ABOUT THE SPEAKER
Michael Merzenich - Neuroscientist
Michael Merzenich studies neuroplasticity -- the brain's powerful ability to change itself and adapt -- and ways we might make use of that plasticity to heal injured brains and enhance the skills in healthy ones.

Why you should listen

One of the foremost researchers of neuroplasticity, Michael Merzenich's work has shown that the brain retains its ability to alter itself well into adulthood -- suggesting that brains with injuries or disease might be able to recover function, even later in life. He has also explored the way the senses are mapped in regions of the brain and the way sensations teach the brain to recognize new patterns.

Merzenich wants to bring the powerful plasticity of the brain into practical use through technologies and methods that harness it to improve learning. He founded Scientific Learning Corporation, which markets and distributes educational software for children based on models of brain plasticity. He is co-founder and Chief Science Officer of Posit Science, which creates "brain training" software also based on his research.

Merzenich is professor emeritus of neuroscience at the University of California, San Francisco.

More profile about the speaker
Michael Merzenich | Speaker | TED.com
TED2004

Michael Merzenich: Growing evidence of brain plasticity

Filmed:
1,483,469 views

Neuroscientist Michael Merzenich looks at one of the secrets of the brain's incredible power: its ability to actively re-wire itself. He's researching ways to harness the brain's plasticity to enhance our skills and recover lost function.
- Neuroscientist
Michael Merzenich studies neuroplasticity -- the brain's powerful ability to change itself and adapt -- and ways we might make use of that plasticity to heal injured brains and enhance the skills in healthy ones. Full bio

Double-click the English transcript below to play the video.

