A new way to diagnose autism

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I always wanted to become
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a walking laboratory of social engagement,
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to resonate other people's feelings, thoughts,
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intentions, motivations, in the act of being with them.
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As a scientist, I always wanted to measure that resonance,
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that sense of the other that happens so quickly,
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in the blink of an eye.
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We intuit other people's feelings.
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We know the meaning of their actions
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even before they happen.
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We're always in this stance of being
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the object of somebody else's subjectivity.
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We do that all the time. We just can't shake it off.
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It's so important that the very tools that we use
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to understand ourselves, to understand
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the world around them, is shaped by that stance.
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We are social to the core.
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So my journey in autism really started when I lived
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in a residential unit for adults with autism.
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Most of those individuals had spent most of their lives
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in long-stay hospitals. This is a long time ago.
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And for them, autism was devastating.
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They had profound intellectual disabilities.
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They didn't talk. But most of all,
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they were extraordinarily isolated
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from the world around them, from their environment
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and from the people.
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In fact, at the time, if you walked into a school
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for individuals with autism, you'd hear a lot of noise,
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plenty of commotion, actions, people doing things,
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but they're always doing things by themselves.
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So they may be looking at a light in the ceiling,
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or they may be isolated in the corner,
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or they might be engaged in these repetitive movements,
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in self-stimulatory movements that led them nowhere.
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Extremely, extremely isolated.
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Well, now we know that autism
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is this disruption, the disruption of this resonance
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that I am telling you.
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These are survival skills.
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These are survival skills that we inherited
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over many, many hundreds of thousands of years
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of evolution.
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You see, babies are born in a state of utter fragility.
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Without the caregiver, they wouldn't survive, so it stands
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to reason that nature would endow them with
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these mechanisms of survival.
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They orient to the caregiver.
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From the first days and weeks of life,
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babies prefer to hear human sounds rather than just
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sounds in the environment.
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They prefer to look at people rather than at things,
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and even as they're looking at people,
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they look at people's eyes, because
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the eye is the window to the other person's experiences,
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so much so that they even prefer to look at people who are
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looking at them rather than people who are looking away.
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Well, they orient to the caregiver.
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The caregiver seeks the baby.
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And it's out of this mutually reinforcing choreography
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that a lot that is of importance to the emergence of mind,
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the social mind, the social brain, depends on.
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We always think about autism
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as something that happens later on in life.
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It doesn't. It begins with the beginning of life.
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As babies engage with caregivers, they soon realize
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that, well, there is something in between the ears
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that is very important --
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it's invisible, you can't see -- but is really critical,
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and that thing is called attention.
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And they learn soon enough, even before they can
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utter one word that they can take that attention
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and move somewhere in order to get things they want.
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They also learn to follow other people's gaze,
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because whatever people are looking at is
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what they are thinking about.
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And soon enough, they start to learn about the meaning
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of things, because when somebody is looking at something
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or somebody is pointing at something,
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they're not just getting a directional cue,
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they are getting the other person's meaning
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of that thing, the attitude, and soon enough
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they start building this body of meanings,
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but meanings that were acquired within the realm
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of social interaction.
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Those are meanings that are acquired as part
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of their shared experiences with others.
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Well, this is a little 15-month-old little girl,
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and she has autism.
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And I am coming so close to her that I am maybe
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two inches from her face, and she's quite oblivious to me.
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Imagine if I did that to you,
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and I came two inches from your face.
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You'd do probably two things, wouldn't you?
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You would recoil. You would call the police. (Laughter)
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You would do something, because it's literally impossible
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to penetrate somebody's physical space
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and not get a reaction.
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We do so, remember, intuitively, effortlessly.
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This is our body wisdom. It's not something that is
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mediated by our language. Our body just knows that,
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and we've known that for a long time.
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And this is not something that happens to humans only.
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It happens to some of our phylatic cousins,
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because if you're a monkey,
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and you look at another monkey,
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and that monkey has a higher hierarchy position than you,
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and that is considered to be a signal or threat,
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well, you are not going to be alive for long.
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So something that in other species are survival mechanisms,
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without them they wouldn't basically live,
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we bring into the context of human beings,
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and this is what we need to simply act, act socially.
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Now, she is oblivious to me, and I am so close to her,
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and you think, maybe she can see you,
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maybe she can hear you.
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Well, a few minutes later, she goes to the corner of
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the room, and she finds a tiny little piece of candy, an M&M.
