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I have a tendency to assume the worst,
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and once in a while,
this habit plays tricks on me.
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For example, if I feel
unexpected pain in my body
-
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that I have not experienced before
and that I cannot attribute,
-
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then all of a sudden, my mind
my turn a tense back into heart disease
-
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or calf muscle pain into ??.
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But so far I haven't been diagnosed
with any deadly or incurable disease.
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Sometimes things just hurt
for no clear reason.
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But not everyone is as lucky as me.
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Every year, more than
50 million people die worldwide.
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Especially in high-income
economies like ours,
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a large fraction of deaths
is caused by slowly progressing diseases:
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heart disease, chronic lung disease,
cancer, Alzheimer's, diabetes,
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just to name a few.
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Now, humanity has made tremendous progress
in diagnosing and treating many of these,
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but we are at stage
where further advancement in health
-
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cannot be achieved only
by developing new treatments,
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and this becomes evident
when we look at one aspect
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that many of these
diseases have in common.
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The probability for successful treatment
-
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strongly depends on
when treatment is started,
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but a disease is typically only detected
once symptoms occur,
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and the problem here is that in fact
many disease can remain asymptomatic,
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hence undetected,
for a long period of time.
-
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Because of this, there is
a persisting need for new ways
-
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of detecting disease at early stage,
way before any symptoms occur.
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In health care, this is called screening,
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and as defined by
the World Health Organization,
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screening is the
presumptive identification
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of unrecognized disease
-
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in an apparently healthy person
-
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by means of tests that can be applied
rapidly and easily.
-
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That's a long definition,
so let me repeat it:
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identification of unrecognized disease
-
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in an apparently healthy person
-
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by means of tests that can be applied
both rapidly and easily.
-
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And I want to put special emphasis
on the words "rapidly" and "easily,"
-
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because many of
the existing screening methods
-
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are exactly the opposite.
-
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And those of you who have gone colonoscopy
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as part of a screening program
for colorectal cancer
-
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will know what I mean.
-
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Obviously, there's a variety
of medical tools available
-
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to perform screening tests.
-
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This ranges from imaging techniques
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such as radiography
or magnetic resonance imaging
-
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to the analysis of blood or tissue.
-
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We have all had such tests.
-
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But there's one medium
that for long has been overlooked,
-
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a medium that is easily accessible,
-
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basically non-depletable,
-
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and it holds tremendous promise
for medical analysis,
-
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and that is our breath.
-
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Human breath is essentially
composed of five components:
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nitrogen, oxygen,
carbon dioxide, water and argon,
-
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but besides these five, there are
hundreds of other components
-
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that are present in very low quantity.
-
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These are called volatile
organic compounds,
-
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and we release hundreds,
even thousands of them,
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every time we exhale.
-
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The analysis of these volatile
organic compounds in our breath
-
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is called breath analysis.
-
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In fact, I believe that many of you
have already experienced breath analysis.
-
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Imagine, you're driving home late at night
-
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when suddenly there's
a friendly police officer
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who asks you kindly but firmly
-
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to pull over and blow
into a device like this one.
-
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This is an alcohol breath tester
-
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that is used to measure
the ethanol concentration in your breath
-
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and determine whether driving
in your condition is a clever idea.
-
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Now I'd say my driving was pretty good,
-
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but let me check.
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(Beep)
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0.0, so nothing to worry about, all fine.
-
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Now, imagine a device like this one
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that does not only measure
alcohol levels in your breath,
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but that detects diseases
-
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like the ones I've shown you
and potentially many more.
-
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The concept of correlating
the smell of a person's breath
-
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with certain medical conditions
-
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in fact dates back to Ancient Greece,
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but only recently, research efforts
on breath analysis have skyrocketed,
-
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and what once was a dream
is now becoming reality.
-
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And let me pull up this list again
that I showed you earlier.
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For the majority of diseases listed here,
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there's substantial scientific evidence
suggesting that the disease
-
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could be detected by breath analysis.
-
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But how does it work exactly?
-
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The essential part is a sensor device
-
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that detects the volatile
organic compounds in our breath.
-
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Simply put, when exposed
to a breath sample,
-
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the sensor outputs a complex signature
-
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that results from the mixture of volatile
organic compounds that we exhale.
-
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Now, this signature represents
a fingerprint of your metabolism,
-
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your microbiome,
-
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and the biochemical processes
that occur in your body.
-
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If you have a disease,
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your organisms will change,
-
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and so will the composition
of your exhaled breath,
-
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and then the only thing that is left to do
-
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is to correlate a certain signature
-
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with the presence or absence
of certain medical conditions.
-
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The technology promises
several undeniable benefits.
-
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Firstly, the sensor can be miniaturized
-
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and integrated into small,
handheld devices
-
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like this alcohol breath tester.
-
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This would allow the test to be used
in many different settings
-
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and even at home,
-
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so that a visit at a doctor's office
-
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is not needed each time
a test shall be performed.
-
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Secondly, breath analysis is non-invasive
-
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and can be as simple as blowing
into an alcohol breath tester.
-
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Such simplicity and ease of use
would reduce patient burden
-
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and provide an incentive
for broad adoption of the technology.
-
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And thirdly, the technology is so flexible
-
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that the same device could be used
-
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to detect a broad range
of medical conditions.
