-
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The word concussion evokes a fear
these days more so than it ever has,
-
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and I know this personally.
-
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I played 10 years of football,
-
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was struck in the head
thousands of times,
-
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and I have to tell you, though,
what was much worse than that
-
Not Synced
was a pair of bike accidents I had
where I suffered concussions,
-
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and I'm still dealing with the effects
of the most recent one
-
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today as I stand in front of you.
-
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There is a fear around concussion
-
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that does have some evidence behind it.
-
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There is information that a repeated
history of concussion
-
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can lead to early dementia,
such as Alzheimer's,
-
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and Chronic Traumatic Encephalopathy.
-
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That was the subject
of the Will Smith movie "Concussion."
-
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And so everybody is caught up in football
and what they see in the military,
-
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but you may not know
-
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that bIke-riding is the leading cause
of concussion for kids,
-
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sports-related concussion, that is.
-
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And so another thing
that I should tell you
-
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that you may not know
-
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is that the helmets that are worn
in bicycling and football
-
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and many activities,
-
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they're not designed or tested
-
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for how well they can protect
your children against concussion.
-
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They're in fact designed and tested
for their ability to protect
-
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against skull fracture.
-
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And so I get this question
all the time from parents,
-
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and they ask me,
-
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"Would you let your own child
play football?"
-
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Or, "Should I let my child play soccer?"
-
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And I think that as a field,
-
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we're a long way from giving an answer
-
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with any kind of confidence there.
-
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So I look at that question
from a bit of a different lens,
-
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and I want to know,
-
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how can we prevent concussion?
-
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Is that even possible?
-
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And most experts think that it's not,
-
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but the work that we're doing in my lab
-
Not Synced
is starting to reveal more of the details
around concussion
-
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so that we can have
a better understanding.
-
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The reason we're able
to prevent skull fracture with helmets
-
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is because it's pretty simple.
We know how it works.
-
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Concussion has been
much more of a mystery.
-
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So to give you a sense of what might
be happening in a concussion,
-
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I want to show you the video here
-
Not Synced
that you see when you type in to Google,
-
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"What is a concussion?"
-
Not Synced
The CDC website comes up,
-
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and this video essentially
tells the whole story.
-
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What you see is the head moves forward,
-
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the brain lags behind,
-
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then the brain catches up
-
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and smashes into the skull,
-
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it rebounds off the skull,
-
Not Synced
and then proceeds to run into
the other side of the skull.
-
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And what you'll notice is highlighted
in this video from the CDC,
-
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which I'll note was funded by the NFL,
-
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is that the outer surfaces of the brain,
-
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where it was to have
smashed into the skull,
-
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looks like it's been damaged or injured,
so it's on the outer surface of the brain.
-
Not Synced
And what I'd like to do with this video
is to tell you that there are
-
Not Synced
some aspects that are probably right,
indicative of what the scientists
-
Not Synced
think happens with concussion,
-
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but there's probably more
that's wrong with this video.
-
Not Synced
So one thing that I do agree with,
and I think most experts would,
-
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is that the brain does
have these dynamics.
-
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It does lag behind the skull
-
Not Synced
and then catch up and move
back and forth and oscillate.
-
Not Synced
That we think is true.
-
Not Synced
However, the amount of motion
you see in the brain in this video
-
Not Synced
is probably not right at all.
-
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There's very little room
in the cranial vault,
-
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only a few millimeters,
-
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and it's filled entirely
with cerebral spinal fluid,
-
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which acts as a protective layer.
-
Not Synced
And so the brain as a whole
probably moves very little
-
Not Synced
inside the skull.
-
Not Synced
The other problem with this video
-
Not Synced
is that the brain is shown
-
Not Synced
as a kind of rigid whole
as it moves around,
-
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and that's not true either.
-
Not Synced
Your brain is one of the softest
substances in your body,
-
Not Synced
and you can think of it
kind of like jello.
-
Not Synced
So as your head is moving back and forth,
-
Not Synced
your brain is twisting and turning
and contorting,
-
Not Synced
and the tissue is getting stretched,
-
Not Synced
and so most experts I think would agree
-
Not Synced
that concussion is not likely to be
something that's happening
-
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on this outer surface of the brain,
-
Not Synced
but rather it's something
that's much deeper
-
Not Synced
towards the center of the brain.
-
Not Synced
Now, the way that we're
approaching this problem
-
Not Synced
to try to understand
the mechanisms of concussion
-
Not Synced
and to figure out if we can prevent it
-
Not Synced
is we are using a device like this.
-
Not Synced
It's a mouth guard.
