TED2017
David Brenner: A new weapon in the fight against superbugs
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Since the widespread use of antibiotics began in the 1940s, we've tried to develop new drugs faster than bacteria can evolve -- but this strategy isn't working. Drug-resistant bacteria known as superbugs killed nearly 700,000 people last year, and by 2050 that number could be 10 million -- more than cancer kills each year. Can physics help? In a talk from the frontiers of science, radiation scientist David Brenner shares his work studying a potentially life-saving weapon: a wavelength of ultraviolet light known as far-UVC, which can kill superbugs safely, without penetrating our skin. Followed by a Q&A with TED Curator Chris Anderson.
David Brenner - Radiation scientist
We are decidedly losing the war against superbugs, and with a projected annual death toll by 2050 of 10 million people. David Brenner would like to stop that. Full bio
We are decidedly losing the war against superbugs, and with a projected annual death toll by 2050 of 10 million people. David Brenner would like to stop that. Full bio
Double-click the English transcript below to play the video.
00:13
So ... we're in a real live war
at the moment,
at the moment,
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and it's a war that we're truly losing.
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It's a war on superbugs.
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So you might wonder,
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if I'm going to talk about superbugs,
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why I'm showing you a photograph
of some soccer fans --
of some soccer fans --
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Liverpool soccer fans
celebrating a famous victory
celebrating a famous victory
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in Istanbul, a decade ago.
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In the back, in the red shirt,
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well, that's me,
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and next to me in the red hat,
that's my friend Paul Rice.
that's my friend Paul Rice.
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So a couple of years
after this picture was taken,
after this picture was taken,
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Paul went into hospital
for some minor surgery,
for some minor surgery,
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and he developed
a superbug-related infection,
a superbug-related infection,
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and he died.
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And I was truly shocked.
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He was a healthy guy in the prime of life.
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So there and then,
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and actually with a lot of encouragement
from a couple of TEDsters,
from a couple of TEDsters,
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I declared my own
personal war on superbugs.
personal war on superbugs.
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So let's talk about superbugs
for a moment.
for a moment.
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The story actually starts in the 1940s
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with the widespread
introduction of antibiotics.
introduction of antibiotics.
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And since then,
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drug-resistant bacteria
have continued to emerge,
have continued to emerge,
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and so we've been forced to develop
newer and newer drugs
newer and newer drugs
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to fight these new bacteria.
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And this vicious cycle
actually is the origin of superbugs,
actually is the origin of superbugs,
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which is simply bacteria
for which we don't have effective drugs.
for which we don't have effective drugs.
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I'm sure you'll recognize
at least some of these superbugs.
at least some of these superbugs.
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These are the more
common ones around today.
common ones around today.
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Last year, around 700,000 people died
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from superbug-related diseases.
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Looking to the future,
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if we carry on on the path we're going,
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which is basically a drugs-based
approach to the problem,
approach to the problem,
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the best estimate
by the middle of this century
by the middle of this century
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is that the worldwide death toll
from superbugs will be 10 million.
from superbugs will be 10 million.
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10 million.
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Just to put that in context,
that's actually more
that's actually more
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than the number of people
that died of cancer worldwide last year.
that died of cancer worldwide last year.
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So it seems pretty clear
that we're not on a good road,
that we're not on a good road,
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and the drugs-based approach
to this problem is not working.
to this problem is not working.
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I'm a physicist,
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and so I wondered, could we take
a physics-based approach --
a physics-based approach --
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a different approach to this problem.
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And in that context,
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the first thing we know for sure,
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is that we actually know how to kill
every kind of microbe,
every kind of microbe,
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every kind of virus,
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every kind of bacteria.
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And that's with ultraviolet light.
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We've actually known this
for more than 100 years.
for more than 100 years.
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I think you all know
what ultraviolet light is.
what ultraviolet light is.
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It's part of a spectrum
that includes infrared,
that includes infrared,
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it includes visible light,
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and the short-wavelength part
of this group is ultraviolet light.
of this group is ultraviolet light.
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The key thing from our perspective here
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is that ultraviolet light kills bacteria
by a completely different mechanism
by a completely different mechanism
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from the way drugs kill bacteria.
