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| Version 2 | Version 3 |
|---|---|
| Nobel Prize for the brain's GPS discovery | Nobel Prize for the brain's GPS discovery |
| (35 minutes later) | |
| The Nobel Prize for physiology or medicine has been awarded to three scientists who discovered the brain's "GPS system". | The Nobel Prize for physiology or medicine has been awarded to three scientists who discovered the brain's "GPS system". |
| UK-based researcher Prof John O'Keefe as well as May-Britt Moser and Edvard Moser share the award. | UK-based researcher Prof John O'Keefe as well as May-Britt Moser and Edvard Moser share the award. |
| They discovered how the brain knows where we are and is able to navigate from one place to another. | They discovered how the brain knows where we are and is able to navigate from one place to another. |
| Their findings may help explain why in Alzheimer's disease patients cannot recognise their surroundings. | Their findings may help explain why in Alzheimer's disease patients cannot recognise their surroundings. |
| "The discoveries have solved a problem that has occupied philosophers and scientists for centuries," the Nobel Assembly said. | "The discoveries have solved a problem that has occupied philosophers and scientists for centuries," the Nobel Assembly said. |
| Inner GPS | Inner GPS |
| Prof O'Keefe, from University College London, discovered the first part of the brain's internal positioning system in 1971. | Prof O'Keefe, from University College London, discovered the first part of the brain's internal positioning system in 1971. |
| He showed that a set of nerve cells became activated whenever a rat was in one location in a room. | He showed that a set of nerve cells became activated whenever a rat was in one location in a room. |
| A different set of cells were active when the rat was in a different area. | A different set of cells were active when the rat was in a different area. |
| Prof O'Keefe argued these "place cells" - located in the hippocampus - formed a map within the brain. | Prof O'Keefe argued these "place cells" - located in the hippocampus - formed a map within the brain. |
| In 2005, husband and wife team, May-Britt and Edvard, discovered a different part of the brain which acts more like a nautical chart. | In 2005, husband and wife team, May-Britt and Edvard, discovered a different part of the brain which acts more like a nautical chart. |
| These "grid cells" are akin to lines of longitude and latitude, helping the brain to judge distance and navigate. | These "grid cells" are akin to lines of longitude and latitude, helping the brain to judge distance and navigate. |
| The work at the Norwegian University of Science and Technology in Trondheim. | The work at the Norwegian University of Science and Technology in Trondheim. |
| The Nobel committee said the combination of grid and place cells "constitutes a comprehensive positioning system, an inner GPS, in the brain". | The Nobel committee said the combination of grid and place cells "constitutes a comprehensive positioning system, an inner GPS, in the brain". |
| They added: "[This system is] affected in several brain disorders, including dementia and Alzheimer's disease. | They added: "[This system is] affected in several brain disorders, including dementia and Alzheimer's disease. |
| "A better understanding of neural mechanisms underlying spatial memory is therefore important and the discoveries of place and grid cells have been a major leap forward to advance this endeavour." | "A better understanding of neural mechanisms underlying spatial memory is therefore important and the discoveries of place and grid cells have been a major leap forward to advance this endeavour." |
| 'Cognitive revolution' | |
| Dr Colin Lever, from the University of Durham, worked in Prof O'Keefe's laboratory for ten years and has already dreamt on two occasions that his former mentor had won the award. | |
| He told the BBC: "He absolutely deserves the Nobel Prize, he created a cognitive revolution, his research was really forward thinking in suggesting animals create representations of the external world inside their brains." | |
| "Place cells help us map our way around the world, but in humans at least they form part of the spatiotemporal scaffold in our brains that supports our autobiographical memory. | |
| "The world was not ready for his original report of place cells in 1971, people didn't believe that 'place' was what best characterised these cells, so there was no great fanfare at that time. | |
| "But his work on hippocampal spatial mapping created the background for discovering grid cells and with grid cells, the world was prepared and we all thought wow this is big news. | |
| "Plus John taught the Mosers how to do these recordings!" | |
| Also commenting on the announcement, Prof John Stein form the University of Oxford, said: "This is great news and well deserved. | |
| "I remember how great was the scoffing in the early 1970s when John first described 'place cells'. | |
| "Now, like so many ideas that were at first highly controversial, people say 'Well that's obvious!'" |