Testing EEG functional connectivity between sensorimotor and face processing visual regions in individuals with congenital facial palsy.

IF 3.1 4区 医学 Q2 NEUROSCIENCES
Thomas Quettier, Antonio Maffei, Filippo Gambarota, Pier Francesco Ferrari, Paola Sessa
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Abstract

Moebius syndrome (MBS) is characterized by the congenital absence or underdevelopment of cranial nerves VII and VI, leading to facial palsy and impaired lateral eye movements. As a result, MBS individuals cannot produce facial expressions and did not develop motor programs for facial expressions. In the latest model of sensorimotor simulation, an iterative communication between somatosensory, motor/premotor cortices, and visual regions has been proposed, which should allow more efficient discriminations among subtle facial expressions. Accordingly, individuals with congenital facial motor disability, specifically with MBS, should exhibit atypical communication within this network. Here, we aimed to test this facet of the sensorimotor simulation models. We estimated the functional connectivity between the visual cortices for face processing and the sensorimotor cortices in healthy and MBS individuals. To this aim, we studied the strength of beta band functional connectivity between these two systems using high-density EEG, combined with a change detection task with facial expressions (and a control condition involving non-face stimuli). The results supported our hypothesis such that when discriminating subtle facial expressions, participants affected by congenital facial palsy (compared to healthy controls) showed reduced connectivity strength between sensorimotor regions and visual regions for face processing. This effect was absent for the condition with non-face stimuli. These findings support sensorimotor simulation models and the communication between sensorimotor and visual areas during subtle facial expression processing.

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先天性面瘫患者感觉运动区和面部加工视觉区脑电功能连通性的测试。
莫比乌斯综合征(Moebius syndrome, MBS)的特征是先天性颅神经VII和颅神经VI缺失或发育不全,导致面瘫和侧眼运动受损。因此,MBS患者不能做出面部表情,也没有开发出面部表情的运动程序。在最新的感觉运动模拟模型中,提出了体感、运动/前运动皮层和视觉区域之间的迭代交流,这应该能够更有效地区分细微的面部表情。因此,患有先天性面部运动障碍的个体,特别是MBS患者,应该在该网络中表现出非典型的交流。在这里,我们的目的是测试这方面的感觉运动模拟模型。我们估计了健康和MBS个体的面部处理视觉皮层和感觉运动皮层之间的功能连通性。为此,我们使用高密度脑电图,结合面部表情变化检测任务(以及涉及非面部刺激的控制条件),研究了这两个系统之间β带功能连接的强度。结果支持了我们的假设,即在辨别细微的面部表情时,患有先天性面瘫的参与者(与健康对照组相比)在面部处理的感觉运动区域和视觉区域之间表现出较低的连通性。这种效应在非面部刺激条件下不存在。这些发现支持了感觉运动模拟模型以及在细微面部表情处理过程中感觉运动和视觉区域之间的交流。
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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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