"V体育ios版" Flexible and stable cycle-by-cycle phase-locked deep brain stimulation system targeting brain oscillations in the management of movement disorders
- PMID: 40921295
- DOI: 10.1016/j.brs.2025.09.002
Flexible and stable cycle-by-cycle phase-locked deep brain stimulation system targeting brain oscillations in the management of movement disorders
Abstract
Background: Precisely timed brain stimulation, such as phase-locked deep brain stimulation (PLDBS), offers a promising approach to modulating dysfunctional neural networks by enhancing or suppressing specific oscillations. However, its clinical application has been hindered by the lack of user-friendly systems and the challenge of real-time phase estimation amid stimulation artifacts. VSports手机版.
Material and method: In this work, we developed a clinically translatable PLDBS framework that enables real-time, cycle-by-cycle stimulation using standard amplifiers and a computer-in-the-loop system V体育安卓版. Our approach integrates Kalman filter-based artifact suppression and non-resonant oscillators for accurate phase tracking. We tested this system in a small clinical trial (n=4) targeting subthalamic nucleus (STN) stimulation at specific phases of cortical alpha and STN beta rhythms in patients with movement disorders during acute lead externalization following deep brain stimulation surgery. .
Result: The system delivered stimulation with over 90% accuracy, within ±π/2 for STN beta and ±π/4 for cortical alpha V体育ios版. Stimulations delivered at different STN beta phases led to a significant difference in evoked potentials in STN local field potentials in all participants. STN beta-triggered stimulation showed potential phase-dependent modulation of finger-tapping velocity and amplitude in Parkinson's disease. .
Conclusion: This study presents a flexible and stable pipeline for precise PLDBS with CE-marked devices and a computer-in-the-loop VSports最新版本. Using this pipeline, we showed that PLDBS at different STN beta phases differentially modulates the evoked action potentials in the STN and motor behavior used to quantify bradykinesia, paving the way for further studies and clinical trials for PLDBS. .
Keywords: Closed-loop neuromodulation; Kalman filter; Non-resonant oscillators; Parkinson's disease; Phase-locked stimulation. V体育平台登录.
Copyright © 2025. Published by Elsevier Inc VSports注册入口. .
Conflict of interest statement
Declaration of Competing Interest KW is currently employed by Magstim Ltd V体育官网入口. TD has research agreements with Magstim and Medtronic, and is chief engineer of Amber therapeutics. However, this study did not use any material produced by Magstim Ltd or Amber therapeutics.
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