-
Not Synced
It has sensors in it that are
essentially the same
-
Not Synced
that are in your cell phone:
-
Not Synced
accelerometers, gyroscopes,
-
Not Synced
and when someone is struck in the head,
-
Not Synced
it can tell you how their head moved
-
Not Synced
at a thousand samples per second.
-
Not Synced
The principle behind
the mouth guard is this:
-
Not Synced
it fits onto your teeth.
-
Not Synced
Your teeth are one of the hardest
substances in your body.
-
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So it rigidly couples to your skull
-
Not Synced
and gives you the most precise
possible measurement
-
Not Synced
of how the skull moves.
-
Not Synced
People have tried other
approaches with helmets.
-
Not Synced
We've looked at other sensors
that go on your skin,
-
Not Synced
and they all simply move around too much,
-
Not Synced
and so we found that this is
the only reliable way
-
Not Synced
to take a good measurement.
-
Not Synced
So now that we've got this device,
we can go beyond studying cadavers,
-
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because you can only learn so much
about concussion
-
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from studying a cadaver,
-
Not Synced
and we want to learn
and study live humans.
-
Not Synced
So where can we find
-
Not Synced
a group of willing volunteers
to go out and smash their heads
-
Not Synced
into each other on a regular basis
and sustain concussion?
-
Not Synced
Well, I was one of them,
-
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and it's your local friendly
Stanford football team.
-
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So this is our laboratory,
-
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and I want to show you
-
Not Synced
the first concussion we measured
with this device.
-
Not Synced
One of the things that I should point out
is the device has this gyroscope in it,
-
Not Synced
and that allows you to measure
the rotation of the head.
-
Not Synced
Most experts think that that's
the critical factor
-
Not Synced
that might start to tell us
what is happening in concussion.
-
Not Synced
So please watch this video.
-
Not Synced
Announcer: Cougars bring
extra people late, but Luck has time,
-
Not Synced
and Winslow is crushed.
-
Not Synced
Announcer: I hope he's all right.
(Audience roars)
-
Not Synced
Announcer: Top of your screen,
you'll see him come on
-
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just this little post route,
get separation,
-
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the safety.
-
Not Synced
There it comes at you in real speed.
You'll hear this.
-
Not Synced
Announcer: The hit delivered by --
-
Not Synced
David Camarillo: Sorry, three times
is probably a little excessive there.
-
Not Synced
But you get the idea.
-
Not Synced
So when you look at just the film here,
-
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pretty much the only thing
you can see is he got hit really hard
-
Not Synced
and he was hurt.
-
Not Synced
But when we extract the data
out of the mouthguard
-
Not Synced
that he was wearing, we can see
much more detail,
-
Not Synced
much richer information.
-
Not Synced
And one of the things that we noticed here
-
Not Synced
is that he was struck
-
Not Synced
in the lower left side of his face mask.
-
Not Synced
And so that did something first
that was a little counterintuitive.
-
Not Synced
His head did not move to the right.
-
Not Synced
In fact, it rotated first to the left.
-
Not Synced
Then as the neck began to compress,
-
Not Synced
the force of the blow caused it
to whip back to the right,
-
Not Synced
so this left-right motion
-
Not Synced
was sort of a whiplash type phenomenon
-
Not Synced
and then we think that is probably
what led to the brain injury.
-
Not Synced
Now, this device is only limited in such
that it can measure the skull motion,
-
Not Synced
but what we really want to know
is what's happening inside of the brain.
-
Not Synced
So we collaborate with
Svein Kleiven's group in Sweden.
-
Not Synced
They've developed a finite element
model of the brain.
-
Not Synced
And so this is a simulation
-
Not Synced
using the data from our mouthguard
from the injury I just showed you,
-
Not Synced
and what you see is the brain,
-
Not Synced
this is a cross-section right in the front
-
Not Synced
of the brain twisting and contorting
as I mentioned,
-
Not Synced
so you can see this doesn't
look a lot like the CDC video.
-
Not Synced
Now, the colors that you're looking at
-
Not Synced
are how much the brain tissue
is being stretched,
-
Not Synced
and so the red is 50 percent.
-
Not Synced
That means the brain has been stretched
to 50 percent of its original length,
-
Not Synced
the tissue in that particular area.
-
Not Synced
And the main thing I want to draw
your attention to is this red spot.
-
Not Synced
So this red spot is very close
to the center of the brain,
-
Not Synced
and relatively speaking,
-
Not Synced
you don't see a lot of colors like that
on the exterior surface
-
Not Synced
as the CDC video showed.