00:12
This machine, which we all have residing in our skulls,
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reminds me of an aphorism, of a
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comment of Woody Allen
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to ask about what is the very best thing to have within your skull.
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And it's this machine.
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And it's constructed for change. It's all about change.
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It confers on us the ability to do things tomorrow that we can't do today,
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things today that we couldn't do yesterday.
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And of course it's born stupid.
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The last time you were in the presence of a baby --
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this happens to be my granddaughter, Mitra.
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Isn't she fabulous?
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(Laughter)
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But nonetheless when she popped out
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despite the fact that her brain had actually been progressing
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in its development for several months before
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on the basis of her experiences in the womb --
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nonetheless she had very limited abilities,
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as does every infant
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at the time of normal, natural full-term birth.
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If we were to assay her perceptual abilities, they would be crude.
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There is no real indication that there is any real thinking going on.
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In fact there is little evidence that there is any
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cognitive ability in a very young infant.
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Infants don't respond to much.
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There is not really much of an indication in fact that there is a person on board.
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(Laughter)
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And they can only in a very primitive way, and in a very limited way
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control their movements.
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It would be several months before this infant
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could do something as simple as reach out and grasp
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under voluntary control an object and retrieve it,
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usually to the mouth.
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And it will be some months beforeward,
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and we see a long steady progression
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of the evolution from the first wiggles,
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to rolling over, and sitting up, and crawling,
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standing, walking,
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before we get to that magical point
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in which we can motate in the world.
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And yet, when we look forward in the brain
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we see really remarkable advance.
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By this age the brain can actually store.
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It has stored, recorded,
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can fastly retrieve
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the meanings of thousands,
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tens of thousands of objects,
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actions, and their relationships in the world.
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And those relationships can in fact be constructed in hundreds of thousands,
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potentially millions of ways.
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By this age the brain controls very refined perceptual abilities.
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And it actually has a growing repertoire of cognitive skills.
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This brain is very much a thinking machine.
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And by this age there is absolutely no question
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that this brain, it has a person on board.
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And in fact at this age it is substantially controlling its own self-development.
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And by this age we see a remarkable evolution
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in its capacity to control movement.
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Now movement has advanced to the point
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where it can actually control movement simultaneously,
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in a complex sequence, in complex ways
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as would be required for example
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for playing a complicated game,
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like soccer.
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Now this boy can bounce a soccer ball on his head.
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And where this boy comes from, Sao Paulo, Brazil,
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about 40 percent of boys of his age have this ability.
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You could go out into the community in Monterey,
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and you'd have difficulty finding a boy that has this ability.
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And if you did he'd probably be from Sao Paulo.
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(Laughter)
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That's all another way of saying
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that our individual skills and abilities
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are very much shaped by our environments.
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That environment extends into our contemporary culture,
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the thing our brain is challenged with.
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Because what we've done in our personal evolutions
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is build up a large repertoire of specific skills and abilities
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that are specific to our own individual histories.
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And in fact they result in a wonderful
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differentiation in humankind,
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in the way that, in fact, no two of us
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are quite alike.
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Every one of us has a different set of acquired skills and abilities
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that all derive out of the plasticity,
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the adaptability of this really remarkable adaptive machine.
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In an adult brain of course we've built up
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a large repertoire of mastered skills and abilities
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that we can perform more or less automatically from memory,
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and that define us as acting, moving, thinking creatures.
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Now we study this,
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as the nerdy, laboratory, university-based scientists that we are,
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by engaging the brains
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of animals like rats, or monkeys,
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or of this particularly curious creature --
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one of the more bizarre forms of life on earth --
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to engage them in learning new skills and abilities.
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And we try to track the changes that occur
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as the new skill or ability is acquired.
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In fact we do this in individuals
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of any age, in these different species --
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that is to say from infancies,
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infancy up to adulthood and old age.
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So we might engage a rat, for example,
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to acquire a new skill or ability
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that might involve the rat using its paw
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to master particular manual grasp behaviors
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just like we might examine a child
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and their ability to acquire the sub-skills,
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or the general overall skill of accomplishing something
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like mastering the ability to read.
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Or you might look in an older individual
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who has mastered a complex set of abilities
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that might relate to reading musical notation
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or performing the mechanical acts of performance
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that apply to musical performance.
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From these studies we defined two great epochs
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of the plastic history of the brain.
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The first great epoch is commonly called the "Critical Period."
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And that is the period in which the brain is setting up
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in its initial form its basic processing machinery.
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This is actually a period of dramatic change
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in which it doesn't take learning, per se, to drive
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the initial differentiation of the machinery of the brain.
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All it takes for example in the sound domain,
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is exposure to sound.
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And the brain actually is at the mercy
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of the sound environment in which it is reared.
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So for example I can rear an animal
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in an environment in which there is meaningless dumb sound,
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a repertoire of sound that I make up,
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that I make, just by exposure, artificially important
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to the animal and its young brain.
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And what I see is that the animal's brain sets up
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its initial processing of that sound
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in a form that's idealized, within the limits of its processing achievements
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to represent it in an organized and orderly way.
