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Your face is mapped on the surface of other people’s brains

The spatial layout of your body parts is reflected in the way the neurons that control each bit are organised - now it seems other people's faces are too

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A map for other people鈥檚 faces has聽been discovered in the brain. It could help explain why some of us are better at recognising faces than others.

Every part of your body that you can move or feel is represented in the outer layer of your brain. These 鈥渕aps鈥, found in the motor and sensory cortices (see diagram, below), tend to preserve the basic spatial layout of the body 鈥 neurons that represent our fingers are closer to neurons that represent our arms than our feet, for example.

The same goes for other people鈥檚 faces, says at Aalto University in Helsinki, Finland. Her team scanned 12 people鈥檚 brains while they looked at hundreds of images of noses, eyes, mouths and other facial features and recorded which bits of the brain became active.

This revealed a region in the occipital face area in which features that are next to each other on a real face are organised together in the brain鈥檚 representation of that face. The team have called this map the 鈥渇aciotopy鈥.

The occipital face area is a region of the brain known to be involved in general facial processing. 鈥淔acial recognition is so fundamental to human behaviour that it makes sense that there would be a specialised area of the brain that maps features of the face,鈥 she says.

This is the first example of a brain map that reflects the topology of an object in our environment, says Henriksson.

Who鈥檚 that in my toast?

The finding raises the question of whether differences in faciotopy could explain why some people struggle with face processing, such as those with prosopagnosia, says聽, a cognitive neuroscientist at Dartmouth College in Hanover, New Hampshire. The team plan to investigate differences in face recognition and faciotopy next.

For most people, faces demand very little attention from the brain in order to be recognised. So little, in fact, that we often see faces where they don鈥檛 exist 鈥 Jesus in our toast or the man in the moon, for example. Earlier this month, the internet went into a frenzy over a .

鈥淲e can鈥檛 help but see faces everywhere,鈥 says , who studies face processing systems at the Rockefeller University in New York. It鈥檚 a result of specialised face cells in the brain responding to non-face objects that share certain feature with faces, he says.

鈥淔ace recognition is such an important mechanism that it鈥檚 fooled by stimuli that resemble the two-eyes, nose and mouth combination鈥.

Journal reference: Cortex, DOI:

Topics: Brains / Neuroscience