-
Thank you very much.
-
Well, I would like
to start with testicles.
-
(Laughter)
-
Men who sleep five hours a night
-
have significantly smaller testicles
than those who sleep seven hours or more.
-
(Laughter)
-
In addition, men who routinely sleep
just four to five hours a night
-
will have a level of testosterone
-
which is that of someone
10 years their senior.
-
So a lack of sleep
will age a man by a decade
-
in terms of that
critical aspect of wellness.
-
And we see equivalent impairments
in female reproductive health
-
caused by a lack of sleep.
-
This is the best news
that I have for you today.
-
(Laughter)
-
From this point, it may only get worse.
-
Not only will I tell you
about the wonderfully good things
-
that happen when you get sleep
-
but the alarmingly bad things
that happen when you don't get enough,
-
both for your brain and for your body.
-
Let me start with the brain
-
and the functions of learning and memory,
-
because what we've discovered
over the past 10 or so years
-
is that you need sleep after learning
-
to essentially hit the save button
on those new memories
-
so that you don't forget.
-
But recently we discovered
-
that you also need sleep before learning,
-
and now to actually prepare your brain,
-
almost like a dry sponge
-
ready to initially soak up
new information.
-
And without sleep,
the memory circuits of the brain
-
essentially become waterlogged,
-
as it were,
-
and you can't absorb new memories.
-
So let me show you the data.
-
Here in this study, we decided
to test the hypothesis
-
that pulling the all-nighter
was a good idea.
-
So we took a group of individuals
-
and we assigned them
to one of two experimental groups:
-
a sleep group,
-
and a sleep deprivation group.
-
Now, the sleep group, they're going to get
a full eight hours of slumber,
-
but the deprivation group,
we're going to keep them awake
-
in the laboratory under full supervision.
-
There's no naps or caffeine, by the way,
so it's miserable for everyone involved.
-
And then the next day
we're going to place those participants
-
inside an MRI scanner
-
and we're going to have them
try and learn a whole list of new facts
-
as we're taking snapshots
of brain activity,
-
and then we're going to test them
-
to see how effective
that learning has been.
-
And that's what you're looking at
here on the vertical axis.
-
And when you put
those two groups head to head,
-
what you find is a quite significant
40 percent deficit
-
in the ability of the brain
to make new memories without sleep.
-
I think this should be concerning,
-
considering what we know
is happening to sleep
-
in our education populations right now.
-
In fact, to put that in context,
-
it would be the difference
in a child acing an exam
-
versus failing it miserably,
-
40 percent.
-
And we've gone on to discover
-
what goes wrong within your brain
-
to produce these types
of learning disabilities.
-
And there's a structure that sits
-
on the left and the right side
of your brain called the hippocampus.
-
And you can think of the hippocampus
-
almost like the informational
inbox of your brain.
-
It's very good at receiving
new memory files
-
and then holding onto them.
-
And when you look at this structure
-
in those people who had had
a full night of sleep,
-
we saw lots of healthy
learning-related activity.
-
Yet in those people
who were sleep-deprived,
-
we actually couldn't find
any significant signal whatsoever.
-
So it's almost as though sleep deprivation
-
had shut down your memory inbox
-
and any new incoming files,
they were just being bounced.
-
You couldn't effectively
commit new experiences to memory.
-
So that's the bad that can happen
if I were to take sleep away from you,
-
but let me just come back
to that control group for a second.
-
Do you remember those folks
that got the full eight hours of sleep?
-
Well, we can ask
a very different question:
-
what is it about the physiological
quality of your sleep
-
when you do get it
-
that restores and enhances
your memory and learning ability
-
each and every day?
-
And by placing electrodes
all over the head,
-
what we've discovered is that
there are big powerful brainwaves
-
that happen during
the very deepest stages of sleep
-
that have riding on top of them
-
these spectacular bursts
of electrical activity
-
that we call sleep spindles.
-
And it's the combined quality
of these deep sleep brainwaves
-
that acts like a file transfer
mechanism at night,
-
shifting memories from a short-term
vulnerable reservoir
-
to a more permanent long-term
storage site within the brain,
-
and therefore protecting them,
-
making them safe.
-
And it is important that
we understand what during sleep
-
actually transacts these memory benefits,
-
because there are real medical
and societal implications.
-
And let me just tell you about one area
that we've worked out into clinically,
-
which is the context of aging
-
and dementia.
-
Because, it's of course no secret
that, as we get older,
-
our learning and memory abilities
begin to fade and decline.
-
But what we've also discovered
-
is that a physiological signature of aging
-
is that your sleep gets worse,
-
especially that deep quality of sleep
that I was just discussing.
-
And only last year,
we finally published evidence
-
that these two things,
they're not simply co-occurring,
-
they are significantly interrelated.
