Tomoaki Ishibashi, S. Nobukawa, Mayuna Tobe, Mitsuru Kikuchi, Tetsuya Takahashi
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引用次数: 0
摘要
本研究旨在利用脑电图(EEG)数据,识别精神分裂症(SZ)患者全脑网络中的非典型枢纽,并研究抗精神病药物的影响。我们对21名未服药的SZ患者和31名年龄匹配的健康对照者的脑电信号应用相位滞后指数,估计了所有电极的功能连通性。计算了每个电极和频段的中心度(BC),这是衡量枢纽状态的指标。在开始使用抗精神病药物治疗后,对 14 名患者的数据进行了重新评估。在 SZ 患者中,β 频段 Fz 位置的 BC 值显著下降,γ 频段 Pz 位置的 BC 值显著下降,γ 频段 O1 位置的 BC 值显著上升。我们观察到的异常中枢拓扑,尤其是高频段的异常中枢拓扑,可能反映了 SZ 的病理生理学,本研究强调了对脑电图数据进行 BC 分析以检测 SZ 患者全脑网络改变的实用性。
Alterations in the hub structure of whole‐brain functional networks in patients with drug‐naïve schizophrenia: Insights from electroencephalography‐based research
This study aimed to identify atypical hubs in the whole‐brain networks of patients with schizophrenia (SZ) and examine the effects of antipsychotic medications, using electroencephalography (EEG) data.We estimated the functional connectivity across all electrodes by applying the phase lag index to the EEG signals of 21 drug‐naïve patients with SZ and 31 age‐matched healthy controls. Betweenness centrality (BC), a measure of hub status, was calculated for each electrode and frequency band. Data from 14 patients were re‐evaluated after initiating treatment with antipsychotic medications.BC values decreased significantly at the Fz site in the beta band, decreased significantly at Pz in the gamma band, and increased significantly at O1 in the gamma band among patients with SZ. These changes persisted after antipsychotic treatment and were unrelated to clinical symptoms.The abnormal hub topology we observed, especially in the high‐frequency band, may reflect the pathophysiology of SZ, and this study highlights the utility of BC analysis of EEG data for detecting alterations in the whole‐brain networks of patients with SZ.
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