foundation Center for Neuromorphic Systems Engineering at Caltech
  13. Office of Naval Research
  14. NIH Director's Pioneer Award [1DP1OD006409]
  15. Whitaker Foundation

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Neural responses are typically characterized by computing the mean firing rate, but response variability can exist across trials. Many studies have examined the effect of a stimulus on the mean response, but few have examined the effect on response variability. We measured neural variability in 13 extracellularly recorded datasets and one intracellularly recorded dataset from seven areas spanning the four cortical lobes in monkeys and cats. In every case, stimulus onset caused a decline in neural variability. This occurred even when the stimulus produced little change in mean firing rate. The variability decline was observed in membrane potential recordings, in the spiking of individual neurons and in correlated spiking variability measured with implanted 96-electrode arrays. The variability decline was observed for all stimuli tested, regardless of whether the animal was awake, behaving or anaesthetized. This widespread variability decline suggests a rather general property of cortex, that its state is stabilized by an input.

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