-
And it suggests that
the disruption of deep sleep
-
is an under-appreciated factor
-
that is contributing
to cognitive decline or memory decline
-
in aging, and most recently
we've discovered,
-
in Alzheimer's disease as well.
-
Now, I know this is
remarkably depressing news.
-
It's in the mail. It's coming at you.
-
But there's a potential
silver lining here.
-
Unlikely many of the other factors
that we know are associated with aging,
-
for example changes in
the physical structure of the brain,
-
that's fiendishly difficult to treat,
-
but that sleep is a missing piece
in the explanatory puzzle
-
of aging and Alzheimer's is exciting
-
because we may be able
to do something about it.
-
And one way that we are
approaching this at my sleep center
-
is not by using
sleeping pills, by the way.
-
Unfortunately, they are blunt instruments
that do not produce naturalistic sleep.
-
Instead, we are actually developing
a method based on this.
-
It's called direct current
brain stimulation.
-
You insert a small amount
of voltage into the brain,
-
so small you typically don't feel it,
-
but it has a measurable impact.
-
Now, if you apply this stimulation
during sleep in young, healthy adults,
-
as if you're sort of singing in time
-
with those deep sleep brainwaves,
-
not only can you amplify
the size of those deep sleep brainwaves,
-
but in doing so, we can almost
double the amount of memory benefit
-
that you get from sleep.
-
The question now
is whether we can translate
-
this same affordable,
-
potentially portable piece of technology
-
into older adults
-
and those with dementia.
-
Can we restore back
some healthy quality of deep sleep,
-
and in doing so can we salvage
aspects of their learning
-
and memory function?
-
That is my real hope now.
-
That's one of our moonshot goals,
-
as it were.
-
So that's an example
of sleep for your brain,
-
but sleep is just
as essential for your body.
-
We've already spoken about sleep loss
-
and your reproductive system.
-
Or, I could tell you about sleep loss
-
and your cardiovascular system,
-
and that all it takes is one hour,
-
because there is a global experiment
performed on 1.6 billion people
-
across 70 countries twice a year,
-
and it's called Daylight Savings Time.
-
Now, in the spring when we lose
one hour of sleep,
-
we see a subsequent 24 percent increase
-
in heart attacks that following day.
-
In the autumn, when we gain
an hour of sleep,
-
we see a 21 percent
reduction in heart attacks.
-
Isn't that incredible?
-
And you see exactly the same profile
-
for car crashes, road traffic accidents,
-
even suicide rates.
-
But as a deeper dive,
I want to focus on this:
-
sleep loss and your immune system.
-
And here, I'll introduce these delightful
blue elements in the image.
-
They are called natural killer cells,
-
and you can think of natural killer cells
-
almost like the secret service agents
of your immune system.
-
They are very good at identifying
dangerous, unwanted elements
-
and eliminating them.
-
In fact, what they're doing here
is destroying a cancerous tumor mass.
-
So what you wish for
-
is a virile set of these immune assassins
-
at all times,
-
and tragically that's what you don't have
-
if you're not sleeping enough.
-
So here in this experiment,
-
you're not going to have your sleep
deprived for an entire night,
-
you're simply going to have your sleep
restricted to four hours
-
for one single night,
-
and then we're going to look to see
what's the percent reduction
-
in immune cell activity that you suffer.
-
And it's not small.
-
It's not 10 percent.
-
It's not 20 percent.
-
It was a 70 percent drop
in natural killer cell activity.
-
That's a concerning
state of immune deficiency,
-
and you can perhaps understand
why we're now finding
-
significant links between
short sleep duration
-
and your risk for the development
of numerous forms of cancer.
-
Currently, that list includes
cancer of the bowel,
-
cancer of the prostate,
and cancer of the breast.
-
In fact, the link between a lack of sleep
and cancer is now so strong
-
that the World Health Organization
-
has classified any form
of nighttime shift work
-
as a probable carcinogen
-
because of a disruption
of your sleep-wake rhythms.
-
So you may have heard of that old maxim
-
that you can sleep when you're dead.
-
Well, I'm being quite serious now.
-
It is mortally unwise advice.
-
We know this from epidemiological studies
across millions of individuals.
-
There's a simple truth:
-
the short your sleep,
the shorter your life.
-
Short sleep predicts all cause mortality.
-
And if increasing your risk
for the development of cancer
-
or even Alzheimer's disease
-
were not sufficiently disquieting,
-
we have since discovered
that a lack of sleep will even erode
-
the very fabric of biological life itself,
-
your DNA genetic code.
-
So here in this study,
-
they took a group of healthy adults
-
and they limited them
to six hours of sleep a night
-
for one week,
-
and then they measured the change
in their gene activity profile
-
relative to when those same individuals
-
were getting a full eight hours
of sleep a night.
-
And there were two critical findings.
-
First, a sizable and significant
711 genes were distorted in their activity
-
caused by a lack of sleep.
-
The second result was that
about half of those genes
-
were actually increased in their activity.