-
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Breath analysis could be used to screen
for multiple diseases at the same time.
-
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Nowadays, each disease typically requires
-
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a different medical tool
to perform a screening test,
-
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but this means you can only find
what you're looking for.
-
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With all of these features,
breath analysis is predestined
-
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to deliver what many traditional
screening tests are lacking,
-
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and most importantly,
all of these features
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should eventually provide us
with a platform for medical analysis
-
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that can operate at attractively
low cost per test.
-
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On the contrary, existing medical tools
-
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often lead to rather high cost per test.
-
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Then, in order to keep costs down,
-
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the number of tests
needs to be restricted,
-
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and this means a) that the tests
can only be performed
-
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on a narrow part of the population,
for example the high-risk population,
-
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and b) that the number of tests per person
needs to be kept at a minimum.
-
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But wouldn't it actually be beneficial
-
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if the test was performed
on a larger group of people
-
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and more often and over a longer period
of time for each individual?
-
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Especially the latter would give access
to something very valuable
-
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that is called longitudinal data.
-
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Longitudinal data is a dataset
that tracks the same patient
-
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over the course of many months or years.
-
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Nowadays, medical decisions
-
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are often based on a limited dataset
-
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where over a glimpse
of a patient's medical history
-
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is available for decision-making.
-
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In such a case,
-
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abnormalities are typically detected
-
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by comparing a patient's health profile
-
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to the average health profile
of a reference population.
-
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Longitudinal data would
open up a new dimension
-
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and allow abnormalities to be detected
-
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based on a patient's own medical history.
-
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This will pave the way
for personalized treatment.
-
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Sounds pretty great, right?
-
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Now you will certainly have a question
-
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that is something like,
-
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"If the technology is as great as he says,
then why aren't they using it today?"
-
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And the only answer I can give you is,
-
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not everything is as easy as it sounds.
-
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There are technical challenges.
-
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For example, there's the need
for extremely reliable sensors
-
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that can detect mixtures
of volatile organic compounds
-
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with sufficient reproducibility.
-
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And another technical challenge is,
-
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how do you sample a person's breath
in a very defined manner
-
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so that the sampling process itself
-
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does not alter the result of the analysis?
-
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And there's the need for data.
-
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Breath analysis needs
to be validated in clinical trials,
-
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and enough data needs to be collected
-
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so that individual conditions
-
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can be measured against baselines.
-
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Breath analysis can only succeed
-
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if a large enough dataset can be generated
-
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and made available for broad use.
-
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If breath analysis
holds up to its promises,
-
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this is a technology
that could truly aid us
-
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to transform our health care system,
-
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transform it from a reactive system
-
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that treatment is triggered
by symptoms of disease
-
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to a proactive system
-
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where disease detection,
diagnosis and treatment
-
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can happen at early stage,
-
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way before any symptoms occur.
-
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Now this brings me to my last point,
and it's a fundamental one.
-
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What exactly is a disease?
-
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Imagine that breath analysis
can be commercialized as I describe it
-
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and early detection becomes routine.
-
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A problem that remains
-
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is in fact a problem that
any screening activity has to face,
-
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because for many diseases,
-
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it is often impossible to predict
with sufficient certainty
-
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whether the disease
would ever cause any symptoms
-
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or put a person's life at risk.
-
Not Synced
This is called overdiagnosis,
-
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and it leads to a dilemma.
-
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If a disease is identified,
-
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you could decide not to treat it
-
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because there's a certain probability
that you would never suffer from it.
-
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But how much would you suffer
-
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just from knowing that you have
a potentially deadly disease?
-
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And wouldn't you actually regret that the
disease was detected in the first place?
-
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Your second option
is to undergo early treatment
-
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with the hope for curing it,
-
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but often this would not
come without side effects.
-
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To be precise,
-
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the bigger problem is not overdiagnosis,
-
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it's overtreatment,
-
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because not every disease
has to be treated immediately
-
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just because a treatment is available.
-
Not Synced
The increasing adoption
of routine screening
-
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will raise the question:
-
Not Synced
what do we call a disease
that can rationalize treatment,
-
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and what is just an abnormality
that should not be a source of concern?
-
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My hopes are that routine screening
using breath analysis
-
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can provide enough data and insight
-
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so that at some point,
we'll be able to break this dilemma
-
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and predict with sufficient certainty
-
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whether and when to treat at early stage.
-
Not Synced
Our breath, and the mixture
of volatile organic compounds
-
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that we exhale,
-
Not Synced
hold tremendous amounts of information
on our physiological condition.
-
Not Synced
With what we know today,
we have only scratched the surface.
-
Not Synced
As we collect more and more data
and breath profiles across the population,
-
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including all varieties of gender,
age, origin and lifestyle,
-
Not Synced
the power of breath analysis
should increase,
-
Not Synced
and eventually breath analysis
should provide us with a powerful tool
-
Not Synced
not only to proactively detect
specific diseases
-
Not Synced
but to predict and
ultimately prevent them,
-
Not Synced
and this should be enough
motivation to embrace
-
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the opportunities and challenges
-
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that breath analysis can provide,
-
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even for people that are not
part-time hypochondriacs like me.
-
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Thank you.
-
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(Applause)
closed TED
