How we can start winning the war against cancer | Adam de la Zerda | TEDxStanford

Rollback to version 6

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"We're declaring war against cancer,
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and we will win this war by 2015."
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This is what the US Congress
and the National Cancer Institute declared
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just a few years ago, in 2003.
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Now, I don't know about you,
but I don't buy that.
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I don't think we quite won this war yet,
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and I don't think
anyone here will question that.
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Now, I will argue that a primary reason
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why we're not winning
this war against cancer
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is because we're fighting blindly.
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I'm going to start by sharing with you
a story about a good friend of mine.
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His name is Ehud,
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and a few years ago,
Ehud was diagnosed with brain cancer.
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And not just any type of brain cancer:
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he was diagnosed with one
of the most deadly forms of brain cancer.
0:52 - 0:54

In fact, it was so deadly
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that the doctors told him
that they only have 12 months,
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and during those 12 months,
they have to find a treatment.
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They have to find a cure,
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and if they cannot
find a cure, he will die.
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Now, the good news, they said,
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is that there are tons
of different treatments to choose from,
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but the bad news is
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that in order for them to tell
if a treatment is even working or not,
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well, that takes them
about three months or so.
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So they cannot try that many things.
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Well, Ehud is now going
into his first treatment,
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and during that first treatment,
just a few days into that treatment,
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I'm meeting with him, and he tells me,
"Adam, I think this is working.
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I think we really lucked out here.
Something is happening."
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And I ask him, "Really?
How do you know that, Ehud?"
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And he says, "Well,
I feel so terrible inside.
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Something's gotta be working up there.
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It just has to."
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Well, unfortunately, three months later,
we got the news, it didn't work.
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And so Ehud goes
into his second treatment.
1:46 - 1:47

And again, the same story.
1:47 - 1:50

"It feels so bad, something's
gotta be working there."
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And then three months later,
again we get bad news.
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Ehud is going into his third treatment,
and then his fourth treatment.
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And then, as predicted, Ehud dies.
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Now, when someone really close to you
is going through such a huge struggle,
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you get really swamped with emotions.
2:07 - 2:09

A lot of things
are going through your head.
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For me, it was mostly outrage.
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I was just outraged that, how come
this is the best that we can offer?
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And I started looking
more and more into this.
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As it turns out, this is not just
the best that doctors could offer Ehud.
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It's not just the best doctors could offer
patients with brain cancer generally.
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We're actually not doing that well
all across the board with cancer.
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I picked up one of those statistics,
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and I'm sure some of you
have seen those statistics before.
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This is going to show you here
how many patients actually died of cancer,
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in this case females in the United States,
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ever since the 1930s.
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You'll notice that there aren't
that many things that have changed.
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It's still a huge issue.
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You'll see a few changes though.
2:46 - 2:49

You'll see lung cancer,
for example, on the rise.
2:49 - 2:50

Thank you, cigarettes.
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And you'll also see that,
for example, stomach cancer
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once used to be one
of the biggest killers of all cancers,
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is essentially eliminated.
2:59 - 3:01

Now, why is that?
Anyone knows, by the way?
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Why is it that humanity is no longer
struck by stomach cancer?
3:04 - 3:09

What was the huge, huge
medical technology breakthrough
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that came to our world
that saved humanity from stomach cancer?
3:14 - 3:18

Was it maybe a new drug,
or a better diagnostic?
3:18 - 3:19

You guys are right, yeah.
3:19 - 3:21

It's the invention of the refrigerator,
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and the fact that we're
no longer eating spoiled meats.
3:24 - 3:26

So the best thing
that happened to us so far
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in the medical arena in cancer research
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is the fact that
the refrigerator was invented.
3:31 - 3:32

(Laughter)
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And so -- yeah, I know.
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We're not doing so well here.
3:34 - 3:37