-
Not Synced
Now, to explain a little more detail
-
Not Synced
about how we think concussion
might be happening,
-
Not Synced
one thing I should mention
-
Not Synced
is that we and others have observed
that a concussion is more likely
-
Not Synced
when you're struck and your head
rotates in this direction.
-
Not Synced
This is more common
in sports like football,
-
Not Synced
but this seems to be more dangerous.
So what might be happening there?
-
Not Synced
Well, one thing that you'll notice
-
Not Synced
in the human brain
-
Not Synced
that is different than other animals
-
Not Synced
is we have these two very large lobes.
-
Not Synced
We have the right brain
and the left brain.
-
Not Synced
And the key thing to notice
in this figure here
-
Not Synced
is that right down the center
-
Not Synced
of the right brain and the left brain
-
Not Synced
there's a large fissure that goes
deep into the brain.
-
Not Synced
And in that fissure, what you
can't see in this image,
-
Not Synced
you'll have to trust me,
-
Not Synced
there is a fibrous sheet of tissue.
-
Not Synced
It's called the falx, and it runs
from the front of your head
-
Not Synced
all the way to the back of your head,
-
Not Synced
and it's quite stiff.
-
Not Synced
And so what that allows for
is when you're struck
-
Not Synced
and your head rotates
in this left-right direction,
-
Not Synced
forces can rapidly transmit
right down to the center of your brain.
-
Not Synced
Now, what's there
-
Not Synced
at the bottom of this fissure?
-
Not Synced
It's the wiring of your brain,
-
Not Synced
and in fact this red bundle
here at the bottom of that fissure
-
Not Synced
is the single largest fiber bundle
that is the wiring that connects
-
Not Synced
the right and left sides of your brain.
-
Not Synced
It's called the corpus callosum,
-
Not Synced
and we think that this might be
one of the most common mechanisms
-
Not Synced
of concussion,
-
Not Synced
and as the forces move down,
they strike the corpus callosum,
-
Not Synced
it causes a dissociation
between your right and your left brain
-
Not Synced
and could explain some of
the symptoms of concussion.
-
Not Synced
This finding is also consistent
of what we've seen
-
Not Synced
in this brain disease that I mentioned,
Chronic Traumatic Encephalopathy.
-
Not Synced
So this is an image
of a middle-aged
-
Not Synced
ex-professional football player,
-
Not Synced
and the thing that I want to point out
-
Not Synced
is if you look at the corpus callosum,
and I'll page back here so you can see
-
Not Synced
the size of a normal corpus callosum
-
Not Synced
and the size of the person here who
who has Chronic Traumatic Encephalopathy,
-
Not Synced
it is greatly atrophied.
-
Not Synced
And the same goes for all of the space
in the ventricles.
-
Not Synced
These ventricles are much larger.
-
Not Synced
And so all of this tissue
near the center of the brain
-
Not Synced
has died off over time.
-
Not Synced
So what we're learning
is indeed consistent.
-
Not Synced
Now there is some good news here,
-
Not Synced
and I hope to give you a sense
of hope by the end of this talk.
-
Not Synced
One of the things that we've noticed,
-
Not Synced
specifically about this mechanism injury,
-
Not Synced
is though there's a rapid transmission
of the forces down this fissure,
-
Not Synced
it still takes a defined amount of time,
-
Not Synced
and what we think is if we can
slow the head down just enough
-
Not Synced
so that the brain does not
lag behind the skull
-
Not Synced
but instead it moves in synchrony
with the skull,
-
Not Synced
then we might be able to prevent
this mechanism of concussion.
-
Not Synced
So how can we slow the head down?
-
Not Synced
(Laughter)
-
Not Synced
A gigantic helmet.
-
Not Synced
So with more space, you have more time,
-
Not Synced
and this is a bit of a joke,
but some of you may have seen this,
-
Not Synced
this is bubble soccer,
-
Not Synced
and it's a real sport.
-
Not Synced
In fact I saw some young adults
playing this sport down the street
-
Not Synced
from my house the other day,
and as far as I know there have been
-
Not Synced
no reported concussions.
-
Not Synced
(Laughter)
-
Not Synced
But in all seriousness,
this principle does work,
-
Not Synced
but this has gone too far.
-
Not Synced
This isn't something that's practical
for bike riding or playing football,
-
Not Synced
and so we are collaborating
with a company in Sweden called Hövding.
-
Not Synced
Some of you may have seen their work,
-
Not Synced
and they're using the same principle
of air to give you some extra space
-
Not Synced
to prevent concussion.
-
Not Synced
Kids, don't try this at home please.
-
Not Synced
This stuntman does not have a helmet.