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So ultraviolet light is just as capable
of killing a drug-resistant bacteria
of killing a drug-resistant bacteria
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as any other bacteria,
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and because ultraviolet light
is so good at killing all bugs,
is so good at killing all bugs,
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it's actually used a lot these days
to sterilize rooms,
to sterilize rooms,
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sterilize working surfaces.
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What you see here is a surgical theater
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being sterilized with germicidal
ultraviolet light.
ultraviolet light.
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But what you don't see
in this picture, actually,
in this picture, actually,
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is any people,
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and there's a very good reason for that.
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Ultraviolet light
is actually a health hazard,
is actually a health hazard,
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so it can damage cells in our skin,
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cause skin cancer,
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it can damage cells in our eye,
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cause eye diseases like cataract.
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So you can't use conventional,
germicidal, ultraviolet light
germicidal, ultraviolet light
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when there are people are around.
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And of course,
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we want to sterilize mostly
when there are people around.
when there are people around.
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So the ideal ultraviolet light
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would actually be able
to kill all bacteria,
to kill all bacteria,
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including superbugs,
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but would be safe for human exposure.
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And actually that's where my physics
background kicked into this story.
background kicked into this story.
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Together with my physics colleagues,
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we realized there actually is a particular
wavelength of ultraviolet light
wavelength of ultraviolet light
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that should kill all bacteria,
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but should be safe for human exposure.
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That wavelength is called far-UVC light,
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and it's just the short-wavelength part
of the ultraviolet spectrum.
of the ultraviolet spectrum.
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So let's see how that would work.
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What you're seeing here
is the surface of our skin,
is the surface of our skin,
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and I'm going to superimpose on that
some bacteria in the air above the skin.
some bacteria in the air above the skin.
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Now we're going to see what happens
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when conventional, germicidal,
ultraviolet light impinges on this.
ultraviolet light impinges on this.
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So what you see is,
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as we know, germicidal light
is really good at killing bacteria,
is really good at killing bacteria,
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but what you also see
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is that it penetrates
into the upper layers of our skin,
into the upper layers of our skin,
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and it can damage
those key cells in our skin
those key cells in our skin
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which ultimately, when damaged,
can lead to skin cancer.
can lead to skin cancer.
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So let's compare now with far-UVC light --
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same situation,
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skin and some bacteria
in the air above them.
in the air above them.
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So what you're seeing now
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is that again, far-UVC light's
perfectly fine at killing bacteria,
perfectly fine at killing bacteria,
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but what far-UVC light can't do
is penetrate into our skin.
is penetrate into our skin.
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And there's a good,
solid physics reason for that:
solid physics reason for that:
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far-UVC light is incredibly, strongly
absorbed by all biological materials,
absorbed by all biological materials,
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so it simply can't go very far.
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Now, viruses and bacteria
are really, really, really small,
are really, really, really small,
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so the far-UVC light can certainly
penetrate them and kill them,
penetrate them and kill them,
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but what it can't do
is penetrate into skin,
is penetrate into skin,
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and it can't even penetrate
the dead-cell area
the dead-cell area
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right at the very surface of our skin.
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So far-UVC light
should be able to kill bacteria,
should be able to kill bacteria,
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but kill them safely.
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So that's the theory.
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It should work, should be safe.
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What about in practice?
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Does it really work?
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Is it really safe?
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So that's actually what our lab
has been working on
has been working on
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the past five or six years,
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and I'm delighted to say the answer
to both these questions
to both these questions
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is an emphatic yes.
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Yes, it does work,
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but yes, it is safe.
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So I'm delighted to say that,
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but actually I'm not very
surprised to say that,
surprised to say that,
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because it's purely the laws
of physics at work.
of physics at work.
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So let's look to the future.
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I'm thrilled that we now have
a completely new weapon,
a completely new weapon,
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and I should say an inexpensive weapon,
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in our fight against superbugs.
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For example,
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I see far-UVC lights in surgical theaters.
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I see far-UVC lights
in food preparation areas.
in food preparation areas.
