Abstract
The cortical visual hierarchy communicates in different oscillatory ranges. While gamma waves influence the feedforward processing, alpha oscillations travel in the feedback direction. Little is known how this oscillatory cortical communication depends on an alternative route that involves the pulvinar nucleus of the thalamus. We investigated whether the oscillatory coupling between the primary visual cortex (area 17) and area 21a depends on the transthalamic pathway involving the pulvinar in cats. To that end, visual evoked responses were recorded in areas 17 and 21a before, during and after inactivation of the pulvinar. Local field potentials were analyzed with Wavelet and Granger causality tools to determine the oscillatory coupling between layers. The results indicate that cortical oscillatory activity was enhanced during pulvinar inactivation, in particular for area 21a. In area 17, alpha band responses were represented in layers II/III. In area 21a, gamma oscillations, except for layer I, were significantly increased, especially in layer IV. Granger causality showed that the pulvinar modulated the oscillatory information between areas 17 and 21a in gamma and alpha bands for the feedforward and feedback processing, respectively. Together, these findings indicate that the pulvinar is involved in the mechanisms underlying oscillatory communication along the visual cortex.
Highlights
Most studies investigating the neuronal basis of vision consider cortical–cortical connections as the main pathways for information flow and processing yielding perception
The LP nucleus (LPl) subdivision was targeted because is the only subdivision of the cat pulvinar that is connected reciprocally to both areas 17 and 21a [20,36]
The impact of LPl inactivation on the cortical oscillations was assessed by the analysis of changes in amplitude of local field potentials (LFPs)’s alpha and gamma bands
Summary
Most studies investigating the neuronal basis of vision consider cortical–cortical connections as the main pathways for information flow and processing yielding perception. These studies revealed that the pulvinar synchronized activity between interconnected cortical areas in the alpha range, possibly due to the top-down feedback modulation caused by the attentional-related task This is supported by the increase in alpha waves, and decrease in gamma-band coherence, between V4 and the inferotemporal (IT) cortex during pulvinar lesions [6]. The present findings show that the pulvinar inactivation yielded changes in the low (alpha) and high (gamma) bands of cortical oscillations in both visual areas These oscillatory responses in cortical areas were layer dependent. Feedback alpha waves from area 21a to area 17 arose even before the visual stimulation Together, these findings indicate that the pulvinar plays a role in the directionality of oscillatory feedforward and feedback processing along the visual cortex
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