神经科学
脑-机接口
期限(时间)
接口(物质)
生物
计算机科学
人机交互
操作系统
物理
脑电图
气泡
最大气泡压力法
量子力学
作者
Chia‐Han Chiang,Sang Min Won,Amy L. Orsborn,Ki Jun Yu,Michael Trumpis,Brinnae Bent,Charles Wang,Yeguang Xue,Seunghwan Min,Virginia Woods,Chunxiu Yu,Bong Hoon Kim,Sung Bong Kim,Rizwan Huq,Jinghua Li,Kyung Jin Seo,Flavia Vitale,Andrew G. Richardson,Hui Fang,Yonggang Huang
标识
DOI:10.1126/scitranslmed.aay4682
摘要
Long-lasting, high-resolution neural interfaces that are ultrathin and flexible are essential for precise brain mapping and high-performance neuroprosthetic systems. Scaling to sample thousands of sites across large brain regions requires integrating powered electronics to multiplex many electrodes to a few external wires. However, existing multiplexed electrode arrays rely on encapsulation strategies that have limited implant lifetimes. Here, we developed a flexible, multiplexed electrode array, called "Neural Matrix," that provides stable in vivo neural recordings in rodents and nonhuman primates. Neural Matrix lasts over a year and samples a centimeter-scale brain region using over a thousand channels. The long-lasting encapsulation (projected to last at least 6 years), scalable device design, and iterative in vivo optimization described here are essential components to overcoming current hurdles facing next-generation neural technologies.
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