AI Article Synopsis
- Neuroimaging studies indicate that bipolar disorder (BD) is associated with disrupted brain network activity during rest, while EEG studies have revealed altered brain function during depressive episodes in various affective disorders.
- This research aimed to investigate whether euthymic (stable mood) BD patients exhibit abnormal resting-state brain dynamics, using high-density EEG to compare these patients with healthy controls.
- Findings showed that BD patients had an increased occurrence and coverage of a specific EEG microstate (A) compared to controls, without a significant correlation to anxiety levels, suggesting that this microstate may represent a unique electrophysiological characteristic of BD.
Article Abstract
Neuroimaging studies provided evidence for disrupted resting-state functional brain network activity in bipolar disorder (BD). Electroencephalographic (EEG) studies found altered temporal characteristics of functional EEG microstates during depressive episode within different affective disorders. Here we investigated whether euthymic patients with BD show deviant resting-state large-scale brain network dynamics as reflected by altered temporal characteristics of EEG microstates. We used high-density EEG to explore between-group differences in duration, coverage, and occurrence of the resting-state functional EEG microstates in 17 euthymic adults with BD in on-medication state and 17 age- and gender-matched healthy controls. Two types of anxiety, state and trait, were assessed separately with scores ranging from 20 to 80. Microstate analysis revealed five microstates (A-E) in global clustering across all subjects. In patients compared to controls, we found increased occurrence and coverage of microstate A that did not significantly correlate with anxiety scores. Our results provide neurophysiological evidence for altered large-scale brain network dynamics in BD patients and suggest the increased presence of A microstate to be an electrophysiological trait characteristic of BD.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6873781 | PMC |
| http://dx.doi.org/10.3389/fpsyt.2019.00826 | DOI Listing |
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