智冉医疗：侵入式脑机接口技术重磅突破！破解Neuralink掉 “线” 难题 | 红杉Family

Core Insights - The article highlights a breakthrough in the field of invasive brain-machine interfaces (BMIs) achieved by a research team led by Fang Ying from Zhiren Medical, which successfully developed a high-throughput, stretchable flexible electrode that addresses the core challenges of traditional flexible electrodes in dynamic brain movements [2][12]. Group 1: Technological Advancements - The newly developed stretchable flexible electrode overcomes the limitations of traditional linear electrodes, which struggle to maintain stability during brain movements, thus providing a foundational solution for the long-term stability of invasive BMIs [2][4]. - The innovative design of the stretchable electrode allows it to dynamically adapt to the brain's pulsations and movements, ensuring long-term stability within the brain tissue [6][9]. - The research team demonstrated that the stretchable flexible electrode could achieve long-term stable recordings of neuronal activity in non-human primates, marking a significant milestone for clinical applications of invasive BMIs [8][12]. Group 2: Market Position and Future Implications - Zhiren Medical is positioned to lead the invasive BMI sector, with its breakthrough technology aligning with national strategic plans, thereby facilitating the transition from laboratory research to large-scale clinical applications [12][13]. - The advancements in invasive BMIs are expected to integrate seamlessly into everyday life, enhancing human-machine interactions in dynamic environments, such as extreme sports, without the risk of device displacement or brain injury [12][13]. - As the technology matures, China is poised to gain a significant competitive edge in the global invasive BMI market, leveraging its technological advancements to influence industry development [13].