Machine Learning-Based Prediction of Speech Arrest During Direct Cortical Stimulation Mapping

• URL: http://arxiv.org/abs/2509.08703v1
• Date: Wed, 10 Sep 2025 15:53:08 GMT
• Title: Machine Learning-Based Prediction of Speech Arrest During Direct Cortical Stimulation Mapping
• Authors: Nikasadat Emami, Amirhossein Khalilian-Gourtani, Jianghao Qian, Antoine Ratouchniak, Xupeng Chen, Yao Wang, Adeen Flinker,
• Abstract summary: We analyzed intracranial electrocorticographic (ECoG) data from 16 participants performing speech tasks.<n>We developed machine learning models to directly predict if the brain region underneath each ECoG is critical.
• Score: 2.060123990983555
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Identifying cortical regions critical for speech is essential for safe brain surgery in or near language areas. While Electrical Stimulation Mapping (ESM) remains the clinical gold standard, it is invasive and time-consuming. To address this, we analyzed intracranial electrocorticographic (ECoG) data from 16 participants performing speech tasks and developed machine learning models to directly predict if the brain region underneath each ECoG electrode is critical. Ground truth labels indicating speech arrest were derived independently from Electrical Stimulation Mapping (ESM) and used to train classification models. Our framework integrates neural activity signals, anatomical region labels, and functional connectivity features to capture both local activity and network-level dynamics. We found that models combining region and connectivity features matched the performance of the full feature set, and outperformed models using either type alone. To classify each electrode, trial-level predictions were aggregated using an MLP applied to histogram-encoded scores. Our best-performing model, a trial-level RBF-kernel Support Vector Machine together with MLP-based aggregation, achieved strong accuracy on held-out participants (ROC-AUC: 0.87, PR-AUC: 0.57). These findings highlight the value of combining spatial and network information with non-linear modeling to improve functional mapping in presurgical evaluation.

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