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Neuroscientists have finally come to the conclusion that time passes very slowly when we are bored.
According to the Daily Mail, neuroscientists believe that a region of the brain called the lateral nasal cortex (LEC) is responsible for recording events in a timely manner and issuing "time stamps" whenever a person does something. thing.
These signals are then released to the neighboring hippocampus, where memories are stored.
If the same job or behavior is done repeatedly – like going to work – these timestamps look very much like the degree of confusion and become hard to distinguish and separate, giving the impression that time is passing slowly.
According to an article written by Anjee Chen for the New Yorker, neuroscientist Albert Cao began to be interested in the "nasal cortex" of the brain in 2007.
While conducting experiments on mice, Dr. Cao, a researcher at Stanford University, suggested that neurons in the "nasal cortex" could record the passage of time.
And then concluded that the electric puffs of neurons in mice were more pronounced when they went out to find food.
Each rat activity was recorded separately with different monitoring pulses and electrical activity.
But when the rats continued to run frequently to find food, perhaps with less motivation, the area of the "nasal nasal cortex" did not separate the brain from one round to the other.
Dr. Cao thinks that when timestamps on a continuous and repetitive path are "very similar, it is difficult to separate these sequences from each other".
On the basis of the results of these experiments, Dr. Cao concluded that the time taken by the "lateral nasal cortex" was "a symbol of continuous experimentation".
Scientists believe that the neurons of the hippocampus are fed both by the individual and medium tubular cortex, the regions in which each person's memory is composed.
"The same cells, as we imagine, get information about space and timing," says Edward Moser, a professor of psychology at the Norwegian University of Science and Technology in Trondheim, who also participated in these experiments. research.
The researchers wrote in the paper published in the journal Nature earlier this year, that this coding of time was not found in the human cerebral cortex.
"Neuroscience is always associated with time," says Giorgi Bozsaki, a neuroscientist at New York University. "This does not necessarily mean that the success of researchers in finding these pokes in the activity lies in the fact that they measure or limit the time.
"Nasal nasal cortex" shows changes in the activity sequences, say the researchers.
In order to further explore this area, neuroscientists have been tasked with preventing the activity of the nasal cortex in the brain of mice in order to learn to remember events.
The research team plans to continue research on the brains of people with Alzheimer's disease, the "nasal cortex" being one of the first affected.
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