I don't want to miniaturize the progress
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and everything that's been done
in cancer research.
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Look, there is like 50-plus years
of good cancer research
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that discovered major, major things
that taught us about cancer.
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But all that said,
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we have a lot of heavy lifting
to still do ahead of us.
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Again, I will argue that the primary
reason why this is the case,
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why we have not done that remarkably well,
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is really we're fighting blindly here.
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And this is where
medical imaging comes in.
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This is where my own work comes in.
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And so to give you a sense
of the best medical imaging
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that's offered today
to brain cancer patients,
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or actually generally
to all cancer patients,
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take a look at this PET scan right here.
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Let's see. There we go.
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So this is a PET/CT scan,
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and what you'll see in this PET/CT scan
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is the CT scan will show you
where the bones are,
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and the PET scan will show you
where tumors are.
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Now, what you can see here
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is essentially a sugar molecule
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that was added a small little tag
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that is signaling to us
outside of the body,
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"Hey, I'm here."
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And those sugar molecules are injected
into these patients by the billions,
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and they're going all over the body
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looking for cells
that are hungry for sugar.
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You'll see that the heart,
for example, lights up there.
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That's because the heart
needs a lot of sugar.
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You'll also see that the bladder
lights up there.
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That's because the bladder
is the thing that's clearing
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the sugar away from our body.
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And then you'll see a few other hot spots,
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and these are in fact the tumors.
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Now, this is a really
a wonderful technology.
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For the first time it allowed us
to look into someone's body
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without picking up
each and every one of the cells
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and putting them under the microscope,
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but in a noninvasive way
allowing us to look into someone's body
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and ask, "Hey,
has the cancer metastasized?
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Where is it?"
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And the PET scans here
are showing you very clearly
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where are these hot spots,
where is the tumor.
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So as miraculous as this might seem,
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unfortunately, well, it's not that great.
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You see, those
small little hot spots there.
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Can anyone guess how many cancer cells
are in any one of these tumors?
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So it's about 100 million cancer cells,
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and let me make sure
that this number sunk in.
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In each and every one
of these small little blips
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that you're seeing on the image,
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there needs to be
at least 100 million cancer cells
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in order for it to be detected.
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Now, if that seemed to you
like a very large number,
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it is a very large number.
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This is in fact
an incredibly large number,
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because what we really need
in order to pick up something early enough
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to do something about it,
to do something meaningful about it,
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well, we need to pick up tumors
that are a thousand cells in size,
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and ideally just
a handful of cells in size.
6:11 - 6:13

So we're clearly
pretty far away from this.
6:13 - 6:15

And I remember looking at these numbers
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and being struck by the humonguos
difference
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between where we are today
and where we need to be.
6:21 - 6:24

And saying, I'm an engineer -
it was very early in my career -
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I'm an engineer, let's see
if there's something I can do here.
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I started talking to a lot of surgeons,
radiologists,
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and other types of doctors
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that deal with brain cancer patients,
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because I was really
passionate about brain cancer.
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And I remember talking to them,
and boy, I was just horrified
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at how archaic medicine is today.
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So we're going to play
a little experiment here.
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I'm going to ask each of you
to now play and imagine
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that you are brain surgeons.
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And you guys are now at an operating room,
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and there's a patient in front of you,
6:59 - 7:03

and your task is to make sure
that the tumor is out.
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So you're looking down at the patient,
7:07 - 7:09

the skin and the skull
have already been removed,
7:09 - 7:10

so you're looking at the brain.
7:11 - 7:12

And all you know about this patient
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is that there's a tumor
about the size of a golf ball or so
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in the right frontal lobe
of this person's brain.
7:18 - 7:19

And that's more or less it.
7:19 - 7:22

So you're looking down, and unfortunately
everything looks the same,
7:22 - 7:26

because brain cancer tissue
and healthy brain tissue
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really just look the same.
7:27 - 7:29

And so you're going in with your thumb,
7:29 - 7:31

and you start to press
a little bit on the brain,
7:31 - 7:34

because tumors tend to be
a little harder, stiffer,
7:34 - 7:37

and so you go in and go
a little bit like this and say,
7:37 - 7:39

"It seems like the tumor is right there."
7:39 - 7:41

Then you take out your knife
and start cutting the tumor
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piece by piece by piece,
7:43 - 7:44

and as you're taking the tumor out,
7:44 - 7:46

then you're getting
to a stage where you think,
7:46 - 7:49

"All right, I'm done.
I took out everything."
7:49 - 7:50

And at this stage, if that's --
7:50 - 7:53

so far everything sounded,
like, pretty crazy --
7:53 - 7:57

you're now about to face the most
challenging decision of your life here.
7:57 - 7:58

