Arousal system stimulation and anesthetic state alter visuoparietal connectivity.

IF 3.1 4区 医学 Q2 NEUROSCIENCES
Axel Hutt, Anthony G Hudetz
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Abstract

Cortical information processing is under the precise control of the ascending arousal system (AAS). Anesthesia suppresses cortical arousal that can be mitigated by exogenous stimulation of the AAS. The question remains to what extent cortical information processing is regained by AAS stimulation. We investigate the effect of electrical stimulation of the nucleus Pontis Oralis (PnO), a distinct source of ascending AAS projections, on cortical functional connectivity (FC) and information storage at mild, moderate, and deep anesthesia. Local field potentials (LFPs) recorded previously in the secondary visual cortex (V2) and the adjacent parietal association cortex (PtA) in chronically instrumented unrestrained rats. We hypothesized that PnO stimulation would induce electrocortical arousal accompanied by enhanced FC and active information storage (AIS) implying improved information processing. In fact, stimulation reduced FC in slow oscillations (0.3-2.5 Hz) at low anesthetic level and increased FC at high anesthetic level. These effects were augmented following stimulation suggesting stimulus-induced plasticity. The observed opposite stimulation-anesthetic impact was less clear in the γ-band activity (30-70 Hz). In addition, FC in slow oscillations was more sensitive to stimulation and anesthetic level than FC in γ-band activity which exhibited a rather constant spatial FC structure that was symmetric between specific, topographically related sites in V2 and PtA. Invariant networks were defined as a set of strongly connected electrode channels, which were invariant to experimental conditions. In invariant networks, stimulation decreased AIS and increasing anesthetic level increased AIS. Conversely, in non-invariant (complement) networks, stimulation did not affect AIS at low anesthetic level but increased it at high anesthetic level. The results suggest that arousal stimulation alters cortical FC and information storage as a function of anesthetic level with a prolonged effect beyond the duration of stimulation. The findings help better understand how the arousal system may influence information processing in cortical networks at different levels of anesthesia.

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唤醒系统刺激和麻醉状态改变视顶叶连通性。
皮层信息处理是在上升唤醒系统(AAS)的精确控制下进行的。麻醉抑制皮层觉醒,这可以通过外源性刺激AAS来减轻。问题仍然是在多大程度上皮层信息处理被AAS刺激恢复。我们研究了电刺激口桥核(PnO)在轻度、中度和深度麻醉下对皮质功能连通性(FC)和信息存储的影响,口桥核是AAS上升投射的一个独特来源。在长期无约束的大鼠中,记录了第二视觉皮层(V2)和相邻顶叶联合皮层(PtA)的局部场电位(LFPs)。我们假设PnO刺激会引起皮层电觉醒,并伴有增强的FC和主动信息存储(AIS),这意味着信息处理的改善。事实上,在低麻醉水平下,刺激降低了慢振荡(0.3-2.5 Hz)的FC,在高麻醉水平下增加了FC。这些效应在刺激后增强,表明刺激诱导的可塑性。观察到的相反刺激-麻醉影响在γ波段活动(30-70 Hz)中不太明显。此外,慢振荡的FC对刺激和麻醉水平比γ波段活性的FC更敏感,表现出相当恒定的空间FC结构,在V2和PtA的特定地形相关位点之间是对称的。不变网络被定义为一组强连接的电极通道,这些通道不受实验条件的影响。在不变神经网络中,刺激降低AIS,增加麻醉水平增加AIS。相反,在非恒定(补体)网络中,低麻醉水平下的刺激对AIS没有影响,但在高麻醉水平下会增加AIS。结果表明,觉醒刺激改变皮层FC和信息存储作为麻醉水平的函数,其影响持续时间超过刺激的持续时间。这些发现有助于更好地理解在不同麻醉水平下,觉醒系统如何影响皮层网络的信息处理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Frontiers in Systems Neuroscience
Frontiers in Systems Neuroscience Neuroscience-Developmental Neuroscience
CiteScore
6.00
自引率
3.30%
发文量
144
审稿时长
14 weeks
期刊介绍: Frontiers in Systems Neuroscience publishes rigorously peer-reviewed research that advances our understanding of whole systems of the brain, including those involved in sensation, movement, learning and memory, attention, reward, decision-making, reasoning, executive functions, and emotions.
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