Uzupełniająca wartość predykcyjna obrazowania źródeł elektromagnetycznych i odpowiedzi hemodynamicznych w chirurgii epilepsji: ilościowa analiza przestrzenna
PubMedEpilepsia
Complementary predictive value of electromagnetic source imaging and hemodynamic responses in epilepsy surgery: A quantitative spatial analysis
W skrócie
Badanie porównało dwie metody obrazowania mózgu (EEG/MEG i EEG/fMRI) u 25 pacjentów z oporną na leki epilepsją, którzy przeszli operację chirurgiczną mającą na celu usunięcie ogniska padaczki. Wyniki pokazały, że połączenie obu metod razem dało najlepsze przewidywanie powodzenia operacji - wszyscy pacjenci, u których oba badania wskazywały na to samo miejsce i zostało ono usunięte, osiągnęli dobrą poprawę. Badanie potwierdza, że stosowanie kilku metod obrazowania jednocześnie poprawia dokładność diagnostyki i predykcję wyników operacji u pacjentów z epilepsją.
Oryginalny abstract (angielski)
OBJECTIVE: Accurate presurgical evaluation should assess not only the location but also the spatial extent of epileptic activity relative to the surgical cavity, a practical approximation of the epileptogenic zone. We evaluated how electromagnetic source imaging (EMSI) and hemodynamic responses to epileptic discharges relate to the surgical cavity and postoperative outcome, and whether multimodal concordance improves surgical prediction. METHODS: Consecutive patients with drug-resistant focal epilepsy who underwent electroencephalography/magnetoencephalography (EEG/MEG), and EEG/functional magnetic resonance imaging (EEG/fMRI) followed by surgery and ≥1-year postoperative follow-up were included. EMSI was performed using maximum entropy on the mean. The most significant fMRI cluster was extracted. All results were projected onto a common cortical surface. Spatial concordance with the surgical cavity was quantified using spatial overlap (area under the receiver operating characteristic curve [AUC]), distance localization error (DLE), and spatial dispersion (SD). Predictive performance was evaluated using a combined spatial criterion (AUC >0.70 and DLE = 0 mm). RESULTS: Twenty-five patients were included. EEG/MEG, EEG/fMRI, and multimodal analyses were contributive in 23, 14, and 12 patients, respectively. In the EEG/MEG group (n = 23), patients with good outcome showed higher spatial overlap (mean ± standard deviation, AUC: 0.70 ± 0.14 vs 0.56 ± 0.18; p = 0.04), shorter DLE (4.83 ± 6.80 mm vs 17.98 ± 14.39 mm; p = 0.02), and a trend toward lower SD (24.45 ± 17.07 mm vs 34.21 ± 14.22 mm; p = 0.08) than patients with poor outcome. EEG/fMRI (n = 14) exhibited similar trends without statistical significance. In predicting surgical outcome, EMSI achieved a negative predictive value of 62% and an accuracy of 61%, whereas EEG/fMRI reached 83% and 86%, respectively. When both modalities were considered (n = 12), all patients with concordant resected findings achieved a good outcome, whereas 8 of 10 patients with discordant results did not. SIGNIFICANCE: EEG/MEG and EEG/fMRI showed complementary profiles. Resection of EEG/MEG localizations were more frequently associated with good outcome, whereas unresected EEG/fMRI responses predicted poor outcome. Concordant and resected multimodal findings were associated with good outcome, supporting a quantitative multimodal approach in presurgical evaluation.
Metadane publikacji
Journal
Epilepsia
Data publikacji
09.07.2026
PMID
42423621
DOI
10.1002/epi.70347
Autorzy
Abdallah C, Delaire E, Dascal A, González A, Cai Z, Hedrich T, Khajehpour H, Ikemoto S, Tanaka M, Bernhardt BC
Słowa kluczowe
EEG/fMRI, MEG, epileptogenic zone, multimodal, surgical outcome