Electrochemical stability and neural recording with sputtered ruthenium oxide electrodes subchronically in rat motor cortex.

IF 3.8

Journal of neural engineering Pub Date : 2025-07-21 DOI:10.1088/1741-2552/adee49

Justin R Abbott, Eleanor N Jeakle, Yupeng Wu, Thomas J Smith, Negar Geramifard, Bitan Chakraborty, Mahasty Khajehzadeh, Sahana Dhananjayan, Ana G Hernandez-Reynoso, Joseph J Pancrazio, Stuart F Cogan

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Abstract

Objective. To investigate sputtered ruthenium oxide (RuO_x) as a low impedance coating for recording neural activity with intracortical microelectrode arrays (MEAs).Approach.RuO_xwas sputtered onto active sites of amorphous silicon carbide (a-SiC) MEAs and evaluated electrochemically and as a recording electrode coating over 6 weeks in rat motor cortex. The RuO_xwas 250 nm thick with a 200μm²geometric electrode surface area. We performed weekly electrochemical impedance spectroscopy and cyclic voltammetry (CV) measurements and single-unit action potential recordings.Main results.From 1 to 6 weeks post-implantation, we observed that median 1 kHz impedance decreased from 1.06 MΩ to 0.68 MΩ, median 1 Hz impedance decreased from 24.5 MΩ to 20.7 MΩ, and median 30 kHz impedance remained constant at 0.19 MΩ. Linear regression fits indicated that the 1 kHz and 1 Hz impedance exhibited small decreases whereas the 30 kHz impedance values had no discernible trend. The CV-based charge storage capacity (CSC_c) also exhibited consistency over time. The median CSC_cat 50 mV s^-1was 24.3 mC cm^-2on week 1 and 20.1 mC cm^-2at week 6. At 50 000 mV s^-1sweep rate, the median CSC_cwas 2.4 mC cm^-2at 1 week and 2.8 mC cm^-2at 6 weeks. Regressions for both sweep rates exhibited no significant slope deviations from zero. Neural recordings spanning 6 weeks demonstrated consistent single unit action potential with a 75% single unit active-electrode-yield over 6 weeks. MedianV_ppvalues on week 1 were 97.6µV and 105µV by week 6. The median and quartile signal-to-noise ratio (SNR) was 12 at week 1 and 12 at week 6. There were no deviations from zero on the regressions for bothV_ppand SNR.Significance.The findings suggest that RuO_xis stable over subchronic implantation periods. Future research will explore long-term chronic performance and broader applications of RuO_xin neural interface devices.

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氧化钌溅射电极在大鼠运动皮层的电化学稳定性和亚慢性神经记录。

目的：研究氧化钌（RuOx）作为一种低阻抗涂层，用于皮层内微电极阵列记录神经活动。方法：将RuOx溅射到非晶碳化硅（a- sic）微电极阵列的活性位点上，并作为记录电极涂层在大鼠运动皮层中进行电化学评估，为期6周。RuOx厚度为250 nm，电极几何表面积为200m2。我们每周进行阻抗谱（EIS）和循环伏安法（CV）测量和单单位动作电位记录。主要结果：从植入后1到6周，我们观察到1 kHz阻抗中位数从1.06 MΩ下降到0.68 MΩ， 1 Hz阻抗中位数从24.5 MΩ下降到20.7 MΩ， 30 kHz阻抗中位数保持不变，为0.19 MΩ。线性回归拟合表明，1 kHz和1 Hz阻抗值有较小的下降，而30 kHz阻抗值没有明显的趋势。基于cv的电荷存储容量（CSCc）也表现出随时间的一致性。在50 mV/s下，第1周的中位CSCc为24.3 mC/cm2，第6周为20.1 mC/cm2。在50,000 mV/s的扫描速率下，CSCc的中位数在1周时为2.4 mC/cm2，在6周时为2.8 mC/cm2。两种扫描速率的回归都没有显示出明显的斜率偏差。持续6周的神经记录显示，在6周内，单个单位动作电位与75%的单个单位活性电极率一致。第1周的中位Vpp值为97.6µV，第6周为105µV。第1周的中位信噪比和四分位数信噪比分别为12和12。Vpp和SNR的回归都没有偏离零。意义：研究结果表明，RuOx在亚慢性植入期间是稳定的。未来的研究将探索RuOx在神经接口设备中的长期慢性性能和更广泛的应用。

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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Journal of neural engineering

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