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        <title>Bci on Know the Tech</title>
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        <lastBuildDate>Thu, 16 Jul 2026 00:00:00 +0000</lastBuildDate><atom:link href="https://knowthe.tech/tags/bci/index.xml" rel="self" type="application/rss+xml" /><item>
        <title>China Just Performed the World&#39;s First Implant of a Commercial Brain-Computer Interface</title>
        <link>https://knowthe.tech/p/china-just-performed-the-worlds-first-implant-of-a-commercial-brain-computer-interface/</link>
        <pubDate>Thu, 16 Jul 2026 00:00:00 +0000</pubDate>
        
        <guid>https://knowthe.tech/p/china-just-performed-the-worlds-first-implant-of-a-commercial-brain-computer-interface/</guid>
        <description>&lt;img src="https://knowthe.tech/imgs/china-bci-implant.jpg" alt="Featured image of post China Just Performed the World&#39;s First Implant of a Commercial Brain-Computer Interface" /&gt;&lt;p&gt;China is positioning itself as a global frontrunner in the brain-computer interface (BCI) market, and this week it achieved a historic milestone. Chinese neurotechnology firm Neuracle—also known as Borui Kang Medical Technology—successfully performed the world&amp;rsquo;s first surgical implant of a commercial BCI device in a human patient, a breakthrough reported by multiple Chinese news outlets on Wednesday.&lt;/p&gt;
&lt;figure&gt;&lt;img src=&#34;./imgs/china-bci-implant.jpg&#34;
    alt=&#34;Conceptual image of brain-computer interface technology showing a human brain with neural network connections&#34;&gt;&lt;figcaption&gt;
      &lt;p&gt;Conceptual illustration of brain-computer interface technology with neural connections. (Image: Pexels / Pixabay)&lt;/p&gt;
    &lt;/figcaption&gt;
&lt;/figure&gt;

&lt;h2 id=&#34;a-coin-sized-window-into-the-brain&#34;&gt;A Coin-Sized Window Into the Brain
&lt;/h2&gt;&lt;p&gt;The device, called Neural Electronic Opportunity, or NEO, is roughly the size of a coin and contains eight electrodes. It was surgically placed onto the surface of the patient&amp;rsquo;s sensorimotor cortex, the region of the brain responsible for voluntary movement. The patient, who lost mobility in his hand following a spinal cord injury a decade ago, can now command a robotic glove simply by imagining the movement. NEO records the electrical signals fired between neurons as the patient thinks about moving his hand, sends those signals to a computer, and the computer translates them into motor commands that drive the glove.&lt;/p&gt;
&lt;p&gt;NEO received approval from China&amp;rsquo;s National Medical Products Administration in March, making it the first invasive BCI ever authorized for commercial use by a national regulatory agency anywhere in the world.&lt;/p&gt;
&lt;h2 id=&#34;racing-against-neuralink&#34;&gt;Racing Against Neuralink
&lt;/h2&gt;&lt;p&gt;Neuracle&amp;rsquo;s achievement intensifies the global race for BCI supremacy, with the Chinese company directly competing against Elon Musk&amp;rsquo;s &lt;a class=&#34;link&#34; href=&#34;https://www.neuralink.com&#34;  target=&#34;_blank&#34; rel=&#34;noopener&#34;
    &gt;Neuralink&lt;/a&gt;. Neuralink successfully implanted its first BCI in a human patient in 2024, though that was not the first-ever successful BCI implant. However, Neuralink has yet to receive approval from the U.S. Food and Drug Administration, a prerequisite for bringing new medical devices to market in America. Musk&amp;rsquo;s company stated earlier this year that it had enrolled twenty-one people in clinical trials.&lt;/p&gt;
&lt;p&gt;While both Neuracle and Neuralink have pursued surgical implants—which carry inherent risks—other companies are exploring less invasive approaches. Last month, &lt;a class=&#34;link&#34; href=&#34;https://about.meta.com&#34;  target=&#34;_blank&#34; rel=&#34;noopener&#34;
    &gt;Meta&lt;/a&gt; unveiled an updated version of its Brain2Qwerty system, which uses a large language model to &lt;a class=&#34;link&#34; href=&#34;https://gizmodo.com/meta-brain2qwerty-ai-brain-typing-llm-2000583942&#34;  target=&#34;_blank&#34; rel=&#34;noopener&#34;
    &gt;translate brain activity into written text&lt;/a&gt;, potentially helping patients with ALS and other neurodegenerative conditions communicate again. Another Chinese firm, &lt;a class=&#34;link&#34; href=&#34;https://www.brainco.tech&#34;  target=&#34;_blank&#34; rel=&#34;noopener&#34;
    &gt;BrainCo&lt;/a&gt;, has developed a bionic prosthetic hand driven by AI and electromyography.&lt;/p&gt;
&lt;h2 id=&#34;a-national-priority&#34;&gt;A National Priority
&lt;/h2&gt;&lt;p&gt;China&amp;rsquo;s push into BCIs is not just corporate ambition—it is state policy. The technology was named a core priority in the Chinese government&amp;rsquo;s latest five-year plan, alongside quantum computing, AI-powered robotics, nuclear fusion, and other strategic technologies, &lt;a class=&#34;link&#34; href=&#34;https://www.reuters.com/technology/china-bci-five-year-plan-2026/&#34;  target=&#34;_blank&#34; rel=&#34;noopener&#34;
    &gt;according to Reuters&lt;/a&gt;. The country is investing heavily in domestic BCI research and development as part of a broader effort to close the gap with the United States in cutting-edge technology.&lt;/p&gt;
&lt;p&gt;With NEO now implanted and operational, Neuracle has opened a new chapter in the commercialization of brain-computer interfaces. While questions about long-term safety, data privacy, and regulatory oversight remain, the procedure represents a tangible step toward a future in which the boundaries between the human brain and external machines become increasingly blurred. The world will be watching closely as both China and the U.S. continue their high-stakes push to define that future.&lt;/p&gt;
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