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The sound doesn't have to be valuable to the animal:
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I could raise the animal in something that could be hypothetically valuable,
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like the sounds that simulate
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the sounds of a native language of a child.
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And I see the brain actually develop a processor that is specialized --
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specialized for that complex array, a repertoire of sounds.
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It actually exaggerates their separateness of representation,
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in multi-dimensional neuronal representational terms.
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Or I can expose the animal to a completely meaningless and destructive sound.
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I can raise an animal under conditions
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that would be equivalent to raising a baby
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under a moderately loud ceiling fan,
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in the presence of continuous noise.
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And when I do that I actually specialize the brain
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to be a master processor for that meaningless sound.
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And I frustrate its ability
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to represent any meaningful sound as a consequence.
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Such things in the early history of babies
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occur in real babies.
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And they account for, for example
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the beautiful evolution of a language-specific processor
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in every normally developing baby.
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And so they also account for
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development of defective processing
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in a substantial population of children
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who are more limited, as a consequence,
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in their language abilities at an older age.
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Now in this early period of plasticity
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the brain actually changes outside of a learning context.
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I don't have to be paying attention to what I hear.
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The input doesn't really have to be meaningful.
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I don't have to be in a behavioral context.
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This is required so the brain sets up it's processing
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so that it can act differentially,
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so that it can act selectively,
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so that the creature that wears it, that carries it,
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can begin to operate on it in a selective way.
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In the next great epoch of life, which applies for most of life,
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the brain is actually refining its machinery
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as it masters a wide repertoire of skills and abilities.
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And in this epoch,
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which extends from late in the first year of life to death;
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it's actually doing this under behavioral control.
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And that's another way of saying
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the brain has strategies that define
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the significance of the input to the brain.
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And it's focusing on skill after skill,
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or ability after ability,
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under specific attentional control.
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It's a function of whether a goal in a behavior is achieved
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or whether the individual is rewarded in the behavior.
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This is actually very powerful.
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This lifelong capacity for plasticity, for brain change,
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is powerfully expressed.
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It is the basis of our real differentiation,
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one individual from another.
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You can look down in the brain of an animal
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that's engaged in a specific skill,
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and you can witness or document this change on a variety of levels.
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So here is a very simple experiment.
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It was actually conducted about five years ago
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in collaboration with scientists from the University of Provence
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in Marseilles.
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It's a very simple experiment where a monkey has been trained
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in a task that involves it manipulating a tool
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that's equivalent in its difficulty
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to a child learning to manipulate or handle a spoon.
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The monkey actually mastered the task
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in about 700 practice tries.
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So in the beginning the monkey could not perform this task at all.
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It had a success rate of about one in eight tries.
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Those tries were elaborate.
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Each attempt was substantially different from the other.
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But the monkey gradually developed a strategy.
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And 700 or so tries later
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the monkey is performing it flawlessly -- never fails.
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He's successful in his retrieval of food with this tool every time.
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At this point the task is being performed
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in a beautifully stereotyped way:
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very beautifully regulated and highly repeated, trial to trial.
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We can look down in the brain of the monkey.
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And we see that it's distorted.
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We can track these changes, and have tracked these changes
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in many such behaviors across time.
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And here we see the distortion
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reflected in the map of the skin surfaces of the hand of the monkey.
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Now this is a map, down in the surface of the brain,
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in which, in a very elaborate experiment we've reconstructed the responses,
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location by location,
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in a highly detailed response mapping of the responses of its neurons.
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We see here a reconstruction of how
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the hand is represented in the brain.
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We've actually distorted the map by the exercise.
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And that is indicated in the pink. We have a couple fingertip surfaces that are larger.
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These are the surfaces the monkey is using to manipulate the tool.
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If we look at the selectivity of responses
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in the cortex of the monkey,
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we see that the monkey has actually changed the filter characteristics
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which represents input from the skin
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of the fingertips that are engaged.
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In other words there is still a single, simple representation of the fingertips
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in this most organized of cortical areas
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of the surface of the skin of the body.
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Monkey has like you have.
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And yet now it's represented in substantially finer grain.
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The monkey is getting more detailed information from these surfaces.
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And that is an unknown -- unsuspected, maybe, by you --
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part of acquiring the skill or ability.
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Now actually we've looked in several different cortical areas
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in the monkey learning this task.
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And each one of them changes in ways that are specific
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to the skill or ability.
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So for example we can look to the cortical area
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that represents input that's controlling the posture of the monkey.
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We look in cortical areas that control specific movements,
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and the sequences of movements
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that are required in the behavior, and so forth.
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They are all remodeled. They all become specialized for the task at hand.
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There are 15 or 20 cortical areas that are changed specifically
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when you learn a simple skill like this.
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And that represents in your brain, really massive change.
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It represents the change in a reliable way
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of the responses of tens of millions,
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possibly hundreds of millions of neurons in your brain.
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It represents changes
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of hundreds of millions, possibly billions
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of synaptic connections in your brain.
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This is constructed by physical change.
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And the level of construction that occurs is massive.
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Think about the changes that occur in the brain of a child
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through the course of acquiring their movement behavior abilities in general.
