Zmieniona dynamika mikrostanów EEG odzwierciedla objawy depresji u pacjentów z epilepsją skroniową
Altered EEG microstate dynamics reflect depressive symptoms in temporal lobe epilepsy
W skrócie
Badacze analizowali zapisy elektrycznej aktywności mózgu (EEG) u pacjentów z epilepsją skroniową i odkryli, że osoby z depresją wykazują sztywniejsze wzorce aktywności mózgu - ich mózg utyka w pewnych konfiguracjach sieciowych związanych z epilepsją i trudniej przechodzi do innych stanów. Im silniejsze objawy depresji, tym bardziej zaburzony był system przełączania się między różnymi wzorcami aktywności mózgu, co sugeruje, że depresja u tych pacjentów może wynikać z zaburzeń w działaniu sieci neuronów powiązanych z ogniskiem epilepsji.
Oryginalny abstract (angielski)
BACKGROUND: Depressive symptoms are a common and disabling comorbidity in temporal lobe epilepsy (TLE), yet the neural mechanisms linking seizure networks to affective symptoms remain unclear. Although limbic network dysfunction has been implicated in both epilepsy and depressive disorders, it is unknown whether the time-varying dynamics of large-scale electrophysiological brain states reflect depressive symptom severity in TLE. In this study, we examined whether EEG microstate dynamics capture network alterations associated with depressive symptoms in individuals with unilateral TLE. METHODS: We analyzed resting-state, visually normal scalp EEG from 26 individuals with unilateral TLE. EEG microstates were identified by clustering global field power peaks into four canonical classes, with electrode positions mirrored to align the ictal hemisphere across subjects. Microstate dwell time, fractional occupancy, global transition entropy, and Markov transition probabilities were quantified and related to Beck Depression Inventory-II (BDI) scores. RESULTS: Individuals with high depressive symptoms (BDI ≥ 13; N = 12) exhibited longer mean dwell time in the ictal hemisphere-aligned microstate compared with individuals with low depressive symptom burden (BDI < 13; N = 14). Across subjects, dwell time in this microstate correlated with depressive symptom severity (r = 0.57, p = 0.002). TLE individuals with higher depressive symptoms exhibited reduced global transition entropy (p = 0.02), which also correlated with depressive symptom severity (r = -0.54, p = 0.004), indicating decreased flexibility of microstate transitions. Despite similar fractional occupancy of this state between groups, individuals with higher depressive symptoms were less likely to transition into the ictal hemisphere-aligned microstate from non-ictal or posterior configurations. Once engaged, however, the ictal-aligned microstate showed increased persistence, indicating prolonged stabilization of this network configuration. CONCLUSION: Higher depressive symptom burden in unilateral TLE is associated with increased temporal rigidity of the ictal hemisphere-aligned brain microstate, reflecting impaired disengagement of epileptogenic network configurations. These findings suggest that depressive symptoms in TLE may be associated with epilepsy-related disruptions in large-scale neural dynamics.