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So I could not attract her attention,
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but something, a thing, did.
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Now, most of us make a big dichotomy
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between the world of things and the world of people.
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Now, for this girl, that division line is not so clear,
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and the world of people is not attracting her
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as much as we would like.
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Now remember that we learn a great deal
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by sharing experiences.
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Now, what she is doing right now is that
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her path of learning is diverging moment by moment
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as she is isolating herself further and further.
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So we feel sometimes that the brain is deterministic,
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the brain determines who we are going to be.
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But in fact the brain also becomes who we are,
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and at the same time that her behaviors are taking away
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from the realm of social interaction, this is what's happening
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with her mind and this is what's happening with her brain.
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Well, autism is the most strongly genetic condition
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of all developmental disorders,
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and it's a brain disorder.
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It's a disorder that begins much prior to the time
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that the child is born.
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We now know that there is a very broad spectrum of autism.
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There are those individuals who are profoundly
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intellectually disabled, but there are those that are gifted.
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There are those individuals who don't talk at all.
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There are those individuals who talk too much.
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There are those individuals that if you observe them
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in their school, you see them running the periphery fence
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of the school all day if you let them,
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to those individuals who cannot stop coming to you
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and trying to engage you repeatedly, relentlessly,
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but often in an awkward fashion,
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without that immediate resonance.
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Well, this is much more prevalent than we thought at the time.
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When I started in this field, we thought that there were
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four individuals with autism per 10,000,
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a very rare condition.
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Well, now we know it's more like one in 100.
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There are millions of individuals with autism all around us.
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The societal cost of this condition is huge.
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In the U.S. alone, maybe 35 to 80 billion dollars,
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and you know what? Most of those funds are associated
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with adolescents and particularly adults
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who are several disabled,
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individuals who need wrap-around services, services
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that are very, very intensive, and those services
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can cost in excess of 60 to 80,000 dollars a year.
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Those are individuals who did not benefit from early treatment,
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because now we know that autism creates itself
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as they diverge in that pathway of learning
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that I mentioned to you.
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Were we to be able to identify this condition
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at an earlier point, and intervene and treat,
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I can tell you, and this has been probably
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something that has changed my life in the past 10 years,
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this notion that we can absolutely attenuate
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this condition.
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Also, we have a window of opportunity, because
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the brain is malleable for just so long,
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and that window of opportunity happens
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in the first three years of life.
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It's not that that window closes. It doesn't.
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But it diminishes considerably.
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And yet, the median age of diagnosis in this country
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is still about five years,
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and in disadvantaged populations,
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the populations that don't have access to clinical services,
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rural populations, minorities,
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the age of diagnosis is later still,
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which is almost as if I were to tell you that we are
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condemning those communities to have individuals
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with autism whose condition is going to be more severe.
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So I feel that we have a bio-ethical imperative.
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The science is there,
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but no science is of relevance if it doesn't have an impact
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on the community, and we just can't afford
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that missed opportunity,
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because children with autism become adults with autism,
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and we feel that those things that we can do
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for these children, for those families, early on,
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will have lifetime consequences,
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for the child, for the family, and for the community at large.
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So this is our view of autism.
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There are over a hundred genes that are associated
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with autism. In fact, we believe that there are going to be
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something between 300 and 600 genes associated with autism,
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and genetic anomalies, much more than just genes.
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And we actually have a bit of a question here,
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because if there are so many different causes of autism,
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how do you go from those liabilities
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to the actual syndrome? Because people like myself,
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when we walk into a playroom,
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we recognize a child as having autism.
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So how do you go from multiple causes
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to a syndrome that has some homogeneity?
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And the answer is, what lies in between,
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which is development.
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And in fact, we are very interested in those first
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two years of life, because those liabilities
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don't necessarily convert into autism.
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Autism creates itself.
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Were we to be able to intervene during those years of life,
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we might attenuate for some, and God knows,
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maybe even prevent for others.
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So how do we do that?
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How do we enter that feeling of resonance,
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how do we enter another person's being?
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I remember when I interacted with that 15-month-older,
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that the thing that came to mind was,
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"How do you come into her world?
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Is she thinking about me? Is she thinking about others?"
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Well, it's hard to do that, so we had to create
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the technologies. We had to basically step inside a body.
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We had to see the world through her eyes.
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And so in the past many years we've been building
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these new technologies that are based on eye tracking.
12:20 - 12:22

