Return to Video

How do your kidneys work? - Emma Bryce

  • 0:07 - 0:08
    It's a hot day,
  • 0:08 - 0:10
    and you've just downed
    several glasses of water,
  • 0:10 - 0:12
    one after the other.
  • 0:12 - 0:16
    Behind the sudden urge that follows
    are two bean-shaped organs
  • 0:16 - 0:20
    that work as fine-tuned internal sensors.
  • 0:20 - 0:22
    They balance the amount of fluid
    in your body,
  • 0:22 - 0:24
    detect waste in your blood,
  • 0:24 - 0:27
    and know when to release
    the vitamins, minerals,
  • 0:27 - 0:29
    and hormones you need to stay alive.
  • 0:29 - 0:32
    Say hello to your kidneys.
  • 0:32 - 0:36
    The main role of these organs
    is to dispose of waste products
  • 0:36 - 0:39
    and to turn them into urine.
  • 0:39 - 0:42
    The body's eight liters of blood
    pass through the kidneys
  • 0:42 - 0:45
    between 20 and 25 times each day,
  • 0:45 - 0:52
    meaning that, together, these organs filter
    about 180 liters every 24 hours.
  • 0:52 - 0:55
    The ingredients in your blood
    are constantly changing
  • 0:55 - 0:57
    as you ingest food and drink,
  • 0:57 - 1:00
    which explains why
    the kidneys need to be on permanent duty.
  • 1:00 - 1:04
    Blood enters each kidney through arteries
    that branch and branch,
  • 1:04 - 1:10
    until they form tiny vessels that entwine
    with special internal modules,
  • 1:10 - 1:11
    called nephrons.
  • 1:11 - 1:13
    In each kidney,
  • 1:13 - 1:18
    1 million of these nephrons form
    a powerful array of filters and sensors
  • 1:18 - 1:21
    that carefully sift through the blood.
  • 1:21 - 1:22
    This is where we see just how refined
  • 1:22 - 1:26
    and accurate this internal
    sensing system is.
  • 1:26 - 1:31
    To filter the blood, each nephron
    uses two powerful pieces of equipment:
  • 1:31 - 1:38
    a blob-like structure called a glomerulus,
    and a long, stringy, straw-like tubule.
  • 1:38 - 1:41
    The glomerulus works like a sieve,
    allowing only certain ingredients,
  • 1:41 - 1:45
    such as vitamins and minerals,
    to pass into the tubule.
  • 1:45 - 1:47
    Then, this vessel's job is to detect
  • 1:47 - 1:51
    whether any of those ingredients
    are needed in the body.
  • 1:51 - 1:55
    If so, they're reabsorbed in amounts
    that the body needs,
  • 1:55 - 1:58
    so they can circulate in the blood again.
  • 1:58 - 2:00
    But the blood doesn't only
    carry useful ingredients.
  • 2:00 - 2:03
    It contains waste products, too.
  • 2:03 - 2:06
    And the nephrons have to figure out
    what to do with them.
  • 2:06 - 2:09
    The tubules sense compounds
    the body doesn't need,
  • 2:09 - 2:12
    like urea, left over from
    the breakdown of proteins,
  • 2:12 - 2:16
    and redirects them as urine
    out of the kidneys
  • 2:16 - 2:19
    and through two long sewers
    called ureters.
  • 2:19 - 2:23
    The tubes empty their contents
    into the bladder to be discharged,
  • 2:23 - 2:27
    ridding your body of that waste
    once and for all.
  • 2:27 - 2:29
    There's water in that urine, too.
  • 2:29 - 2:32
    If the kidney detects too much of it
    in your blood,
  • 2:32 - 2:35
    for instance, when you've chugged
    several glasses at once,
  • 2:35 - 2:39
    it sends the extra liquid
    to the bladder to be removed.
  • 2:39 - 2:42
    On the other hand,
    low water levels in the blood
  • 2:42 - 2:45
    prompt the kidney to release some
    back into the blood stream,
  • 2:45 - 2:48
    meaning that less water
    makes it into the urine.
  • 2:48 - 2:52
    This is why urine appears yellower
    when you're less hydrated.
  • 2:52 - 2:56
    By controlling water, your kidneys
    stabilize the body's fluid levels.
  • 2:56 - 3:01
    But this fine balancing act
    isn't the kidney's only skill.
  • 3:01 - 3:04
    These organs have the power
    to activate vitamin D
  • 3:04 - 3:09
    to secrete a hormone called renin
    that raises blood pressure,
  • 3:09 - 3:11
    and another hormone
    called erythropoietin,
  • 3:11 - 3:15
    which increases red blood cell production.
  • 3:15 - 3:19
    Without the kidneys, our bodily fluids
    would spiral out of control.
  • 3:19 - 3:24
    Every time we ate, our blood would receive
    another load of unsifted ingredients.
  • 3:24 - 3:30
    Soon, the buildup of waste would overload
    our systems and we'd expire.
  • 3:30 - 3:33
    So each kidney not only
    keeps things running smoothly.
  • 3:33 - 3:35
    It also keeps us alive.
  • 3:35 - 3:39
    Lucky then that we have two
    of these magical beans.
Title:
How do your kidneys work? - Emma Bryce
Description:

View full lesson: http://ed.ted.com/lessons/how-do-your-kidneys-work-emma-bryce

After drinking a few glasses of water on a hot day, you might be struck with a sudden ... urge. Behind that feeling are two bean-shaped organs that work as fine-tuned internal sensors. Emma Bryce details how the incredible kidneys balance the amount of fluid in your body, detect waste in your blood, and know when to release the vitamins, minerals, and hormones you need to stay alive.

Lesson by Emma Bryce, animation by Tremendousness.
more » « less
Video Language:
English
Team:
closed TED
Project:
TED-Ed
Duration:
03:55

English subtitles

Revisions Compare revisions

Our website uses cookies for analysis purposes.