Personalized biomarkers of multiscale functional alterations in temporal lobe epilepsy
Ke Xie, Ella Sahlas, Alexander Ngo, Judy Chen, Thaera Arafat, Jessica Royer, Yigu Zhou, Raúl Rodríguez‐Cruces, Arielle Dascal, Benoît Caldairou, Fatemeh Fadaie, Alexander J. Barnett, Sam Audrain, Sara Larivière, Lorenzo Caciagli, Raluca Pana, Alexander G. Weil, Christophe Grova, Birgit Frauscher, Dewi Schrader, Zhiqiang Zhang, Luis Concha, Andrea Bernasconi, Neda Bernasconi, Boris C. Bernhardt
Abstract
Temporal lobe epilepsy (TLE) is the most common pharmacoresistant epilepsy in adults, yet few patients receive curative surgery due to diagnostic and prognostic uncertainty. In a multicenter cohort, we analyzed multimodal MRI and clinical data from 282 TLE patients, 298 healthy controls, and 45 disease controls. Patient-specific deviations from typical lifespan trajectories of intrinsic brain function were mapped using normative modeling. Regional functional alterations were heterogeneous but overlapped most in the mesiotemporal cortex. Connectome-based simulations revealed abnormality spread followed structural network architecture, highlighting the hippocampus as well as paralimbic and medial default-mode regions as epicenters. Multimodal integration implicated superficial white-matter microstructural alterations as a key contributor. Supervised models achieved AUCs of 0.77 for distinguishing TLE from disease controls, 0.74 for lateralizing seizure focus, and 0.64 for predicting postsurgical seizure freedom; greater contralateral temporal deviations predicted poorer outcomes. These findings support individualized functional biomarkers for precision presurgical care in focal epilepsy.