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And in terms of preventing
the spread of viruses,
the spread of viruses,
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I see far-UVC lights in schools,
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preventing the spread of influenza,
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preventing the spread of measles,
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and I see far-UVC lights
in airports or airplanes,
in airports or airplanes,
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preventing the global spread
of viruses like H1N1 virus.
of viruses like H1N1 virus.
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So back to my friend Paul Rice.
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He was actually a well-known
and well-loved local politician
and well-loved local politician
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in his and my hometown of Liverpool,
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and they put up a statue in his memory
in the center of Liverpool,
in the center of Liverpool,
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and there it is.
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But me,
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I want Paul's legacy to be a major advance
in this war against superbugs.
in this war against superbugs.
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Armed with the power of light,
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that's actually within our grasp.
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Thank you.
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08:26
(Applause)
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08:31
Chris Anderson: Stay up here, David,
I've got a question for you.
I've got a question for you.
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(Applause)
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David, tell us where you're up to
in developing this,
in developing this,
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and what are the remaining obstacles
to trying to roll out
to trying to roll out
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and realize this dream?
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David Brenner: Well, I think we now know
that it kills all bacteria,
that it kills all bacteria,
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but we sort of knew
that before we started,
that before we started,
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but we certainly tested that.
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So we have to do lots and lots
of tests about safety,
of tests about safety,
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and so it's more about safety
than it is about efficacy.
than it is about efficacy.
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And we need to do short-term tests,
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and we need to do long-term tests
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to make sure you can't develop
melanoma many years on.
melanoma many years on.
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So those studies
are pretty well done at this point.
are pretty well done at this point.
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The FDA of course is something
we have to deal with,
we have to deal with,
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and rightly so,
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because we certainly can't use this
in the real world without FDA approval.
in the real world without FDA approval.
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CA: Are you trying
to launch first in the US,
to launch first in the US,
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or somewhere else?
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DB: Actually, in a couple of countries.
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In Japan and in the US, both.
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CA: Have you been able to persuade
biologists, doctors,
biologists, doctors,
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that this is a safe approach?
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DB: Well, as you can imagine,
there is a certain skepticism
there is a certain skepticism
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because everybody knows
that UV light is not safe.
that UV light is not safe.
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So when somebody comes along and says,
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"Well, this particular UV light is safe,"
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there is a barrier to be crossed,
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but the data are there,
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and I think that's what
we're going to be standing on.
we're going to be standing on.
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CA: Well, we wish you well.
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This is potentially such important work.
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Thank you so much
for sharing this with us.
for sharing this with us.
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Thank you, David.
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(Applause)
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ABOUT THE SPEAKER
David Brenner - Radiation scientistWe are decidedly losing the war against superbugs, and with a projected annual death toll by 2050 of 10 million people. David Brenner would like to stop that.
Why you should listen
David Brenner directs the Center for Radiological Research at Columbia University Medical Center in New York City and has numerous distinctions within his field such as the Oxford University Weldon Prize and the Radiation Research Society Failla Gold Medal Award. Founded by a student of Marie Curie more than a century ago, the Center for Radiological Research is committed to exploiting all forms of radiation to improve medical care.
As Brenner sees it, radiation is very much a two-edged sword -- used in the right way it has revolutionized modern medicine, such as through CT scans and as a cure for many cancers. But radiation used in the wrong way can be harmful. To maximize the benefits of the many different types of radiation, we need to understand exactly how they affect us, from our DNA to the whole person.
Over the past six years, Brenner and his team have applied this idea in working towards a safe way to kill drug-resistant bacteria such as MRSA, as well as airborne microbes such as influenza and TB, using a unique type of ultra-violet light, known as far-UVC.
In short, it is pure physics -- far-UVC light is safe for us because it cannot even penetrate through the dead-cell layer on the surface of our skin or the tear layer on the surface of our eyes. But because bacteria and viruses are physically very small, far-UVC light does have enough penetration to efficiently kill them.
Brenner envisions a wide range of applications for this new weapon in the war against superbugs, such as in operating rooms during surgery to minimize the risk of surgical site infections, in schools to prevent the spread of influenza or measles, in shelters to prevent the spread of TB, or in airplanes and airports to prevent the global spread of viruses like H1N1.
David Brenner | Speaker | TED.com