A groundbreaking study reveals that the brain's body map remains stable even after amputation, challenging decades of belief about brain plasticity and offering insights for future prosthetic technologies.
Stanford researchers have developed a revolutionary brain-computer interface that decodes inner speech, allowing paralyzed patients to communicate without muscle movement. With a unique mental privacy safeguard, this technology could change lives!
A groundbreaking study has overturned the belief that the brain reorganizes itself after limb amputation. Researchers found that the brain's body map remains stable even years after losing an arm, challenging foundational neuroscience knowledge.
A groundbreaking system combining AI and robotics allows a man with tetraplegia to control a robotic arm using his thoughts, achieving unprecedented accuracy and independence.
Jason Isaacs faced an awkward moment on CBS Mornings when asked about his full-frontal scene in The White Lotus. He questioned Hollywood's double standards on nudity and called out the obsession with male genitalia.
A groundbreaking brain-computer interface has allowed a paralyzed man to control a robotic arm just by imagining movements. This AI-driven technology shows remarkable long-term reliability and adaptability, marking a significant advancement in neuroprosthetics.
