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A multi-scale information fusion approach for brain network construction in epileptic EEG analysis

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  • Ren, Zhiwen
  • Han, Dingding

Abstract

Epilepsy is characterized by complex, multi-scale disruptions in brain connectivity, yet most EEG-based network analyses focus on specific frequency bands or time scales, overlooking crucial cross-scale interactions. In this study, we propose a novel multi-scale information fusion (MSIF) framework that integrates connectivity across multiple frequency bands, temporal windows, and construction methods into a single, fused brain network. By employing Particle Swarm Optimization (PSO), our approach adaptively weights each component to maximize seizure–non-seizure discriminability while preserving stability in non-seizure phases. We validated the MSIF framework using two publicly available EEG datasets (CHB-MIT and Siena) and compared its performance against conventional methods. Our results demonstrate that the MSIF framework outperforms single-scale methods, achieving higher Comprehensive Sensitivity Scores (CSS) and more pronounced separation of seizure vs. non-seizure states. Compared to single-scale methods, the multi-scale fusion significantly enhances sensitivity to seizure-induced network reconfigurations, as evidenced by marked alterations in network metrics (e.g., global efficiency, clustering coefficient) during the seizure phase and a clear return toward baseline in post-seizure segments. These findings underscore the potential of multi-scale fusion to provide richer insights into epileptic network behavior and support more accurate seizure detection and monitoring. The proposed framework paves the way for network-based biomarkers in clinical settings, offering a scalable approach adaptable to diverse electrode configurations and patient populations.

Suggested Citation

  • Ren, Zhiwen & Han, Dingding, 2025. "A multi-scale information fusion approach for brain network construction in epileptic EEG analysis," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 661(C).
    • Handle: RePEc:eee:phsmap:v:661:y:2025:i:c:s0378437125000676
    DOI: 10.1016/j.physa.2025.130415
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    References listed on IDEAS

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    1. Yu, Haitao & Liu, Jing & Cai, Lihui & Wang, Jiang & Cao, Yibin & Hao, Chongqing, 2017. "Functional brain networks in healthy subjects under acupuncture stimulation: An EEG study based on nonlinear synchronization likelihood analysis," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 468(C), pages 566-577.
    2. Marco Fuscà & Felix Siebenhühner & Sheng H. Wang & Vladislav Myrov & Gabriele Arnulfo & Lino Nobili & J. Matias Palva & Satu Palva, 2023. "Brain criticality predicts individual levels of inter-areal synchronization in human electrophysiological data," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    3. Bin Chen & Cenglin Xu & Yi Wang & Wenkai Lin & Ying Wang & Liying Chen & Heming Cheng & Lingyu Xu & Tingting Hu & Junli Zhao & Ping Dong & Yi Guo & Shihong Zhang & Shuang Wang & Yudong Zhou & Weiwei H, 2020. "A disinhibitory nigra-parafascicular pathway amplifies seizure in temporal lobe epilepsy," Nature Communications, Nature, vol. 11(1), pages 1-16, December.
    4. Xiaowei Li & Zhuang Jing & Bin Hu & Jing Zhu & Ning Zhong & Mi Li & Zhijie Ding & Jing Yang & Lan Zhang & Lei Feng & Dennis Majoe, 2017. "A Resting-State Brain Functional Network Study in MDD Based on Minimum Spanning Tree Analysis and the Hierarchical Clustering," Complexity, Hindawi, vol. 2017, pages 1-11, July.
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