Signal properties and stability of a chronically implanted endovascular brain computer interface.

medRxiv : the preprint server for health sciences Pub Date : 2025-09-25 DOI:10.1101/2025.09.19.25335897

Nikole Chetty, Kriti Kacker, Ariel K Feldman, Peter E Yoo, James Bennett, Adam Fry, Idan Tal, Nicholas F Hardy, Sadegh Ebrahimi, Cesar Echavarria, Abbey Sawyer, Hunter R Schone, Noam Y Harel, Raul G Nogueira, Shahram Majidi, Elad I Levy, Amit Kandel, Katharine Katya Hill, Nicholas L Opie, David Lacomis, Jennifer L Collinger, Thomas J Oxley, David F Putrino, Douglas J Weber

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Abstract

Background: Implanted brain-computer interfaces (iBCIs) establish direct communication with the brain and hold the potential to enable people with severe disability to achieve control of digital devices, enabling communication and digital activities of daily living. The ability to access brain signals reliably and continuously over many years post-implantation is crucial for iBCIs to be effective and feasible. This study investigates the signal characteristics and long-term stability of neural activity recorded with a stent-electrode array over 1 year post-implant.

Methods: We report on five participants with paralysis who were enrolled in an early feasibility clinical trial of an endovascular iBCI (Stentrode; ClinicalTrials.gov, NCT05035823 ). Each participant was implanted with a 16-channel stent-electrode array, deployed in the superior sagittal sinus to record bilaterally from the primary motor cortices. Neural activity was recorded during home-based sessions while the participants performed a set of standardized tasks. Metrics including motor signal strength during attempted movement, resting state signal features, and electrode impedances were quantified over time.

Results: Motor-related modulation in neural activity was exhibited in the high-frequency bands (30-200 Hz) during attempted movements, with rest and attempted movement states showing sustained differentiation over time. Impedance and resting state band power for most channels did not change significantly over time.

Conclusions: These findings provide strong evidence that the endovascular BCIs may be suitable for long-term neural signal acquisition in the home environment, demonstrating the ability to record movement-related modulation over one year.

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长期植入血管内脑机接口的信号特性和稳定性。

背景：植入式脑机接口（ibci）建立了与大脑的直接通信，并有可能使严重残疾的人实现对数字设备的控制，使日常生活中的通信和数字活动成为可能。植入后多年可靠和持续地获取脑信号的能力对于ibci的有效性和可行性至关重要。本研究探讨了植入后1年内用支架-电极阵列记录的神经活动的信号特征和长期稳定性。方法：我们报告了5名瘫痪患者，他们参加了血管内iBCI的早期可行性临床试验（Stentrode; ClinicalTrials.gov, NCT05035823）。每个参与者都植入了16通道支架-电极阵列，部署在上矢状窦，从初级运动皮层记录双侧。在以家庭为基础的会议中，当参与者执行一系列标准化任务时，神经活动被记录下来。随着时间的推移，测量包括运动信号强度，静息状态信号特征和电极阻抗。结果：在尝试运动时，神经活动的运动相关调节在高频波段（30-200 Hz）表现出来，休息和尝试运动状态随着时间的推移表现出持续的分化。大多数信道的阻抗和静息状态带功率随时间变化不大。结论：这些发现提供了强有力的证据，表明血管内脑机接口可能适用于家庭环境下的长期神经信号采集，显示了在一年内记录运动相关调节的能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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medRxiv : the preprint server for health sciences

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