Brain waves may restore movement in paralyzed patients

Scientists at Brown University have identified a subtle brain activity pattern that can forecast Alzheimer's disease in people with mild cognitive impairment up to two and a half years in advance. Using magnetoencephalography and a custom analysis tool, the researchers detected changes in neuronal electrical signals linked to memory processing. This noninvasive approach offers a potential new biomarker for early detection.

December 18, 2025 Ti AI ṣe iroyin

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.

Researchers at the University of California, Riverside, have identified how inflammation in multiple sclerosis disrupts mitochondrial function in the brain, leading to the loss of key neurons that control balance and coordination. Published in the Proceedings of the National Academy of Sciences, the findings highlight a potential pathway for new treatments to preserve mobility in the 2.3 million people affected by the disease worldwide. The study examined human brain tissue and a mouse model to trace these energy failures over time.

December 19, 2025 Ti AI ṣe iroyin

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.

Scientists at Tulane University and collaborating institutions have found that neurons release an enzyme called vertebrate lonesome kinase (VLK) outside cells to help switch on pain signals after injury. Removing VLK from pain-sensing neurons in mice sharply reduced post-surgical pain–like responses without impairing normal movement or basic sensation, according to a study in Science, suggesting a potential new route to more targeted pain treatments.

December 29, 2025 Ti AI ṣe iroyin

Researchers have engineered a protein that detects subtle glutamate signals between neurons, unveiling a previously hidden aspect of brain communication. This tool allows real-time observation of how brain cells process incoming information, potentially advancing studies on learning, memory, and neurological disorders. The findings, published in Nature Methods, highlight a breakthrough in neuroscience.