-
The other half were decreased.
-
Now, those genes that were
switched off by a lack of sleep
-
were genes associated
with your immune system,
-
so once again you can see
that immune deficiency.
-
In contrast, those genes
that were actually up-regulated,
-
or increased by way of a lack of sleep,
-
were genes associated
with the promotion of tumors,
-
genes associated with long-term
chronic inflammation within the body,
-
and genes associated with stress,
-
and, as a consequence,
cardiovascular disease.
-
There is simply no aspect of your wellness
-
that can retreat at the sign
of sleep deprivation
-
and get away unscathed.
-
It's rather like a broken
water pipe in your home.
-
Sleep loss will leak down
into every nook and cranny
-
of your physiology,
-
even tampering with
the very DNA nucleic alphabet
-
that spells out
your daily health narrative.
-
And at this point, you may be thinking,
-
oh my goodness,
-
how do I start to get better sleep?
-
What are you tips for good sleep?
-
Well, beyond avoiding
the damaging and harmful impact
-
of alcohol and caffeine on sleep,
-
and if you're struggling
with sleep at night,
-
avoiding naps during the day,
-
I have two pieces of advice for you.
-
The first is regularity.
-
Go to bed at the same time,
wake up at the same time,
-
no matter whether it's
the weekday or the weekend.
-
Regularity is king,
-
and it will anchor your sleep
-
and improve the quantity
and the quality of that sleep.
-
The second is keep it cool.
-
Your body needs to drop
its core temperature
-
by about two to three degrees
Fahrenheit to initiate sleep
-
and then to stay asleep,
-
and it's the reason
you will always find it easier
-
to fall asleep in a room that's too cold
-
than too hot.
-
So aim for a bedroom temperature
of around 65 degrees,
-
or about 18 degrees Celsius.
-
That's going to be optimal
for the sleep of most people.
-
And then finally,
in taking a step back then,
-
what is the mission critical
statement here?
-
Well, I think it may be this:
-
sleep, unfortunately,
is not an optional lifestyle luxury.
-
Sleep is a non-negotiable
biological necessity.
-
It is your life support system,
-
and it is Mother Nature's best effort yet
-
at immortality.
-
And the decimation of sleep
-
throughout industrialized nations
-
is having a catastrophic impact
on our health, our wellness,
-
even the safety and
the education of our children.
-
It's a silent sleep loss epidemic,
-
and it is fast becoming one of
the greatest public health challenges
-
that we face in the 21st century.
-
I believe it is now time for us
to reclaim our right
-
to a full night of sleep,
-
and without embarrassment
-
or that unfortunate stigma of laziness.
-
And in doing so, we can be reunited
-
with the most powerful elixir of life,
-
the Swiss army knife
of health, as it were.
-
And with that soapbox rant over,
I will simply say, good night, good luck,
-
and above all,
-
I do hope you sleep well.
-
Thank you very much indeed.
-
(Applause)
-
Thank you.
-
Thank you so much.
-
Moderator: No, no, no.
Stay there for a second.
-
Good job not running away, though.
I appreciate that.
-
So that was terrifying.
-
Matt Walker: You're welcome.
Moderator: Yes, thank you, thank you.
-
Since we can't catch up on sleep,
-
what are we supposed to do?
-
What do we do when we're, like,
tossing and turning in bed late at night
-
or doing shift work or whatever else?
-
MW: So you're right,
we can't catch up on sleep.
-
Sleep is not like the bank.
-
You can't accumulate a debt
-
and then hope to pay it off
at a later point in time.
-
I should also note that the reason
it's so catastrophic
-
and that our health
deteriorates so quickly,
-
first it's because human beings
are the only species
-
that deliberately deprive
themselves of sleep
-
for no apparent reason.
-
Moderator: Because we're smart.
-
MW: And I make that point because
what it means is that Mother Nature,
-
throughout the course of evolution,
-
has never had to face the challenge
of this thing called sleep deprivation.
-
So she's never developed a safety net,
-
and that's why when you under-sleep
-
things just sort of implode so quickly,
both within the brain and the body.
-
So you just have to prioritize.
-
Moderator. OK. So,
but tossing and turning in bed,
-
what do I do?
-
MW: So if you are staying in bed
awake for too long,
-
you should get out of bed
and go to a different room
-
and do something different.
-
The reason is because your brain
will very quickly associate your bedroom
-
with the place of wakefulness,
-
and you need to break that association.
-
So only return to bed when you are sleepy,
-
and that way you will re-learn
the association that you once had,
-
which is your bed is the place of sleep.
-
So the analogy would be,
-
you'd never sit at the dinner table
-
waiting to get hungry,
-
so why would you lie in bed
waiting to get sleepy?
-
Moderator: All right.
Well, thank you for that wake-up call.
-
Great job, Matt.
-
MW: You're very welcome.
Thank you very much.
-
(Applause)
closed TED
