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 ...

Researchers at the German Primate Center (DPZ)—Leibniz Institute for Primate Research in Göttingen have discovered that the brain reorganizes itself extensively across several brain regions when it ...

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 ...

SNr neurons in the midbrain send precise signals to control movement. Their activity determines which movements actions are initiated or inhibited. Neurons deep in the brain not only help to initiate ...

Machine learning decodes brain signals for paralysis recovery in just one second using sensors placed on scalp not inside ...

Surgically implanted brain-computer interface enables precise finger control in paralysis patient, unlocking potential for social and leisure activities like video gaming Study: A high-performance ...

Traditional stroke rehabilitation therapy focuses on restoring strength and movement to the more impaired side of the body, ...

People with spinal cord injuries often lose some or all their limb function. In most patients, the nerves in their limbs work ...

Starfish move without a brain by using tiny feet that react locally to pressure and weight during crawling across surfaces.

Imagine waking up thirsty at night and having to reach for a glass of water in the dark. Without a clear view, your brain has to estimate where the glass is and where your hand is - a challenge that ...