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Or acquiring their native language abilities.
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The changes are massive.
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What it's all about is the selective representations
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of things that are important to the brain.
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Because in most of the life of the brain
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this is under control of behavioral context.
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It's what you pay attention to.
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It's what's rewarding to you.
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It's what the brain regards, itself,
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as positive and important to you.
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It's all about cortical processing
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and forebrain specialization.
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And that underlies your specialization.
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That is why you, in your many skills and abilities,
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are a unique specialist:
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a specialist that's vastly different
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in your physical brain in detail
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than the brain of an individual 100 years ago;
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enormously different in the details
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from the brain of the average individual 1,000 years ago.
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Now, one of the characteristics of this change process
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is that information is always related
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to other inputs or information that is occurring
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in immediate time, in context.
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And that's because the brain is constructing representations of things
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that are correlated in little moments of time
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and that relate to one another in little moments of successive time.
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The brain is recording all information
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and driving all change
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in temporal context.
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Now overwhelmingly the most powerful context
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that's occurred in your brain is you.
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Billions of events have occurred in your history
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that are related in time to yourself
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as the receiver,
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or yourself as the actor, yourself as the thinker,
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yourself as the mover.
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Billions of times little pieces of sensation have come in
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from the surface of your body
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that are always associated with you as the receiver,
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and that result in
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the embodiment of you.
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You are constructed, your self is constructed
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from these billions of events.
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It's constructed. It's created in your brain.
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And it's created in the brain via physical change.
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This is a marvelously constructed thing
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that results in individual form
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because each one of us has vastly different histories,
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and vastly different experiences,
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that drive in to us this marvelous differentiation of self,
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of personhood.
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Now we've used this research
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to try to understand not just how a normal person develops,
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and elaborates their skills and abilities,
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but also try to understand
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the origins of impairment,
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and the origins of differences or variations
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that might limit the capacities of a child, or an adult.
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I'm going to talk about using these strategies
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to actually design brain plasticity-based
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approach to drive corrections in the machinery of a child
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that increases the competence of the child
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as a language receiver and user
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and, thereafter, as a reader.
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And I'm going to talk about experiments that involve
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actually using this brain science,
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first of all to understand how it contributes to the loss of function as we age.
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And then, by using it in a targeted approach
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we're going to try to differentiate
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the machinery to recover function in old age.
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So the first example I'm going to talk about
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relates to children with learning impairments.
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We now have a large body of literature
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that demonstrates that the fundamental
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problem that occurs in the majority of children
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that have early language impairments,
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and that are going to struggle to learn to read,
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is that their language processor
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is created in a defective form.
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And the reason that it rises in a defective form
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is because early in the baby's brain's life
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the machine process is noisy.
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It's that simple.
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It's a signal-to-noise problem. Okay?
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And there are a lot of things that contribute to that.
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There are numerous inherited faults
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that could make the machine process noisier.
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Now I might say the noise problem could also occur
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on the basis of information provided
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in the world from the ears.
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If any -- those of you who are older in the audience know
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that when I was a child we understood that a child born with a cleft palate
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was born with what we called mental retardation.
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We knew that they were going to be slow cognitively;
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we knew they were going to struggle to learn to develop normal language abilities;
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and we knew that they were going to struggle to learn to read.
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Most of them would be intellectual and academic failures.
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That's disappeared. That no longer applies.
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That inherited weakness, that inherited condition
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has evaporated.
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We don't hear about that anymore. Where did it go?
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Well, it was understood by a Dutch surgeon,
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about 35 years ago,
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that if you simply fix the problem early enough,
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when the brain is still in this initial plastic period
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so it can set up this machinery adequately,
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in this initial set up time in the critical period,
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none of that happens.
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What are you doing by operating on the cleft palate to correct it?
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You're basically opening up
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the tubes that drain fluid from the middle ears,
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which have had them reliably full.
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Every sound the child hears uncorrected is muffled.
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It's degraded.
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The child's native language is such a case is not English.
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It's not Japanese.
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It's muffled English. It's degraded Japanese.
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It's crap.
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And the brain specializes for it.
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It creates a representation of language crap.
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And then the child is stuck with it.
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Now the crap doesn't just happen in the ear.
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It can also happen in the brain.
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The brain itself can be noisy. It's commonly noisy.
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There are many inherited faults that can make it noisier.
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And the native language for a child with such a brain
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is degraded.
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It's not English. It's noisy English.
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And that results in defective representations of sounds of words --
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not normal -- a different strategy,
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by a machine that has different time constants and different space constants.
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And you can look in the brain of such a child and record those time constants.
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They are about an order of magnitude longer,
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about 11 times longer in duration on average,
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than in a normal child.
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Space constants are about three times greater.
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Such a child will have memory and cognitive deficits
