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September 10, 2025

Leveraging Functional and Structural Connectomics to Guide Neuromodulation in Epilepsy

Key Points

Precision neuromodulation enhances the effectiveness of interventions in epilepsy, tailoring therapies based on individual brain network configurations.
By integrating tools like stereo-EEG and diffusion MRI, the review presents advances in understanding seizure dynamics through connectivity analyses.
The paradigm shift in thalamic neuromodulation emphasizes a dynamic, network-informed approach rather than purely anatomical methods.
Using connectomic data, the study highlights opportunities for responsive neurostimulation aligned with real-time patient-specific brain dynamics.

Abstract

Summary: Epilepsy is not solely a disorder of abnormal brain structure; it is fundamentally a disorder of disrupted brain networks and impaired communication across brain regions. Thalamic neuromodulation, once conceptualized as a fixed, anatomically guided intervention, is now undergoing a paradigm shift toward dynamic, network-informed modulation. Using tools such as stereo-EEG, diffusion MRI, and advanced connectomic analyses, we are entering a new era where neurostimulation strategies can be individualized, responsive, and aligned with the real-time neurophysiology and structural networks of each patient. By integrating anatomic and functional connectivity data, we are moving toward precision neuromodulation tailored to patient-specific seizure networks. In this review, we highlight the emerging role of functional and structural connectivity in refining our understanding of seizure dynamics and guiding neuromodulation interventions.

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