We can see moment by moment
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what children are engaging with.
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Well, this is my colleague Warren Jones, with whom
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we've been building these methods, these studies,
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for the past 12 years,
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and you see there a happy five-month-older,
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it's a five-month little boy who is going to watch things
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that are brought from his world,
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his mom, the caregiver, but also experiences
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that he would have were he to be in his daycare.
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What we want is to embrace that world
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and bring it into our laboratory,
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but in order for us to do that, we had to create
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these very sophisticated measures,
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measures of how people, how little babies,
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how newborns, engage with the world,
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moment by moment,
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what is important, and what is not.
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Well, we created those measures, and here,
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what you see is what we call a funnel of attention.
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You're watching a video.
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Those frames are separated by about a second
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through the eyes of 35 typically developing
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two-year-olds,
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and we freeze one frame,
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and this is what the typical children are doing.
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In this scan pass, in green here, are two-year-olds with autism.
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So on that frame, the children who are typical
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are watching this,
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the emotion of expression of that little boy
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as he's fighting a little bit with the little girl.
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What are the children with autism doing?
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They are focusing on the revolving door,
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opening and shutting.
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Well, I can tell you that this divergence
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that you're seeing here
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doesn't happen only in our five-minute experiment.
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It happens moment by moment in their real lives,
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and their minds are being formed,
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and their brains are being specialized in something other
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than what is happening with their typical peers.
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Well, we took a construct from
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our pediatrician friends,
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the concept of growth charts.
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You know, when you take a child to the pediatrician,
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and so you have physical height, and weight.
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Well we decided that we're going to create growth charts
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of social engagement,
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and we sought children from the time that they are born,
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and what you see here on the x-axis is two, three, four,
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five, six months and nine, until about the age of 24 months,
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and this is the percent of their viewing time
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that they are focusing on people's eyes,
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and this is their growth chart.
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They start over here, they love people's eyes,
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and it remains quite stable.
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It sort of goes up a little bit in those initial months.
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Now, let's see what's happening with babies
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who became autistic.
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It's something very different.
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It starts way up here, but then it's a free fall.
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It's very much like they brought into this world the reflex
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that orients them to people, but it has no traction.
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It's almost as if that stimulus, you,
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you're not exerting influence on what happens
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as they navigate their daily lives.
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Now, we thought that those data were so powerful
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in a way, that we wanted to see what happened
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in the first six months of life, because if you interact
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with a two- and a three-month-older,
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you'd be surprised by how social those babies are.
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And what we see in the first six months of life
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is that those two groups can be segregated very easily.
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And using these kinds of measures, and many others,
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what we found out is that our science could, in fact,
16:09 - 16:12

identify this condition early on.
16:12 - 16:15

We didn't have to wait for the behaviors of autism
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to emerge in the second year of life.
16:18 - 16:21

If we measured things that are, evolutionarily,
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highly conserved, and developmentally very early emerging,
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things that are online from the first weeks of life,
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we could push the detection of autism
16:30 - 16:32

all the way to those first months,
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and that's what we are doing now.
16:36 - 16:39

