How the brain trades good accuracy for speedy thinking
New study shows that brain cells become extra sensitive when they learn new information, making us likelier to make poor decisions but in a very quick manner.
Thu, Nov 08, 2012 at 10:27 AM
When people make hasty decisions, they tend to make more mistakes. Now, a new study on monkeys explains why: Brain cells become hypersensitive to new information, even bad information, making us likelier to draw faulty conclusions.
"When we try to do things too quickly, we tend to make more errors and then when we slow down we tend to be more accurate," said study co-author Richard Heitz, a neuroscientist at Vanderbilt University. "Your brain sees things differently when you're placed into a situation where you have to make snap decisions."
The findings, which are detailed in the Nov. 7 issue of the journal Neuron, could shed light on the faulty decision-making of people with schizophrenia or other mental disorders.
To explain the phenomenon, Heitz and his colleagues trained two macaque monkeys to play a game in which they had to pick out the letter L in a sea of Ts or vice versa.
Before each round, a colored circle flashed on the screen to indicate whether the macaques would be rewarded for speed or accuracy.
In the speed test, the monkeys only received a tasty squirt of juice if they found the right letter quickly. In the accuracy test, monkeys got a squirt of juice no matter how long it took for them to find the right letter, but had a "timeout" if they made a mistake.
The researchers then recorded the activity of neurons in the brain region responsible for higher reasoning, the prefrontal cortex.
When the monkeys learned the next trial would be a speed test, the electrical activity from those neurons increased even before starting the test, like cars revving their engines in preparation for a race. During the speed trials, the team found that neurons responsible for visual processing fired more strongly when the monkeys indicated they had found the right letter. The neurons were more sensitive, as if the objects on the screen actually appeared brighter to the brain when it had to make decisions quickly, Heitz told LiveScience.
That higher sensitivity may sound good, but "because they're amplified, you may react to them as if they're more important than they actually are," meaning even faulty answers could be seen as the correct ones, he said.
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