EEG-Based Acute Pain Classification: Machine Learning Model Comparison and Real-Time Clinical Feasibility

• URL: http://arxiv.org/abs/2510.05511v1
• Date: Tue, 07 Oct 2025 01:57:36 GMT
• Title: EEG-Based Acute Pain Classification: Machine Learning Model Comparison and Real-Time Clinical Feasibility
• Authors: Aavid Mathrawala, Dhruv Kurup, Josie Lau,
• Abstract summary: Current pain assessment within hospitals often relies on self-reporting or non-specific EKG vital signs.<n>Electroencephalography (EEG) offers a noninvasive method of measuring brain activity.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Current pain assessment within hospitals often relies on self-reporting or non-specific EKG vital signs. This system leaves critically ill, sedated, and cognitively impaired patients vulnerable to undertreated pain and opioid overuse. Electroencephalography (EEG) offers a noninvasive method of measuring brain activity. This technology could potentially be applied as an assistive tool to highlight nociceptive processing in order to mitigate this issue. In this study, we compared machine learning models for classifying high-pain versus low/no-pain EEG epochs using data from fifty-two healthy adults exposed to laser-evoked pain at three intensities (low, medium, high). Each four-second epoch was transformed into a 537-feature vector spanning spectral power, band ratios, Hjorth parameters, entropy measures, coherence, wavelet energies, and peak-frequency metrics. Nine traditional machine learning models were evaluated with leave-one-participant-out cross-validation. A support vector machine with radial basis function kernel achieved the best offline performance with 88.9% accuracy and sub-millisecond inference time (1.02 ms). Our Feature importance analysis was consistent with current canonical pain physiology, showing contralateral alpha suppression, midline theta/alpha enhancement, and frontal gamma bursts. The real-time XGBoost model maintained an end-to-end latency of about 4 ms and 94.2% accuracy, demonstrating that an EEG-based pain monitor is technically feasible within a clinical setting and provides a pathway towards clinical validation.

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