In a world-first clinical trial, researchers at Shanghai’s Ruijin Hospital implanted synchronized brain and sp

In a world-first clinical trial, researchers at Shanghai’s Ruijin Hospital implanted synchronized brain and sp

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In a world-first clinical trial, researchers at Shanghai’s Ruijin Hospital implanted synchronized brain and spinal cord chips into four paralyzed men—allowing them to stand and walk within 24 hours of surgery. The system works by creating a “neural bypass”, decoding brain signals in real-time and routing them around damaged spinal tissue to stimulate movement directly.

This breakthrough combines brain-computer interfaces (BCIs) with AI-driven neuromodulation, setting the stage for future treatments of paralysis, stroke, and neurodegenerative diseases. While still in its early phases, the results represent a giant leap forward in restorative neurotechnology, offering new hope to over 20 million people worldwide living with spinal cord injuries.

,NeuralBypass ,BCIBreakthrough ,ParalysisRecovery


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