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Humans know the surprising prick
of a needle,
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the searing pain of a stubbed toe,
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and the throbbing of a toothache.
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We can identify many types of pain
and have multiple ways of treating it.
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But what about other species?
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How do the animals all around us
experience pain?
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It's important that we find out.
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We keep animals as pets,
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they enrich our environment,
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we farm many species for food,
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and we use them in experiments
to advance science and human health.
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Animals are clearly important to us,
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so it's equally important that we avoid
causing them unnecessary pain.
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For animals that are similar to us,
like mammals,
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it's often obvious when they're hurting.
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But there's a lot that isn't obvious,
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like whether pain relievers that work
on us also help them.
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And the more different
an animal is from us,
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the harder it is to understand
their experience.
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How do you tell whether
a shrimp is in pain?
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Snake?
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A snail?
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In vertebrates, including humans,
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pain can be split
into two distinct processes.
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In first, nerves and the skin sense
something harmful
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and communicate that information
to the spinal cord.
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There, motor neurons activate movements
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that make us rapidly
jerk away from the threat.
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This is the physical recognition of harm
called nociception,
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and nearly all animals,
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even those with very simple
nervous systems,
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experience it.
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Without this ability, animals would be
unable to avoid harm
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and their survival would be threatened.
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The second part is the conscious
recognition of harm.
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In humans, this occurs when the sensory
neurons in our skin
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make a second round of connections
via the spinal cord to the brain.
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There, millions of neurons in multiple
regions create the sensations of pain.
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For us, this is a very complex experience
associated with emotions like fear,
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panic,
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and stress,
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which we can communicate to others.
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But it's harder to know exactly
how animals experience
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this part of the process
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because most them can't show us
what they feel.
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However, we get clues from observing
how animals behave.
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Wild, hurt animals are known
to nurse their wounds,
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make noises to show their distress,
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and become reclusive.
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In the lab, scientists have discovered
that animals like chickens and rats
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will self-administer pain-reducing
drugs if they're hurting.
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Animals also avoid situations where
they've been hurt before,
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which suggests awareness of threats.
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We've reached the point that research
has made us so sure
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that vertebrates recognize pain
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that it's illegal in many countries
to needlessly harm these animals.
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But what about other types of animals
like invertebrates?
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These animals aren't legally protected,
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partly because their behaviors
are harder to read.
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We can make good guesses
about some of them,
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like oysters,
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worms,
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and jellyfish.
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These are examples of animals
that either lack a brain
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or have a very simple one.
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So an oyster may recoil when squirted
with lemon juice, for instance,
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because of nociception.
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But with such a simple nervous system,
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it's unlikely to experience
the conscious part of pain.
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Other invertebrate animals
are more complicated, though,
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like the octopus,
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which has a sophisticated brain
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and is thought to be one of the most
intelligent invertebrate animals.
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Yet, in many countries, people continue
the practice of eating live octopus.
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We also boil live crawfish, shrimp,
and crabs
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even though we don't really know
how they're effected either.
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This poses an ethical problem
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because we may be causing these animals
unnecessary suffering.
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Scientific experimentation,
though controversial, gives us some clues.
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Tests on hermit crabs show that they'll
leave an undesirable shell
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if they're zapped with electricity
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but stay if it's a good shell.
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And octopi that may originally curl up
an injured arm to protect it
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will risk using it to catch prey.
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That suggests that these animals make
value judgements around sensory input
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instead of just reacting
reflexively to harm.
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Meanwhile, crabs have been known
to repeatedly rub a spot on their bodies
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where they've received an electric shock.
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And even seas lugs flinch
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when they know they're about
to receive a noxious stimulus.
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That means they have some memory
of physical sensations.
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We still have a lot to learn about
animal pain.
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As our knowledge grows,
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it may one day allow us to live in a world
where we don't cause pain needlessly.
closed TED
