注意缺陷多动障碍大脑的可控性

IF 3.1 3区工程技术 Q2 NEUROSCIENCES

Cognitive Neurodynamics Pub Date : 2024-02-06 DOI:10.1007/s11571-023-10063-z

Bo Chen, Weigang Sun, Chuankui Yan

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引用次数: 0

摘要

网络指标在探索精神疾病大脑网络中的作用至关重要。本研究的重点是量化节点可控性指数（CA-scores），并为研究注意缺陷多动障碍（ADHD）大脑功能障碍建立一个新的框架。通过分析143名健康对照组和102名注意力缺陷多动障碍患者的fMRI数据，可控性指标揭示了节点（脑区）和子系统（功能模块）的明显差异。ADHD患者的Rolandic operculum、上内侧眶额皮层、脑岛、扣带回后部、边际上回、角回、楔前回、heschl回和颞上回的CA得分明显不典型。通过与连接强度、特征向量中心性和拓扑熵的测量方法进行比较，我们发现可控性指数在识别多动症大脑异常区域方面可能更有效。此外，我们的可控性指数还可扩展用于研究与其他精神疾病相关的功能网络。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Controllability in attention deficit hyperactivity disorder brains

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Controllability in attention deficit hyperactivity disorder brains

The role of network metrics in exploring brain networks of mental illness is crucial. This study focuses on quantifying a node controllability index (CA-scores) and developing a novel framework for studying the dysfunction of attention deficit hyperactivity disorder (ADHD) brains. By analyzing fMRI data from 143 healthy controls and 102 ADHD patients, the controllability metric reveals distinct differences in nodes (brain regions) and subsystems (functional modules). There are significantly atypical CA-scores in the Rolandic operculum, superior medial orbitofrontal cortex, insula, posterior cingulate gyrus, supramarginal gyrus, angular gyrus, precuneus, heschl gyrus, and superior temporal gyrus of ADHD patients. A comparison with measures of connection strength, eigenvector centrality, and topology entropy suggests that the controllability index may be more effective in identifying abnormal regions in ADHD brains. Furthermore, our controllability index could be extended to investigate functional networks associated with other psychiatric disorders.

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来源期刊

Cognitive Neurodynamics 医学-神经科学

CiteScore

6.90

自引率

18.90%

发文量

140

审稿时长

12 months

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.