Precise control of tibial nerve stimulation for bladder regulation via evoked compound action potential feedback mechanisms Article Swipe

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Stimulation Compound muscle action potential Action (physics) Neuroscience Tibial nerve Nerve stimulation Medicine Computer science Electrophysiology Biology Physics Quantum mechanics

Young-Soo Lim , Ji Hong Kim , Junho Kim , Mai P. Hoang , Wonok Kang , Minsoo Koh , Woorak Choi , Steve Park , Unyong Jeong , Do Hwan Kim , Sung‐Min Park ·

YOU? · · 2025 · Open Access · · DOI: https://doi.org/10.1038/s41467-025-59436-4 · OA: W4410026863

Optimizing stimulation protocols for peripheral neuromodulation often depends on patient feedback, which can result in inconsistent clinical outcomes. Here we present a closed-loop control system for peripheral nerve stimulation (PNS) that utilizes evoked compound action potential (ECAP) feedback to regulate stimulation parameters, addressing the limitations of traditional methods. Unlike established closed-loop control techniques in the central nervous system, such as local field potential and spike analysis, a comparable approach for the peripheral nervous system remains underdeveloped. ECAPs can be consistently observed across peripheral nerves, providing a reliable measure of nerve activation. We developed a fully implantable device and neural interface for tibial nerve stimulation (TNS) that incorporates the proposed closed-loop system. This TNS system shows promise as a PNS treatment for alleviating overactive bladder symptoms. In a rat model, the system demonstrated longer micturition intervals and greater effectiveness compared to conventional motor response-based control.