Closed-loop control of seizure activity via real-time seizure forecasting by reservoir neuromorphic computing
May 04, 2025 Β· Declared Dead Β· π Neuromorphic Computing and Engineering
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Authors
Maryam Sadeghi, DarΓo FernΓ‘ndez Khatiboun, Yasser Rezaeiyan, Saima Rizwan, Alessandro Barcellona, Andrea Merello, Marco Crepaldi, Gabriella Panuccio, Farshad Moradi
arXiv ID
2505.02003
Category
cs.AI: Artificial Intelligence
Cross-listed
cs.ET,
cs.HC
Citations
2
Venue
Neuromorphic Computing and Engineering
Last Checked
4 months ago
Abstract
Closed-loop brain stimulation holds potential as personalized treatment for drug-resistant epilepsy (DRE) but still suffers from limitations that result in highly variable efficacy. First, stimulation is typically delivered upon detection of the seizure to abort rather than prevent it; second, the stimulation parameters are established by trial and error, requiring lengthy rounds of fine-tuning, which delay steady-state therapeutic efficacy. Here, we address these limitations by leveraging the potential of neuromorphic computing. We present a neuromorphic reservoir computing hardware system capable of driving real-time personalized free-run stimulations based on seizure forecasting, wherein each forecast triggers an electrical pulse rather than an arbitrarily predefined fixed-frequency stimulus train. The system achieves 83.33% accuracy in forecasting seizure occurrences during the training phase. We validate the system using hippocampal spheroids coupled to 3D microelectrode array as a simplified testbed, achieving seizure reduction >97% during the real-time processing while primarily using instantaneous stimulation frequencies within 20 Hz, well below what typically used in clinical practice. Our work demonstrates the potential of neuromorphic systems as a next-generation neuromodulation strategy for personalized DRE treatment, leveraging their sparse and event-driven processing for real-time applications.
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