Prefrontal working memory signal primarily controls phase-coded information within extrastriate cortex

Mohsen Parto-Dezfouli, M Isabel Vanegas, Mohammad Zarei, William H. Nesse, Kelsey L. Clark, Behrad Noudoost
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Abstract

In order to understand how prefrontal cortex provides the benefits of working memory (WM) for visual processing we examined the influence of WM on the representation of visual signals in V4 neurons in two macaque monkeys. We found that WM induces strong β oscillations in V4 and that the timing of action potentials relative to this oscillation reflects sensory information- i.e., a phase coding of visual information. Pharmacologically inactivating the Frontal Eye Field part of prefrontal cortex, we confirmed the necessity of prefrontal signals for the WM-driven boost in phase coding of visual information. Indeed, changes in the average firing rate of V4 neurons could be accounted for by WM-induced oscillatory changes. We present a network model to describe how WM signals can recruit sensory areas primarily by inducing oscillations within these areas and discuss the implications of these findings for a sensory recruitment theory of WM through coherence.
前额叶工作记忆信号主要控制流散皮层内的相位编码信息
为了了解前额叶皮层如何为视觉处理提供工作记忆(WM)的益处,我们研究了 WM 对两只猕猴 V4 神经元中视觉信号表征的影响。我们发现,工作记忆诱导 V4 神经元产生强烈的 β 振荡,而动作电位相对于该振荡的时间反映了感觉信息,即视觉信息的相位编码。通过药理学方法使前额叶皮层的额叶眼区部分失活,我们证实了前额叶信号对于 WM 驱动的视觉信息相位编码增强的必要性。事实上,V4 神经元平均发射率的变化可以通过 WM 诱导的振荡变化来解释。我们提出了一个网络模型来描述 WM 信号如何主要通过诱导这些区域内的振荡来招募感觉区域,并讨论了这些发现对 WM 通过一致性进行感觉招募理论的影响。
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