Now, we can create the very best technologies
16:39 - 16:43

and the very best methods to identify the children,
16:43 - 16:46

but this would be for naught if we didn't have an impact
16:46 - 16:50

on what happens in their reality in the community.
16:50 - 16:52

Now we want those devices, of course,
16:52 - 16:55

to be deployed by those who are in the trenches,
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our colleagues, the primary care physicians,
16:57 - 17:00

who see every child,
17:00 - 17:02

and we need to transform those technologies
17:02 - 17:05

into something that is going to add value to their practice,
17:05 - 17:08

because they have to see so many children.
17:08 - 17:10

And we want to do that universally
17:10 - 17:12

so that we don't miss any child,
17:12 - 17:14

but this would be immoral
17:14 - 17:19

if we also did not have an infrastructure for intervention,
17:19 - 17:20

for treatment.
17:20 - 17:23

We need to be able to work with the families,
17:23 - 17:26

to support the families, to manage those first years
17:26 - 17:30

with them. We need to be able to really go
17:30 - 17:34

from universal screening to universal access to treatment,
17:34 - 17:37

because those treatments are going to change
17:37 - 17:41

these children's and those families' lives.
17:41 - 17:45

Now, when we think about what we [can] do
17:45 - 17:49

in those first years,
17:49 - 17:51

I can tell you,
17:51 - 17:54

having been in this field for so long,
17:54 - 17:57

one feels really rejuvenated.
17:57 - 18:01

There is a sense that the science that one worked on
18:01 - 18:04

can actually have an impact on realities,
18:04 - 18:07

preventing, in fact, those experiences
18:07 - 18:11

that I really started in my journey in this field.
18:11 - 18:14

I thought at the time that this was an intractable condition.
18:14 - 18:18

No longer. We can do a great deal of things.
18:18 - 18:21

And the idea is not to cure autism.
18:21 - 18:24

That's not the idea.
18:24 - 18:26

What we want is to make sure
18:26 - 18:28

that those individuals with autism can be free from
18:28 - 18:33

the devastating consequences that come with it at times,
18:33 - 18:36

the profound intellectual disabilities, the lack of language,
18:36 - 18:39

the profound, profound isolation.
18:39 - 18:42

We feel that individuals with autism, in fact,
18:42 - 18:44

have a very special perspective on the world,
18:44 - 18:48

and we need diversity, and they can work extremely well
18:48 - 18:50

in some areas of strength:
18:50 - 18:53

predictable situations, situations that can be defined.
18:53 - 18:57

Because after all, they learn about the world almost like
18:57 - 19:01

about it, rather than learning how to function in it.
19:01 - 19:04

But this is a strength, if you're working, for example,
19:04 - 19:06

in technology.
19:06 - 19:08

And there are those individuals who have incredible
19:08 - 19:10

artistic abilities.
19:10 - 19:12

We want them to be free of that.
19:12 - 19:15

We want that the next generations of individuals with autism
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will be able not only to express their strengths
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but to fulfill their promise.
19:20 - 19:24

Well thank you for listening to me. (Applause)

Title:: A new way to diagnose autism
Speaker:: Ami Klin
Description:: Early diagnosis of autism spectrum disorder can improve the lives of everyone affected, but the complex network of causes make it incredibly difficult to predict. At TEDxPeachtree, Ami Klin describes a new early detection method that uses eye-tracking technologies to gauge babies' social engagement skills and reliably measure their risk of developing autism. (Filmed at TEDxPeachTree.)

more » « less
Video Language:: English
Team:: closed TED
Project:: TEDTalks
Duration:: 19:44

	Krystian Aparta commented on English subtitles for A new way to diagnose autism
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	Thu-Huong Ha edited English subtitles for A new way to diagnose autism

Krystian Aparta

The English transcript was updated on 11/21/2016. At 05:27, "phylatic" was changed to "phyletic." At 13:46, "emotion of expression" was changed to "emotional expression."

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A new way to diagnose autism

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