According to a recent neuroscience paper published by Nature in the United Kingdom, American researchers have found that with the increase of age, the development of new neurons in the hippocampus of the human brain will gradually weaken, and will stop completely in adulthood. This finding is very different from previous cognition and is expected to bring about results that can improve human health. A neuron is a cell that carries an electrical pulse. Some mammals in adulthood will continue to form new neurons in the hippocampus - a process that has been linked to memory, mood, stress, exercise, and neurological diseases. Past research suggests that in the adulthood, the hippocampus will continue to form new neurons. It has long been believed that studying this neurogenic process may improve our understanding of learning processes, mood disorders, and neurodegenerative diseases. However, the latest study published by the University of California, San Francisco research team believes that the duration of this process may not be as long as previously thought. The team used labeled antibodies to display neural precursor cells and immature neurons in 59 brain tissue samples taken from subjects of different ages – from embryonic to adulthood. It was found that new neurons were formed in the early stages of life, but the rate of neuronal formation decreased sharply with the age of the subjects. The oldest sample still containing developmental neurons was from a 13-year-old subject. The team believes that past studies may have erroneously reported the detection of immature neurons because the proteins used to label these neurons in animals are not equally applicable to humans. In the corresponding news and opinion articles, scientists say that human research results are not inconsistent with similar animal studies - the neurogenic process of rodents is also weakened in middle age. The article concludes that scientists may be able to transform this thought-provoking discovery if the focus of rodent research shifts to identifying mechanisms by which the neurogenesis process diminishes over time and how to enhance neurogenesis to counteract age- and disease-caused abnormalities. It can improve the results of human health. (Technology Daily) Sea Shrimp Series,Pink Shrimp,Headless Pink Shrimp,Headless Ramboo Prawn GOLD STAR FISHERY ZHOUSHAN CO.,LTD. , https://www.goldstar-aquatic.com