Ian M. Finn scite author profile

Neural responses are typically characterized by computing the mean firing rate. Yet response variability can exist across trials. Many studies have examined the impact of a stimulus on the mean response, yet few have examined the impact on response variability. We measured neural variability in 13 extracellularly-recorded datasets and one intracellularly-recorded dataset from 7 areas spanning the four cortical lobes. 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 observable 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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Inhibitory Stabilization of the Cortical Network Underlies Visual Surround Suppression

Ozeki

Finn

Schaffer

et al. 2009

Neuron

440

490

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SUMMARY In what regime does the cortical circuit operate? Our intracellular studies of surround suppression in cat primary visual cortex (V1) provide strong evidence on this question. Although suppression has been thought to arise from an increase in lateral inhibition, we find that the inhibition that cells receive is reduced, not increased, by a surround stimulus. Instead, suppression is mediated by a withdrawal of excitation. Thalamic recordings and previous work show that these effects cannot be explained by a withdrawal of thalamic input. We find in theoretical work that this behavior can only arise if V1 operates as an inhibition-stabilized network (ISN), in which excitatory recurrence alone is strong enough to destabilize visual responses but feedback inhibition maintains stability. We confirm two strong tests of this scenario experimentally, and show through simulation that observed cell-to-cell variability in surround effects, from facilitation to suppression, can arise naturally from variability in the ISN.

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The Emergence of Contrast-Invariant Orientation Tuning in Simple Cells of Cat Visual Cortex

Finn

Priebe

Ferster

2007

Neuron

231

342

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Simple cells in primary visual cortex exhibit contrast-invariant orientation tuning, in seeming contradiction to feed-forward models that rely on lateral geniculate nucleus (LGN) input alone. Contrast invariance has therefore been thought to depend on the presence of intracortical lateral inhibition. In vivo intracellular recordings instead suggest that contrast invariance can be explained by three properties of the excitatory pathway. (1) Depolarizations evoked by orthogonal stimuli are determined by the amount of excitation a cell receives from the LGN, relative to the excitation it receives from other cortical cells. (2) Depolarizations evoked by preferred stimuli saturate at lower contrasts than the spike output of LGN relay cells. (3) Visual stimuli evoke contrast-dependent changes in trial-to-trial variability, which lead to contrast-dependent changes in the relationship between membrane potential and spike rate. Thus, high-contrast, orthogonally oriented stimuli that evoke significant depolarizations evoke few spikes. Together these mechanisms, without lateral inhibition, can account for contrast-invariant stimulus selectivity.

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Inhibitory stabilization of the cortical network underlies visual surround suppression

Ozeki

Finn

Schaffer

et al. 2009

Neuroscience Research

111

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Computational Diversity in Complex Cells of Cat Primary Visual Cortex

Finn

Ferster

2007

J. Neurosci.

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Ian M. Finn

Stimulus onset quenches neural variability: a widespread cortical phenomenon

Inhibitory Stabilization of the Cortical Network Underlies Visual Surround Suppression

The Emergence of Contrast-Invariant Orientation Tuning in Simple Cells of Cat Visual Cortex

Inhibitory stabilization of the cortical network underlies visual surround suppression

Computational Diversity in Complex Cells of Cat Primary Visual Cortex

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