Cechy elektroklimiczne epilepsji po autoimmunologicznym zapaleniu mózgu
PubMed➕ 14.07.2026Epilepsy Behav Rep
The electroclinical phenotype of epilepsy following autoimmune encephalitis
W skrócie
Badacze porównali zapisy elektrycznej aktywności mózgu (EEG) u pacjentów z epilepsją po autoimmunologicznym zapaleniu mózgu z grupą pacjentów z tradycyjną epilepsją skroniową. Okazało się, że pacjenci po zapaleniu mózgu mają charakterystyczne wzory w EEG - częściej pojawiają się tzw. wyładowania dwustronne w obu półkulach mózgu. Opracowana przez badaczy metoda łączna ocena wyników EEG, obrazowania mózgu i zbadanych płynów z mózgu może pomóc lekarzom w odróżnieniu epilepsji po zapaleniu od zwykłej epilepsji skroniowej i w podjęciu właściwych decyzji dotyczących leczenia.
Oryginalny abstract (angielski)
OBJECTIVE: To describe the temporal and spatial dynamics of electroencephalographic (EEG) recordings in epilepsy following autoimmune encephalitis (AE) compared to temporal lobe epilepsy (TLE) without signs of inflammatory etiology. METHODS: We assessed electroencephalographic properties using continuous long-term (72-h) EEG recordings in combination with neuroimaging markers and cerebrospinal fluid (CSF) parameters of 25 patients with epilepsy following AE and 30 patients with TLE. We specifically investigated the presence of focal slowing (FS) and epileptiform discharges (EDs). Additionally, spectral EEG variability during wakefulness and sleep was analyzed using quantitative EEG analysis. RESULTS: Compared to TLE, patients with AE showed significantly more independent bitemporal FS and independent bitemporal EDs ( < 0.05), with a higher co-occurrence of both patterns (p < 0.05). Quantitative analysis of wake and sleep EEG revealed greater spectral variability in AE, particularly in the temporal regions. A composite score incorporating EEG data, MRI and CSF parameters, as well as clinical features, effectively distinguished AE from TLE ( < 0.0001). Using the same variables, principal component analysis also demonstrated clear separation between the two groups. SIGNIFICANCE: These results demonstrate distinct and quantifiable EEG characteristics in epilepsy following AE. The identified EEG patterns and the proposed score may serve as biomarkers for differentiating between epilepsy following AE and TLE of non-inflammatory etiology. This approach can aid clinicians in determining the need for further diagnostic testing or optimizing therapy decisions in the post-acute phase, where clinicians frequently encounter patients with new-onset or evolving epilepsy in whom a current or prior inflammatory etiology is suspected. In this scenario, a precise understanding of post-acute EEG characteristics may be clinically relevant to assess the probability of an underlying autoimmune/inflammatory process and to guide the immune-directed evaluation, antiseizure medication optimization, and epilepsy-surgical evaluation.
Metadane publikacji
Journal
Epilepsy Behav Rep
Data publikacji
01.09.2026
PMID
42440451
DOI
10.1016/j.ebr.2026.100882
Autorzy
Neidhart S, Dubcek T, Ledergerber D, Kohnen O, Imbach L