Whether speaking or swinging a bat, precise and adaptable timing of movement is essential for everyday behavior. Although we do not have sensory organs like eyes or a nose to sense time, we can keep ...

A new study by neuroscientists shows that our brain deals with different forms of visual uncertainty during movements in distinct ways. Depending on the type of uncertainty, planning and execution of ...

Explore how Neuralink brain chips and ongoing Neuralink trials are advancing brain-computer interface technology, enabling ...

Flexible control of movement timing is essential for behavior, relying on an adjustable timer in the brain. By measuring and manipulating activity in interacting brain regions, scientists could pause ...

In A Nutshell A timing gap of just 50 to 100 milliseconds determines whether a dopamine signal in the brain drives learning ...

Scientists have long studied the role of dopamine, a chemical in the brain that helps control learning and movement, in order ...

A high-resolution brain interface records movement signals from the brain's surface, enabling real-time control performance similar to invasive implants without entering brain tissue. (Nanowerk ...

Within the human brain, movement is coordinated by a brain region called the striatum, which sends instructions to motor neurons in the brain. Those instructions are conveyed by two pathways, one that ...

A study reveals the SCAN brain network's potential to enhance Parkinson’s treatment through targeted non-invasive therapies.

A new study of comb jellies has revealed that their nervous system is more complex than previously thought. What’s more, this ...

Whether speaking or swinging a bat, precise and adaptable timing of movement is essential for everyday behavior. Although we do not have sensory organs like eyes or a nose to sense time, we can keep ...