Awareness- and Arousal-specific Brain Analysis Predicts Spinal Cord Stimulation Effectiveness in Disorders of Consciousness

持续植物状态 医学 神经科学 神经生理学 意识 脊髓 大脑活动与冥想 神经影像学 意识障碍 物理医学与康复 脑刺激 脑电图 大脑定位 脊髓刺激 中枢神经系统疾病 中枢神经系统 计算机科学 脑深部刺激 磁共振成像 定量分析(化学) 荟萃分析
作者
Jiewei Lu,Qianqian Ge,Yinuo Liu,Jianghong He,Jianda Han,Ningbo Yu
出处
期刊:IEEE Journal of Biomedical and Health Informatics [Institute of Electrical and Electronics Engineers]
卷期号:PP: 1-14
标识
DOI:10.1109/jbhi.2026.3677372
摘要

Spinal cord stimulation (SCS) is an advanced treatment for disorders of consciousness (DoC), but its success rate varies between 30 and 60%, and consciousness-related biomarkers are urgently needed for SCS assessment and optimization. This paper proposes an awareness- and arousal-specific brain analysis (AAA) method to encode these two consciousness dimensions and construct consciousness-related features to predict SCS outcomes of DoC patients. Firstly, electroencephalo gram (EEG) brain signals were collected from twenty-eight DoC patients during SCS treatment. Then, dynamic brain networks are formulated based on sliding-window correlation analysis of weighted phase lag index. Afterwards, a hierarchical network decomposition algorithm was developed to resolve the dynamic networks into consciousness related networks by elaborating data-driven optimization of non-negative matrix factorization and consciousness related variability. Further, consciousness features are designed to quantify the activation, interaction, and stability of awareness- and arousal-specific networks, and a support vector machine is trained for classification of SCS treatment effectiveness. Clinical results showed that our method achieved an overall prediction accuracy of 88%, which is significantly better than clinical accuracy of 50% by doctors. Moreover, our method outperformed existing EEG-based approaches in both prediction accuracy and pathology interpretability. The proposed awareness- and arousal-specific brain analysis method establishes a pivotal framework for precise and reliable SCS treatment of DoC.
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