Because now you need to decide,
7:58 - 8:01

should I stop here
and let this patient go,
8:01 - 8:04

risking that there might be
some leftover cancer cells behind
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that I just couldn't see,
8:06 - 8:08

or should I take away some extra margins,
8:08 - 8:11

typically about an inch or so
around the tumor
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just to be sure that I removed everything?
8:15 - 8:19

So this is not a simple decision to make,
8:20 - 8:22

and unfortunately this is the decision
8:22 - 8:25

that brain cancer surgeons
have to take every single day
8:25 - 8:27

as they're seeing their patients.
8:27 - 8:30

And so I remember talking
to a few friends of mine in the lab,
8:30 - 8:32

and we say, "Boy,
there's got to be a better way."
8:32 - 8:36

But not just like you tell a friend
that there's got to be a better way.
8:36 - 8:38

There's just got to be a better way here.
8:38 - 8:39

This is just incredible.
8:39 - 8:41

And so we looked back.
8:41 - 8:44

Remember those PET scans I told you about,
the sugar and so on.
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We said, hey, how about
instead of using sugar molecules,
8:47 - 8:50

let's maybe take tiny, tiny
little particles made of gold
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and let's program them with some
interesting chemistry around them.
8:54 - 8:56

Let's program them
to look for cancer cells.
8:56 - 8:58

And then we will inject
these gold particles
8:58 - 9:01

into these patients by the billions again,
9:01 - 9:03

and we'll have them go all over the body,
9:03 - 9:05

and just like secret agents, if you will,
9:05 - 9:07

go and walk by
every single cell in our body
9:07 - 9:09

and knock on the door of that cell,
9:09 - 9:12

and ask, "Are you a cancer cell
or are you a healthy cell?
9:12 - 9:14

If you're a healthy cell, we're moving on.
9:14 - 9:17

If you're a cancer cell,
we're sticking in and shining out
9:17 - 9:19

and telling us,
"Hey, look at me, I'm here."
9:19 - 9:21

And they'll do it
through some interesting cameras
9:21 - 9:23

that we developed in the lab.
9:23 - 9:26

And once we see that,
maybe we can guide brain cancer surgeons
9:26 - 9:29

towards taking only the tumor
and leaving the healthy brain alone.
9:30 - 9:33

And so we've tested that,
and boy, this works well.
9:33 - 9:35

So I'm going to show you an example now.
9:35 - 9:36

What you're looking at here
9:37 - 9:40

is an image of a mouse's brain.
9:40 - 9:44

The mouse is fully anestethized,
so it's not feeling anything -
9:44 - 9:46

and we've implanted
into this mouse's brain
9:46 - 9:47

a small little tumor.
9:47 - 9:50

That tumor was taken from
a brain cancer patient
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who donated it.
9:53 - 9:55

And so this tumor is now
growing in this mouse's brain,
9:55 - 9:58

and then we've taken a doctor
and just asked this doctor
9:58 - 10:01

to please operate on the mouse
as if that was a patient,
10:01 - 10:03

and take out piece by piece
out of the tumor,
10:03 - 10:05

and while he's doing that,
10:05 - 10:08

we're going to take images
to see where the gold particles are.
10:08 - 10:10

And so we're going to first start
10:10 - 10:12

by injecting these gold particles
into this mouse,
10:12 - 10:15

and we're going to see
right here at the very left there
10:15 - 10:16

that image at the bottom
10:16 - 10:19

is the image that shows
where the gold particles are.
10:19 - 10:21

The nice thing
is that these gold particles
10:21 - 10:23

actually made it all the way to the tumor,
10:23 - 10:27

and then they shine out and tell us,
"Hey, we're here. Here's the tumor."
10:27 - 10:28

