The brain holds a "map" of the body that remains unchanged even after a limb has been amputated, contrary to the prevailing view that it rearranges itself to compensate for the loss, according to new ...

In humans, input from one sensory modality can influence processing in another, enriching perception and understanding. One notable case is how visual inputs recruit somatosensation, our sense of ...

In a first-of-its-kind study, researchers have found that the brain holds a ‘map’ of the body that remains unchanged even after a limb has been amputated, contrary to the prevailing view that it ...

Certain neurons have visual and auditory receptive fields anchored to body parts. We show that these neurons reflect the value of interacting with objects near the body, not just their spatial ...

Our movements may be controlled by two distinct networks in our brain, rather than just one. For nearly a century, we have known that the motor cortex – a thin strip of tissue that runs across the top ...

Laura holds a Master's in Experimental Neuroscience and a Bachelor's in Biology from Imperial College London. Her areas of expertise include health, medicine, psychology, and neuroscience. Laura holds ...

A brain-imaging study of people with amputated arms has upended a long-standing belief: that the brain’s map of the body reorganizes itself to compensate for missing body parts. Previous research had ...

Within the brain’s frontal lobe lies the primary motor cortex, a sliver of neurons that coordinates movement. Beginning in the 1930s, scientists developed a map of this brain region called a ...

New research from the University of Pittsburgh School of Medicine and Cambridge University upends a long-standing belief about brain plasticity. A study published today in Nature Neuroscience shows ...

The classical view of how the human brain controls voluntary movement might not tell the whole story. That map of the primary motor cortex — the motor homunculus — shows how this brain region is ...

The human body is a machine whose many parts – from the microscopic details of our cells to our limbs, eyes, liver and brain – have been assembled in fits and starts over the four billion years of our ...