Steve Connor reports for The Independent :
"It's also a small step toward the idea of mind reading, because just by looking at neural activity, we are able to say what someone is thinking," said Demis Hassabis of University College London.
It may one day be possible to do the same with other types of memories and thoughts, although the possibility of using a mind-reading machine to solve crimes or to fight terrorism is still a distant prospect, Dr Hassabis said.
"It's at least 10 years, probably more, from getting anywhere near that kind of technology, where you could literally read someone's thoughts in a single short session when they don't want you to," he said. "We might be about 10 years away from doing that, so it might be useful to start having those ethical discussions in the near future in preparation for that – but we're still a long way from doing anything practical," Dr Hassabis said.
The study was led by UCL's Professor Eleanor Maguire who had already shown that a small area of the brain behind a region called the hippocampus is enlarged in male taxi drivers who had done "The Knowledge" – memorising the maze of London streets. Professor Maguire trained a different set of male volunteers to navigate themselves through a virtual maze on a computer while their brains were being scanned by a functional MRI machine. "We know that the hippocampus underpins our ability to navigate, to form and recollect memories and how to imagine the future. But how the activity across millions of hippocampal neurons supports the functions is a fundamental question in neuroscience," Professor Maguire said.
The scientists found that certain nerve cells in the brain's hippocampus, called "place cells", became stimulated in definite patterns of activity that the researchers could analyse to guess where in the maze each man imagined himself to be.
"Remarkably, using this technique we found that we could accurately predict the position of an individual within this virtual environment solely from the pattern of activity within their hippocampus," she said.
In contrast, previous research on animals suggested that there were no particular patterns of activity within the nerve cells of the hippocampus that could be used to predict spatial memory. "Our technique, which looks at the picture over many thousands of neurons, shows this cannot be the whole story," Professor Maguire said. "If we're able to predict spatial memories from brain activity, this means there must be a structure to how it is coded in the neurons."
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