How do nerves work? - Elliot Krane

540,186 views ・ 2012-08-09

TED-Ed


Please double-click on the English subtitles below to play the video.

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How do nerves work?
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Are nerves simply the wires in the body
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that conduct electricity, like the wires in the walls of your home
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or in your computer?
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This is an analogy often made,
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but the reality is that nerves have a much more complex job in the body.
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They are not just the wires, but the cells that are the sensors,
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detectors of the external and internal world,
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the transducers that convert information to electrical impulses,
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the wires that transmit these impulses,
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the transistors that gate the information
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and turn up or down the volume-
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and finally, the activators that take that information
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and cause it to have an effect on other organs.
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Consider this. Your mother gently strokes your forearm
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and you react with pleasure.
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Or a spider crawls on your forearm and you startle and slap it off.
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Or you brush your forearm against a hot rack while removing a cake from the oven
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and you immediately recoil.
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Light touch produced pleasure, fear, or pain.
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How can one kind of cell have so many functions?
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Nerves are in fact bundles of cells called neurons
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and each of these neurons is highly specialized to carry nerve impulses,
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their form of electricity,
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in response to only one kind of stimulus, and in only one direction.
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The nerve impulse starts with a receptor,
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a specialized part of each nerve,
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where the electrical impulse begins.
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One nerve's receptor might be a thermal receptor,
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designed only to respond to a rapid increase in temperature.
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Another receptor type is attached to the hairs of the forearm,
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detecting movement of those hairs, such as when a spider crawls on your skin.
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Yet another kind of neuron is low-threshold mechanoreceptor,
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activated by light touch.
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Each of these neurons then carry their specific information:
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pain, warning, pleasure.
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And that information is projected to specific areas of the brain
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and that is the electrical impulse.
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The inside of a nerve is a fluid that is very rich in the ion potassium.
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It is 20 times higher than in the fluid outside the nerve
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while that outside fluid has 10 times more sodium than the inside of a nerve.
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This imbalance between sodium outside and potassium inside the cell
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results in the inside of the nerve having a negative electrical charge
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relative to the outside of the nerve,
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about equal to -70 or -80 millivolts.
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This is called the nerve's resting potential.
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But in response to that stimulus the nerve is designed to detect,
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pores in the cell wall near the receptor of the cell open.
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These pores are specialized protein channels
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that are designed to let sodium rush into the nerve.
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The sodium ions rush down their concentration gradient,
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and when they do, the inside of the nerve becomes more positively charged-
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about +40 millivolts.
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While this happens, initially in the nerve right around the receptor,
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if the change in the nerve's electrical charge is great enough,
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if it reaches what is called threshold,
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the nearby sodium ion channels open, and then the ones nearby those,
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and so on, and so forth,
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so that the positivity spreads along the nerve's membrane
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to the nerve's cell body
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and then along the nerve's long, thread-like extension, the axon.
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Meanwhile, potassium ion channels open,
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potassium rushes out of the nerve,
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and the membrane voltage returns to normal.
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Actually, overshooting it a bit.
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And during this overshoot,
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the nerve is resistant to further depolarization-it is refractory,
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which prevents the nerve electrical impulse from traveling backwards.
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Then, ion pumps pump the sodium back back out of the nerve,
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and the potassium back into the nerve,
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restoring the nerve to its normal resting state.
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The end of the nerve, the end of the axon,
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communicates with the nerve's target.
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This target will be other nerves in a specialized area of the spinal cord,
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to be processed and then transmitted up to the brain.
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Or the nerve's target may be another organ, such as a muscle.
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When the electrical impulse reaches the end of the nerve,
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small vesicles, or packets, containing chemical neurotransmitters,
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are released by the nerve and rapidly interact with the nerve's target.
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This process is called synaptic transmission,
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because the connection between the nerve and the next object in the chain
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is called a synapse. And it is here, in this synapse,
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that the neuron's electrical information can be modulated,
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amplified,
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blocked altogether
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or translated to another informational process.
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