BMIs like the ones Neuralink is working on are already used in laboratories around the world as assistive technologies. But melding your mind with an AI is probably not happening anytime soon.
Our brains create new memories, and forget old ones, by forging and breaking connections between nerve cells. Now researchers can do something similar using a light-sensitive electronic chip.
Finding out more about how the brain works could help programmers translate thinking from the wet and squishy world of biology into all-new forms of machine learning in the digital world.
Thomas Durcan’s lab is growing 3D mini-brains in the search for a cure for Parkinson’s disease. Over the next year he is giving all his lab’s protocols, methods and results away.
The only consciousness you can ever be certain about is your own. But there are different types of clues that could hint at what’s happening within another entity.
Judy Illes, University of British Columbia dan Jennifer Chandler, L’Université d’Ottawa/University of Ottawa
With increasing technological innovations in neuroscience, the field of neuroethics grows in relevance - especially when it comes to informing applications and policy.
A new technology has enabled neuroscientists to examine the chemistry of individual brain cells. The finding reveal how genes are regulated differently in brain cells of people with autism compared to neurotypical people.
Can the brain’s conscious mechanisms exert a significant influence on the body’s autonomic functions? New research suggests yes – with possible implications for mental health.
Sports fans see it all the time: two people arguing about a split-second difference in who did what. New research suggests human beings have a bias to perceive their own actions as happening sooner.
How do jurors use different kinds of information about mental illness when making sentencing decisions? An experiment finds that neurobiological evidence could harm or help defendants.
Your brain’s sensory talents go way beyond those traditional five senses. A team of geoscientists and neurobiologists explored how the human brain monitors and responds to magnetic fields.