-
Not Synced
He instead has a neck collar,
-
Not Synced
and this neck collar has sensors in it,
-
Not Synced
the same type of sensors
that are in our mouthguard,
-
Not Synced
and it detects when he's likely
to have a fall,
-
Not Synced
and there's an airbag
that explodes and triggers,
-
Not Synced
the same way that an airbag
works in your car, essentially.
-
Not Synced
And in the experiments we've done
in my lab with their device,
-
Not Synced
we found that it can greatly reduce
the risk of concussion in some scenarios
-
Not Synced
compared to a normal bicycle helmet.
-
Not Synced
So it's a pretty exciting development,
-
Not Synced
but in order for us to actually realize
the benefits of technology
-
Not Synced
that can prevent concussion,
-
Not Synced
it needs to meet regulations.
-
Not Synced
That's a reality,
-
Not Synced
and this device is for sale in Europe
-
Not Synced
but is not for sale in the US,
-
Not Synced
and probably won't be any time soon.
-
Not Synced
So I wanted to tell you why.
-
Not Synced
There are some good reasons and then
there are some not so good reasons.
-
Not Synced
Bike helmets are federally regulated.
-
Not Synced
The Consumer Product Safety Commission
has been given jurisdiction
-
Not Synced
to approve any bike helmet for sale,
-
Not Synced
and this is the test they use.
-
Not Synced
This is back to what I was telling you
at the beginning of the talk
-
Not Synced
about skull fracture.
-
Not Synced
That's what this test is for.
-
Not Synced
And that's an important thing to do.
It can save your life,
-
Not Synced
but it's not sufficient, I would say.
-
Not Synced
So for example, one thing
this test doesn't evaluate
-
Not Synced
is it doesn't tell you is that airbag
going to trigger
-
Not Synced
at the right time and place,
and not trigger when it doesn't need to?
-
Not Synced
Similarly, it's not going to tell you,
-
Not Synced
is this helmet likely
to prevent concussion or not?
-
Not Synced
And if you look at football helmets,
which aren't regulated,
-
Not Synced
they still have a very similar test.
-
Not Synced
They're not regulated
by the government, anyway.
-
Not Synced
They have an industry body,
which is the way most industries work.
-
Not Synced
But this industry body, I can tell you,
has been quite resistant
-
Not Synced
to updating their standards.
-
Not Synced
So in my lab, we are working on not only
the mechanism of concussion,
-
Not Synced
but we want to understand
-
Not Synced
how can we have better test standards?
-
Not Synced
And we hope that the government
-
Not Synced
can use this type of information
-
Not Synced
to encourage innovation
-
Not Synced
by letting consumers know
-
Not Synced
how protected are you
with a given helmet.
-
Not Synced
And I want to bring this back finally
-
Not Synced
to the original question I asked,
-
Not Synced
which is, would I feel comfortable
letting my child play football
-
Not Synced
or ride a bicycle?
-
Not Synced
And this might be just a result
of my own traumatic experience.
-
Not Synced
I'm much more nervous
-
Not Synced
about mike daughter Rose
riding a bicycle.
-
Not Synced
So she's a year and a half old,
-
Not Synced
and she's already, well,
wants to anyway, race down
-
Not Synced
the streets of San Francisco.
-
Not Synced
This is the bottom
of one of these streets.
-
Not Synced
And so my personal goal
-
Not Synced
is to, and I believe this is possible,
-
Not Synced
is to further develop these technologies,
-
Not Synced
and in fact we're working on
something in my lab in particular
-
Not Synced
that really makes optimal use
of the given space of the helmet,
-
Not Synced
and I am confident that we will
be able to, before she's ready
-
Not Synced
to ride a two-wheeler,
-
Not Synced
have something available
-
Not Synced
that can in fact really reduce
the risk of concussion
-
Not Synced
and comply with regulatory bodies.
-
Not Synced
And so what I'd like to do,
-
Not Synced
and I know that this is for some of you
more immediate nature,
-
Not Synced
I've got a couple years here,
-
Not Synced
is to be able to tell parents
and grandparents when I'm asked,
-
Not Synced
it is safe and healthy for your children
to engage in these activities.
-
Not Synced
And I'm very fortunate to have
a wonderful team at Stanford
-
Not Synced
that's working on hard on this.
-
Not Synced
So I hope to come back in a few years
with the final story,
-
Not Synced
but for now I will tell you that
please don't just be afraid
-
Not Synced
when you hear the word concussion.
-
Not Synced
There is hope.
-
Not Synced
Thank you.
-
Not Synced
(Applause)
closed TED
