Yongcong Li, Banghua Yang, Jun Ma, Yunzhe Li, Hui Zeng, Jie Zhang
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引用次数: 0
摘要
甲基苯丙胺(MA)成瘾会导致大脑神经通信功能受损,而功能连接(FC)可能是一个有效的指标。然而,目前还不清楚甲基苯丙胺使用障碍(MUD)患者在接受重复经颅磁刺激(rTMS)治疗后大脑功能连接如何变化。34 名甲基苯丙胺使用障碍患者参与了这项研究。受试者被随机分配接受活性经颅磁刺激或假性经颅磁刺激,为期四周。受试者在治疗前后进行了脑电图(EEG)检查和视觉模拟量表(VAS)评估。研究人员构建并可视化了FC网络,然后进行了图论分析。最后,利用机器学习对经颅磁刺激前后的 FC 网络进行分类。结果表明:(1)活跃组在贝塔波段的连通性显著增强;(2)活跃组在贝塔波段的全局效率、局部效率和聚集系数显著下降;(3)LDA算法结合贝塔波段FC矩阵在区分治疗前后的平均准确率达到82.5%。该研究表明,脑FC能有效评估经颅磁刺激的治疗效果,其中β波段是最敏感、最有效的频段。
Assessment of rTMS treatment effects for methamphetamine addiction based on EEG functional connectivity
Methamphetamine (MA) addiction leads to impairment of neural communication functions in the brain, and functional connectivity (FC) may be a valid indicator. However, it is unclear how FC in the brain changes in methamphetamine use disorder (MUD) after treatment with repetitive transcranial magnetic stimulation (rTMS). Thirty-four patients with MUD participated in this study. The subjects were randomized to receive the active or sham rTMS for four weeks. Subjects performed electroencephalography (EEG) examinations and visual analogue scale (VAS) assessments before and after the treatment. The FC networks were constructed and visualized, and then the graph theory analysis was carried out. Finally, machine learning was used to classify FC networks before and after rTMS. The results showed that (1) the active group showed a significant enhancement in connectivity in the beta band; (2) the global efficiency, local efficiency, and aggregation coefficient of the active group in the beta band decreased significantly; (3) the LDA algorithm combined with the beta band FC matrix achieved an average accuracy of 82.5% in distinguishing before and after treatment. This study demonstrated that brain FC could effectively assess the therapeutic effect of rTMS, among which the beta band was the most sensitive and effective frequency band.
期刊介绍:
Cognitive Neurodynamics provides a unique forum of communication and cooperation for scientists and engineers working in the field of cognitive neurodynamics, intelligent science and applications, bridging the gap between theory and application, without any preference for pure theoretical, experimental or computational models.
The emphasis is to publish original models of cognitive neurodynamics, novel computational theories and experimental results. In particular, intelligent science inspired by cognitive neuroscience and neurodynamics is also very welcome.
The scope of Cognitive Neurodynamics covers cognitive neuroscience, neural computation based on dynamics, computer science, intelligent science as well as their interdisciplinary applications in the natural and engineering sciences. Papers that are appropriate for non-specialist readers are encouraged.
1. There is no page limit for manuscripts submitted to Cognitive Neurodynamics. Research papers should clearly represent an important advance of especially broad interest to researchers and technologists in neuroscience, biophysics, BCI, neural computer and intelligent robotics.
2. Cognitive Neurodynamics also welcomes brief communications: short papers reporting results that are of genuinely broad interest but that for one reason and another do not make a sufficiently complete story to justify a full article publication. Brief Communications should consist of approximately four manuscript pages.
3. Cognitive Neurodynamics publishes review articles in which a specific field is reviewed through an exhaustive literature survey. There are no restrictions on the number of pages. Review articles are usually invited, but submitted reviews will also be considered.