Rodney Gorham reaches five years with Synchron brain implant

Science Corporation, a brain-computer interface startup founded by former Neuralink president Max Hodak, has announced a new division focused on extending the viability of human organs for transplantation. The company unveiled a prototype machine designed to preserve organs for longer periods. This initiative expands beyond their core work in neural technology.

13 febbraio 2026 Riportato dall'IA

Chinese scientists have drawn inspiration from the Japanese paper-cutting art of kirigami to develop stretchable microelectrode arrays, aiming to overcome limitations in electrode technology such as that used by Neuralink. These arrays were implanted into macaque monkeys, where they flexed with brain tissue to record hundreds of neurons simultaneously. The research was published in the February 5 issue of Nature Electronics.

Researchers have developed a noninvasive method using EEG brain scans to detect movement intentions in people with spinal cord injuries. By capturing signals from the brain and potentially routing them to spinal stimulators, the approach aims to bypass damaged nerves. While promising, the technology still struggles with precise control, especially for lower limbs.

12 gennaio 2026 Riportato dall'IA

Scientists are on the verge of simulating a human brain using the world's most powerful supercomputers, aiming to unlock secrets of brain function. Led by researchers at Germany's Jülich Research Centre, the project leverages the JUPITER supercomputer to model 20 billion neurons. This breakthrough could enable testing of theories on memory and drug effects that smaller models cannot achieve.

Researchers at Nagoya University in Japan have developed miniature brain models using stem cells to study interactions between the thalamus and cortex. Their work reveals the thalamus's key role in maturing cortical neural networks. The findings could advance research into neurological disorders like autism.

15 febbraio 2026 Riportato dall'IA Verificato

Researchers at the University of California, Irvine report that a machine-learning system called SIGNET can infer cause-and-effect links between genes in human brain tissue, revealing extensive rewiring of gene regulation—especially in excitatory neurons—in Alzheimer’s disease.