基于联合独立成分分析(jICA)的 EEG 和 fMRI 耦合和解耦。
EEG and fMRI coupling and decoupling based on joint independent component analysis (jICA).
机构信息
Department of Biomedical Engineering, Marquette University and Medical College of Wisconsin, Milwaukee, WI, USA.
Department of Biomedical Engineering, Marquette University and Medical College of Wisconsin, Milwaukee, WI, USA; Clinical Translational Science Institute, Medical College of Wisconsin, Milwaukee, WI, USA.
出版信息
J Neurosci Methods. 2022 Mar 1;369:109477. doi: 10.1016/j.jneumeth.2022.109477. Epub 2022 Jan 6.
BACKGROUND
Meaningful integration of functional magnetic resonance imaging (fMRI) and electroencephalography (EEG) requires knowing whether these measurements reflect the activity of the same neural sources, i.e., estimating the degree of coupling and decoupling between the neuroimaging modalities.
NEW METHOD
This paper proposes a method to quantify the coupling and decoupling of fMRI and EEG signals based on the mixing matrix produced by joint independent component analysis (jICA). The method is termed fMRI/EEG-jICA.
RESULTS
fMRI and EEG acquired during a syllable detection task with variable syllable presentation rates (0.25-3 Hz) were separated with jICA into two spatiotemporally distinct components, a primary component that increased nonlinearly in amplitude with syllable presentation rate, putatively reflecting an obligatory auditory response, and a secondary component that declined nonlinearly with syllable presentation rate, putatively reflecting an auditory attention orienting response. The two EEG subcomponents were of similar amplitude, but the secondary fMRI subcomponent was ten folds smaller than the primary one.
COMPARISON TO EXISTING METHOD
FMRI multiple regression analysis yielded a map more consistent with the primary than secondary fMRI subcomponent of jICA, as determined by a greater area under the curve (0.5 versus 0.38) in a sensitivity and specificity analysis of spatial overlap.
CONCLUSION
fMRI/EEG-jICA revealed spatiotemporally distinct brain networks with greater sensitivity than fMRI multiple regression analysis, demonstrating how this method can be used for leveraging EEG signals to inform the detection and functional characterization of fMRI signals. fMRI/EEG-jICA may be useful for studying neurovascular coupling at a macro-level, e.g., in neurovascular disorders.
背景
功能磁共振成像(fMRI)和脑电图(EEG)的有意义整合需要知道这些测量结果是否反映了相同的神经源活动,即,估计神经影像学模式之间的耦合和解耦程度。
新方法
本文提出了一种基于联合独立成分分析(jICA)产生的混合矩阵来量化 fMRI 和 EEG 信号的耦合和解耦的方法。该方法称为 fMRI/EEG-jICA。
结果
在具有可变音节呈现率(0.25-3 Hz)的音节检测任务中采集的 fMRI 和 EEG 通过 jICA 分为两个时空上明显不同的成分,一个主要成分随音节呈现率呈非线性增加,推测反映了强制性听觉反应,而次要成分随音节呈现率呈非线性下降,推测反映了听觉注意力定向反应。两个 EEG 子成分的幅度相似,但次要 fMRI 子成分比主要成分小十倍。
与现有方法的比较
通过敏感性和特异性分析空间重叠,FMRI 多元回归分析得出的图谱比 jICA 的次要 fMRI 子成分更一致,曲线下面积更大(0.5 与 0.38)。
结论
fMRI/EEG-jICA 揭示了具有更高灵敏度的时空上不同的大脑网络,比 fMRI 多元回归分析更有效,证明了如何利用 EEG 信号来检测和功能表征 fMRI 信号。fMRI/EEG-jICA 可能有助于研究宏观水平的神经血管耦合,例如在神经血管疾病中。
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