So now we can see the tumor,
10:28 - 10:30

but we're not showing this
to the doctor yet.
10:30 - 10:33

We're asking the doctor,
now please start cutting away the tumor,
10:33 - 10:37

and you'll see here the doctor
just took the first quadrant of the tumor
10:37 - 10:39

and you see that first quadrant
is now missing.
10:39 - 10:42

The doctor then took
the second quadrant, the third,
10:42 - 10:43

and now it appears to be everything.
10:43 - 10:46

And so at this stage,
the doctor came back to us and said,
10:46 - 10:48

"All right, I'm done.
What do you want me to do?
10:48 - 10:50

Should I keep things as they are
10:50 - 10:52

or do you want me to take
some extra margins around?"
10:53 - 10:54

And then we said, "Well, hang on.
10:54 - 10:56

You've missed those two spots."
10:56 - 10:59

And it's extremely hard to see
on the projector, but trust me -
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it's there, some of you might notice -
11:01 - 11:03

there are two small red dots there
11:03 - 11:05

in that area there.
11:05 - 11:08

We told the doctor, "You've missed
those two spots,"
11:08 - 11:10

so rather than taking huge margins around,
11:10 - 11:12

only take out those tiny little areas.
11:12 - 11:14

Take them out,
and then let's take a look."
11:14 - 11:17

And so the doctor took them away,
and lo and behold,
11:18 - 11:20

the cancer is now completely gone.
11:20 - 11:22

Now, the important thing
11:22 - 11:24

is that it's not just
that the cancer is completely gone
11:24 - 11:26

from this person's brain,
11:26 - 11:27

or from this mouse's brain.
11:28 - 11:29

The most important thing
11:29 - 11:32

is that we did not have to take
huge amounts of healthy brain
11:32 - 11:33

in the process.
11:33 - 11:35

And so now we can actually imagine a world
11:36 - 11:39

where doctors and surgeons,
as they take away a tumor,
11:39 - 11:43

they actually know what to take out,
and they no longer have to guess.
11:44 - 11:48

Now, here's why it's extremely important
to take those tiny little leftover tumors.
11:48 - 11:51

Those leftover tumors,
even if it's just a handful of cells,
11:51 - 11:54

they will grow to recur the tumor,
11:54 - 11:56

for the tumor to come back.
11:56 - 11:58

In fact, the reason why 80 to 90 percent
11:58 - 12:00

of those brain cancer surgeries
ultimately fail
12:00 - 12:04

is because of those small little
extra margins that were left positive,
12:04 - 12:06

those small little leftover tumors
that were left there.
12:07 - 12:10

And I think,
where medical imaging is heading to,
12:10 - 12:13

is the ability to look
into the human body
12:13 - 12:17

and actually see each
and every one of these cells separately.
12:17 - 12:19

The ability like this would allow us
12:19 - 12:21

to pick up tumors way early
in the process
12:21 - 12:24

way before it's a hundred million
cells in size,
12:24 - 12:26

so we can actually do something about it.
12:26 - 12:29

An ability to see each and every one
of the cells
12:29 - 12:31

might also allow us to ask
insightful questions.
12:31 - 12:33

So in the lab,
we're now getting to a point
12:33 - 12:36

where we can actually start asking
these cancer cells real questions
12:36 - 12:40

like, for example, are you responding
to the treatment we're giving you or not?
12:40 - 12:43

If you're not, we will know
to stop the treatment right away -
12:43 - 12:45

days into the treatment,
not three months.
12:46 - 12:48

Also for patients like Ehud,
12:48 - 12:52

that are going through these
nasty chemotherapy drugs.
12:53 - 12:57

For them not to suffer through
those horendous side effects of the drugs,
12:57 - 13:00

when drugs are in fact
not even helping them.
13:02 - 13:03

So to be frank here,
13:03 - 13:07

we're pretty far away
from winning the war against cancer,
13:07 - 13:08

just to be realistic.
13:08 - 13:10

But at least I am hopeful
13:10 - 13:14

that we should be able to fight this war
with better medical imaging techniques
13:14 - 13:16

in the way that is not blind.
13:16 - 13:17

Thank you.
13:17 - 13:19

(Applause)

Title:: How we can start winning the war against cancer | Adam de la Zerda | TEDxStanford
Description:: This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx

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Video Language:: English
Team:: closed TED
Project:: TEDxTalks
Duration:: 13:19

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	Ivana Korom edited English subtitles for New imaging lights the way for brain surgeons \| Adam de la Zerda \| TEDxStanford
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How we can start winning the war against cancer | Adam de la Zerda | TEDxStanford

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