帕金森氏症的注意功能障碍是由右侧额中央和枕叶网络连通性引起的

Q4 Neuroscience

Neuroimage. Reports Pub Date : 2025-02-10 DOI:10.1016/j.ynirp.2025.100241

Isobel Timothea French , Kuo-Hsuan Chang , Wei-Kuang Liang , Wen-Sheng Chang , Yen-Shi Lo , Yi-Ru Wang , Mei-Ling Cheng , Norden E. Huang , Hsiu-Chuan Wu , Siew-Na Lim , Chiung-Mei Chen , Chi-Hung Juan

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引用次数: 0

摘要

Flanker任务测量视觉空间注意力，并通过区分在参与区域增强信息和在无人参与区域抑制信息的途径来评估注意力网络（Kopp等人，1996）。在帕金森病（PD）中，由于与基底神经节相连的额皮质下回路功能失调，干扰了反应选择和抑制，注意力网络受损。虽然脑电图（EEG）可以揭示PD患者这些电路的异常，但对于区域间通信至关重要的动态脑振荡不能用传统的时频分析来破译。目的利用全新的Holo-Hilbert谱分析（HHSA）揭示PD患者和健康正常人侧卫任务的动态脑电图特征，以鉴别和阐明PD患者的注意网络缺陷。方法利用新的HHSA揭示侧卫任务脑电的非线性特征，并利用相幅交叉频耦合分析脑电的连通性。结果holo - hilbert变换（HHT）结果显示PD患者的中额θ (FMθ)在一致性效应中减弱，与以往的研究一致。在PD的一致性效应中，HHSA表现出θ载波频段（fc）低频振幅调制（fam）的损失。重要的是，使用Holo-Hilbert交叉频率相位聚类（HHCFPC）的连通性分析显示，从右侧前额叶皮层到其他额叶和对侧区域的theta-gamma交叉频率耦合（CFC）缺失。PD患者的β - CFC从右额皮质区到枕区也出现下降。结论采用先进的HHSA和HHCFPC分析方法揭示PD患者的视觉空间注意缺陷，为PD及相关运动障碍的认知功能评价开辟了新的神经生理生物标志物。

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Attentional dysfunction arises from right frontocentral and occipital network connectivity in Parkinson's disease

Background

The Flanker task measures visuospatial attention and assesses the attentional network by distinguishing pathways for enhancing information at attended regions and suppressing information at unattended ones (Kopp et al., 1996). In Parkinson's disease (PD), the attentional network is impaired due to dysfunctional fronto-subcortical circuits connected to the basal ganglia, disrupting response selection and inhibition. While electroencephalography (EEG) may reveal abnormalities of these circuits in PD, dynamic brain oscillations critical for interareal communications cannot be deciphered with conventional time-frequency analyses.

Objective

To utilize the novel Holo-Hilbert Spectral Analysis (HHSA) to reveal dynamic EEG features of the Flanker task in PD patients and healthy normal controls for differentiating and elucidating attentional network deficits in patients.

Methods

The novel HHSA was applied to uncover nonlinear features of the Flanker task EEG and to analyse connectivity using phase-amplitude cross-frequency coupling.

Results

Holo-Hilbert transform (HHT) results showed an attenuated midfrontal theta (FMθ) in the congruency effect in PD patients, consistent with past studies. HHSA showed a loss of low-frequency amplitude modulations (f_am) in the theta carrier frequency band (f_c) during the congruency effect in PD. Importantly, connectivity analyses using the Holo-Hilbert cross-frequency phase clustering (HHCFPC) revealed a loss of theta-gamma cross frequency coupling (CFC) from the right prefrontal cortex to other frontal and contralateral regions. Decrements were also shown in PD patients from right frontal cortical to occipital areas in theta-beta CFC.

Conclusions

These visuospatial attention deficits of PD revealed with the advanced analytical method of the HHSA and HHCFPC may inaugurate further neurophysiological biomarkers for cognitive function evaluation in PD and related movement disorders.

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来源期刊

Neuroimage. Reports Neuroscience (General)

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

87 days