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in this domain.
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Of course they will. Because as a receiver of language,
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they are receiving it and representing it,
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and in information it's representing crap.
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And they are going to have poor reading skills.
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Because reading is dependent upon the translation of word sounds
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into this orthographic or visual
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representational form.
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If you don't have a brain representation of word sounds
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that translation makes no sense.
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And you are going to have corresponding abnormal neurology.
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Then these children increasingly
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in evaluation after evaluation,
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in their operations in language, and their operations in reading --
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we document that abnormal neurology.
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The point is is that you can train the brain out of this.
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A way to think about this is you can actually re-refine
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the processing capacity of the machinery
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by changing it.
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Changing it in detail. It takes about 30 hours on the average.
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And we've accomplished that in about 430,000 kids today.
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Actually, probably about 15,000 children are being trained as we speak.
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And actually when you look at the impacts, the impacts are substantial.
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So here we're looking at the normal distribution.
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What we're most interested in is these kids on the left side of the distribution.
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This is from about 3,000 children.
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You can see that most of the children on the left side of the distribution
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are moving into the middle or the right.
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This is in a broad assessment of their language abilities.
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This is like an IQ test for language.
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The impact in the distribution, if you trained every child
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in the United States, would be to shift the whole distribution to the right
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and narrow the distribution.
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This is a substantially large impact.
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Think of a classroom of children in the language arts.
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Think of the children on the slow side of the class.
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We have the potential to move most of those children
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to the middle or to the right side.
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In addition to accurate language training
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it also fixes memory and cognition
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speech fluency and speech production.
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And an important language dependent skill is enabled by this training --
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that is to say reading.
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And to a large extent it fixes the brain.
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You can look down in the brain of a child
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in a variety of tasks that scientists have at Stanford,
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and MIT, and UCSF, and UCLA, and a number of other institutions.
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And children operating in various language behaviors,
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or in various reading behaviors,
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you see for the most extent,
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for most children, their neuronal responses,
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complexly abnormal before you start,
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are normalized by the training.
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Now you can also take the same approach
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to address problems in aging.
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Where again the machinery is deteriorating now
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from competent machinery, it's going south.
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Noise is increasing in the brain.
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20:27
And learning modulation and control is deteriorating.
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And you can actually look down on the brain of such an individual
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and witness a change in the time constants and space constants
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with which, for example, the brain is representing language again.
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20:38
Just as the brain came out of chaos at the beginning,
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it's going back into chaos in the end.
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This results in declines in memory
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in cognition, and in postural ability and agility.
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It turns out you can train the brain of such an individual --
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this is a small population of such individuals --
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train equally intensively for about 30 hours.
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These are 80- to 90-year-olds.
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And what you see are substantial improvements of their immediate memory,
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of their ability to remember things after a delay,
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of their ability to control their attention,
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their language abilities and visual-spatial abilities.
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The overall neuropsychological index
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of these trained individuals in this population
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is about two standard deviations.
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That means that if you sit at the left side of the distribution,
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and I'm looking at your neuropyschological abilities,
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the average person has moved to the middle
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or the right side of the distribution.
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21:25
It means that most people who are at risk for senility,
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more or less immediately,
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are now in a protected position.
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21:32
My issues are to try to get to rescuing
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older citizens more completely and in larger numbers,
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because I think this can be done in this arena on a vast scale --
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and the same for kids.
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My main interest is how to elaborate this science to address other maladies.
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I'm specifically interested in things like autism,
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and cerebral palsy, these great childhood catastrophes.
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And in older age conditions like Parkinsonism,
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and in other acquired impairments like schizophrenia.
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Your issues as it relates to this science,
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is how to maintain your own high-functioning learning machine.
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And of course, a well-ordered life
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in which learning is a continuous part of it, is key.
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But also in your future is brain aerobics.
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Get ready for it. It's going to be a part of every life
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not too far in the future,
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just like physical exercise
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is a part of every well organized life in the contemporary period.
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The other way that we will ultimately come to consider this
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literature and the science that is important to you
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is in a consideration of how to nurture yourself.
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Now that you know, now that science is telling us
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that you are in charge,
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that it's under your control,
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that your happiness, your well-being,
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your abilities, your capacities,
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are capable of continuous modification,
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continuous improvement,
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and you're the responsible agent and party.
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Of course a lot of people will ignore this advice.
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It will be a long time before they really understand it.
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(Laughter)
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Now that's another issue and not my fault.
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Okay. Thank you.
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(Applause)
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ABOUT THE SPEAKER
Michael Merzenich - Neuroscientist
Michael Merzenich studies neuroplasticity -- the brain's powerful ability to change itself and adapt -- and ways we might make use of that plasticity to heal injured brains and enhance the skills in healthy ones.

Why you should listen

One of the foremost researchers of neuroplasticity, Michael Merzenich's work has shown that the brain retains its ability to alter itself well into adulthood -- suggesting that brains with injuries or disease might be able to recover function, even later in life. He has also explored the way the senses are mapped in regions of the brain and the way sensations teach the brain to recognize new patterns.

Merzenich wants to bring the powerful plasticity of the brain into practical use through technologies and methods that harness it to improve learning. He founded Scientific Learning Corporation, which markets and distributes educational software for children based on models of brain plasticity. He is co-founder and Chief Science Officer of Posit Science, which creates "brain training" software also based on his research.

Merzenich is professor emeritus of neuroscience at the University of California, San Francisco.

More profile about the speaker
Michael Merzenich | Speaker | TED.com