Functional Connectivity Changes With ECT: New EEG Study From China
Out on PubMed, from investigators in China, is this study:
Electroconvulsive Therapy-Induced Changes in Functional Brain Network of Major Depressive Disorder Patients: A Longitudinal Resting-State Electroencephalography Study.
The abstract is copied below:
Objectives: Several studies have shown abnormal network topology in patients with major depressive disorder (MDD). However, changes in functional brain networks associated with electroconvulsive therapy (ECT) remission based on electroencephalography (EEG) signals have yet to be investigated.
Methods: Nineteen-channel resting-state eyes-closed EEG signals were collected from 24 MDD patients pre- and post-ECT treatment. Functional brain networks were constructed by using various coupling methods and binarization techniques. Changes in functional connectivity and network metrics after ECT treatment and relationships between network metrics and clinical symptoms were explored.
Results: ECT significantly increased global efficiency, edge betweenness centrality, local efficiency, and mean degree of alpha band after ECT treatment, and an increase in these network metrics had significant correlations with decreased depressive symptoms in repeated measures correlation. In addition, ECT regulated the distribution of hubs in frontal and occipital lobes.
Conclusion: ECT modulated the brain's global and local information-processing patterns. In addition, an ECT-induced increase in network metrics was associated with clinical remission.
Significance: These findings might present the evidence for us to understand how ECT regulated the topology organization in functional brain networks of clinically remitted depressive patients.
Keywords: electroconvulsive therapy; electroencephalography; functional connectivity; graph theory analysis; major depressive disorder.
And from the text:
This study is a bit more interesting than many other neuroimaging studies because it uses EEG to examine functional brain networks and looks at associations with clinical response. The analytic methods are complex, even arcane, and replication in larger samples will, of course, be necessary. I am not ready to dedicate any cortical space to learning the details of the findings, other than to know that ECT "regulates" the "topology of functional brain networks" and "modulates" the brain's "global and local information-processing patterns."Students/scholars of the ECT neuroimaging and EEG literature will want to read this paper in full, ~ 25 minutes.
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