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最新一項(xiàng)研究發(fā)現(xiàn),快走或慢跑能夠刺激大腦神經(jīng)細(xì)胞從而使神經(jīng)官能放松達(dá)到鎮(zhèn)靜減壓的作用。研究人員通過兩組老鼠的對比實(shí)驗(yàn)發(fā)現(xiàn),經(jīng)常跑動的老鼠大腦中會產(chǎn)生大量能夠抑制大腦活動并鎮(zhèn)靜興奮細(xì)胞的神經(jīng)元,在壓力環(huán)境中,這些神經(jīng)元能夠迅速被大腦釋放以抑制不必要的焦慮反應(yīng)。研究人員指出,經(jīng)常跑動的老鼠對抗壓力的能力更強(qiáng),這在人類身上也同樣適用。
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Walking briskly or jogging really does calm you down by sparking nerve cells in the brain that relax the senses, new research has shown. |
One of the best ways to relieve the stresses of the day is to simply walk them away, scientists have found.
Walking briskly or jogging really does calm you down by sparking nerve cells in the brain that relax the senses, new research has shown.
Exercise has long been thought to be effective for anxiety and depression, but the brain mechanism behind the phenomenon has remained a mystery.
Now tests on mice show when they are active, soothing neurons in the brain are triggered. When they are then exposed to a stressor, these neurons calm them down.
Researchers took two groups of animals, one that ran around and another that was sedentary, and then tested the amount of brain cells that formed after they exercised.
The runners' brains had a number of new neurons specifically designed to inhibit brain activity and quiet more excitable ones. The researchers then put the mice into ice cold baths to create a stressful environment.
As expected, large numbers of excitable neurons were fired up in the hippocampus, a region of the brain involved in emotional responses.
But in the brains of the runners, calming neurons were also quickly released warding off unnecessary anxiety.
The research shows exercising mice are able to cope better with stress, and it is believed the effect is also seen in humans, reports the Journal of Neuroscience.
Professor Elizabeth Gould, of Princeton University, New York, said physical activity reorganizes the brain so anxiety is less likely to interfere with normal function.
She said: 'Understanding how the brain regulates anxious behavior gives us potential clues about helping people with anxiety disorders.
'It also tells us something about how the brain modifies itself to respond optimally to its own environment.'
The findings resolve a paradox because exercise reduces anxiety while also promoting the growth of new neurons in the hippocampus.
Because these young cells are typically more excitable than their more mature counterparts, exercise should result in more anxiety, not less.
But the researchers found exercise also strengthens the mechanisms that prevent these brain cells from firing.
Prof Gould said identifying neurons and regions important to anxiety regulation may help scientists better understand and treat human anxiety disorders.
From an evolutionary standpoint, the research also shows the brain can be extremely adaptive and tailor its own processes to an organism's lifestyle or surroundings.
A higher likelihood of anxious behavior may have an adaptive advantage for less physically fit creatures.
Anxiety often manifests itself in avoidance behavior and avoiding potentially dangerous situations would increase the likelihood of survival, particularly for those less capable of responding with a 'fight or flight' reaction, added Prof Gould.
(Source: Mail Online)
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