Chinese startup Gestala develops noninvasive brain-computer interface

Researchers have developed a paper-thin brain implant called BISC that creates a high-bandwidth wireless link between the brain and computers. The single-chip device, which can slide into the narrow space between the brain and skull, could open new possibilities for treating conditions such as epilepsy, paralysis, and blindness by supporting advanced AI models that decode movement, perception, and intent.

December 18, 2025 Reported by AI

Two Chinese patients with high-level paralysis have successfully used brain-machine interface (BMI) technology to control a power wheelchair, direct a robotic dog to retrieve deliveries, and operate a robotic arm to grasp a cup and drink water using only their thoughts. The achievements were announced on Wednesday at a media briefing by the Center for Excellence in Brain Science and Intelligence Technology of the Chinese Academy of Sciences in Shanghai. This marks a major advancement toward practical clinical applications of BMI.

Australia-based start-up Cortical Labs has announced plans to construct two data centres using neuron-filled chips. The facilities in Melbourne and Singapore will house its CL1 biological computers, which have demonstrated the ability to play video games like Doom. The initiative aims to scale up cloud-based brain-computing services while reducing energy consumption.

January 22, 2026 Reported by AI

A Chinese neurologist noticed unexpected improvements in his mother’s cognition during a high-intensity focused ultrasound (FUS) treatment for another condition, sparking hope for Alzheimer’s therapy. Dr. Sun Bomin claims this is the world’s first effective FUS treatment for the disease. His mother, in her nineties and suffering for about eight years, showed remarkable recovery in 2024.

Researchers have developed a new bioluminescent imaging tool that allows neurons to glow from within, enabling real-time observation of brain activity without external lasers. This innovation, called CaBLAM, overcomes limitations of traditional fluorescence methods by providing clearer, longer-lasting recordings in living animals. The tool promises deeper insights into neural function and potential applications beyond the brain.

February 10, 2026 Reported by AI

Researchers at the University of Michigan have developed an AI system called Prima that interprets brain MRI scans in seconds, identifying neurological conditions with up to 97.5% accuracy. The tool also flags urgent cases like strokes and brain hemorrhages, potentially speeding up medical responses. Findings from the study appear in Nature Biomedical Engineering.