字幕表 動画を再生する 英語字幕をプリント If you ask most people what their brain is made of, they would say neurons, of course - the main cell of the nervous system. Neurons are responsible for quickly transmitting electrical impulses to all parts of our bodies, making our muscles contract and returning information about our environment to our brains. But did you know neurons are far out-numbered in your brain by another type of cell called glia? By the late 1800s science had advanced enough to look closely at the cellular structure of the brain. Camillo Golgi, an Italian physician and soup strainer aficiando, discovered a now famous staining technique that made neurons visible under the microscope. We could now clearly see the cell body and the axon - the fibre that conducts electrical impulses over long distances. But Golgiís stain also revealed something else - cells that looked like tiny spiders throughout the brain. They surrounded the larger cell bodies and axons of neurons. The cells were called glia, but what they did was a mystery. Neurons, in contrast, were quickly developing a reputation as the fundamental unit of the nervous system. 100 years before fellow pizza lover Luigi Galvani had demonstrated the link between electrical currents and muscle contraction. He took a dead frog and attached electrodes to itís legs. When current flowed through the electrodes the dead frogs legs twitched as if theyíd come back to life. Now after the discovery of neurons, another piece of the puzzle had fallen into place. These cells must form the wires that transmit electrical signals in our bodies causing our muscles to contract. But what role did that leave for the glial cells? With Golgiís staining techniques, we could see that glia were much smaller and clustered around neurons. They appeared to insulate neurons and provide structural support. In fact this is how they got their name. Glia is Greek for glue, so glial cells were thought of as the sticky stuff that holds groups of neurons together. Nearly 90% of the cells in our brains are glia --the other 10% are neurons. This is partially what led to the myth that we only use 10% of our brains. For over 70 years the neuron dominant view of brain function went unchallenged. But recent research indicates glia may be much more important than just glue. Neuroscientist Andrew Koob believes that glia are the 'Root of all Thought'. He writes that as you move up the evolutionary ladder, the percentage of glia in brains increases with our definition of intelligence. The brain of a fruit fly is 20% glia, a mouse 60%, a chimpanzee 80% and a human, 90%. This rather strongly suggests that glia are more than just glue. Recent research has found that glial cells play a number of critical roles at synapses, structures that let neurons communicate with each other. At the synapse, glia can either promote the transfer of a message, or slow activity if the synapses are becoming overactive. Glia control this transfer of information in brain structures like the hippocampus, our memory centre. So these tiny cells are affecting how we process information, learn and memorise. More research has found that glia have stem cell potential, they can guide neural growth in the developing nervous system. Theyíre kind of like parents, they nurture young neurons and step back as they grow up. But if the neurons get into trouble, theyíll step in to help. If nerves get damaged, a type of glial cell called a Schwann cell can regress to an earlier developmental state to encourage regrowth of the axon. To do this, they form a type of tunnel that leads towards the target neurons. The stump of the damaged axon is able to sprout out of the tunnel and can then reconnect with the muscles or organs they previously controlled. Research into glia is pretty recent and neuroscientists still have questions about how glia fit into the mix. They could lead to nerve repair and even be the root of our thoughts. The answers to these questions all lie inside your head. I just wanted to pop in and say Happy Holidays! If youíre looking for something to read over the break, this video was inspired by Andrew Koobís book ëThe Root of Thought: Unlocking Glia--the Brain Cell That Will Help Us Sharpen Our Wits, Heal Injury, and Treat Brain Diseaseí Itís really interesting AND his name spelt backwards is ëbookí, which is a wonderful anadrome like snoops and spoons or straw and warts. Thereís a link in the description. And remember to SUBSCRIBE to BrainCraft for a new video every other week.
B2 中上級 聞いたこともないような驚きの脳細胞 (Amazing Brain Cells You've Never Heard of) 204 17 Sofi に公開 2021 年 01 月 14 日 シェア シェア 保存 報告 動画の中の単語