ZOE Science & Nutrition - The secrets of good sleep
Episode Date: December 8, 2022We all know how good it feels to drift into deep sleep and wake up feeling refreshed. The positive effects of a good night’s sleep affect every aspect of our lives. We feel energetic, focused, and... ready to take on the day’s challenges.  But the long-term effects of bad sleep are less known. It turns out, they have a huge impact on our health and even how long we live.  In this episode, Jonathan speaks with Prof. Matthew Walker to learn what the latest science says about improving our sleep — to give us more energy and better health. They also discuss whether how we sleep changes how our bodies respond to food. Matthew Walker is a sleep expert, a professor of neuroscience at UC Berkeley, and founder of the Center for Human Sleep Science. He’s also the author of Why We Sleep. Matt and his team are currently working with ZOE scientists to research the links between sleep, nutrition, and health. Download our FREE guide — Top 10 Tips to Live Healthier: https://zoe.com/freeguide Timecodes: 00:00 - Intro 00:33 - Episode start 01:22 - Quickfire questions 02:48 - What’s the biggest myth about sleep» 04:09 - What is sleep? 07:46 - Why do we sleep? 10:29 - REM 14:22 - How does Matt study sleep? 16:18 - What happens when you don’t get enough sleep? 22:48 - Collaboration with ZOE 28:16 - Sleep and menopause 32:38 - Tips on how to sleep better 33:23 - Sleep regularity 35:12 - How do you find out about your chronotype? 37:20 - Bedroom temperature 38:04 - Lighting 39:04 - Caffeine and Alcohol effects on sleep 44:22 - Making your room like a cave 44:57 - The influence of screens on your sleep 47:03 - Summary 48:14 - Goodbyes 48:35 - Outro Get Matt’s book here. Listen to Matt’s podcast here. 'How people wake up is associated with previous night’s sleep together with physical activity and food intake' - Read the paper: here. Find out your chronotype here. Follow ZOE on Instagram: https://www.instagram.com/zoe/ This podcast was produced by Fascinate Productions.
Transcript
Discussion (0)
Welcome to ZOE Science and Nutrition,
where world-leading scientists explain how their research can improve your health.
We all know how good it feels to drift into deep sleep, to explore the land of dreams,
take stock of the day's experiences, and wake up refreshed.
The positive effects of a good night's sleep stretch into every aspect of our lives.
We feel energetic, focused, and ready to take on the day's challenges.
But the long-term effects of bad sleep are less known.
And it turns out they have a huge impact on our health
and even how long we live.
Alzheimer's, cancer, obesity, and diabetes
are all linked to poor sleep.
So what does the latest science tell us
about how we can improve our sleep
to give us more energy and better health?
And is it true that how we sleep changes
how our body responds to health? And is it true that how we sleep changes how our body responds to food?
To find out, we're joined by sleep expert Matthew Walker, professor of neuroscience
at UC Berkeley and founder of the Center for Human Sleep Science. Matt and his team are
currently working with ZOE scientists to research the link between sleep nutrition and
health the first scientific paper from our work together has just been published by nature
communications explaining why you feel energetic or tired when you wake up you can find the link
in our show notes matt's best-selling book why we sleep transformed my own attitude to sleep
five years later i still follow much of his
guidance. I hope you will find Matt's actionable advice as powerful as I have.
Thank you for joining me today. I really enjoyed your book, Why We Sleep, which I first read quite
a few years ago now when it first came out. And I have to admit, I am not sure I said this to you before, but I drove my wife
crazy turning our bedroom into a cave afterwards.
So she definitely knows who you are, even though she hasn't yet met.
Probably for all the wrong reasons, but at least I anoint you as a sleep
ambassador for what you've been doing, Jonathan.
Well, thank you.
I think, uh, as always, it's a bit like with Zoe in nutrition.
You know, I nagged her so long about this and then eventually gets into it and then
she becomes more obsessive than me.
So she's on that path with sleep.
But anyway, look, it's great to have you here talking about sleep, both your research and
I think we're also going to touch on some of the research that you're working on together
with Zoe.
Now, we have a sort of tradition here on the podcast.
We always like to start with a quick fire round of questions from our listeners.
And the rules are really simple. You can say yes or no, or a one sentence answer, but no more.
And we know that scientists always find this challenging. So are you ready for me to kick off?
I'm ready for the challenge.
All right. So first question, can bad sleep kill? Yes. In multiple different
ways through multiple different diseases. I know we're going to talk more about that. Okay.
Is it more important to exercise than to sleep? Well, I would say sleep is the foundation on which
exercise and nutrition sits. It's not a third pillar. It's the foundation for those two other
things. And I'm guessing that the people listening to this call waking up at five in the morning to
exercise, we'll talk a little bit about whether that's a good idea. I think we will. All right.
Is a short nap in the day okay? Mostly yes. If you're suffering from insomnia, no.
Can what we eat affect how we sleep?
Matt Levin Yes.
Matt Levin I have a small child, Matt. I get woken up in the night. Is my health doomed?
Matt Levin No. Simply get sleep whenever you can get it across the day or the night during that time period of ownership of a young one. All right. That's great advice, which also sometimes is
hard to follow. So Matt, what's the biggest myth about sleep that most people still believe?
There are so many myths, but I think one of the fun myths that has been busted is that counting
sheep will help you fall asleep. And there's a great study done here at UC Berkeley,
and it wasn't done by me, it was done by a colleague of mine.
And what they found is that counting sheep
not only didn't make you fall asleep any faster,
it actually took you longer to fall asleep
when you were counting sheep.
But what they did find was something interesting.
There is an alternative mental strategy.
That strategy is taking yourself on a mental walk. And so think about a walk that you know really well,
maybe it's a walk in the woods or in the forest or a hike or a walk on the beach.
And then try to really visualize that to the point of, this is me leaving my front door.
I'm walking down the steps.
Off I go.
And if you do it in granular detail and move yourself through it, the next thing you remember is your alarm going off the next morning because you've fallen asleep.
And it seems to be a quite effective tool.
So that's one of the many, many myths that we can bust regarding sleep.
Brilliant. Thank you, Matt. And why don't we actually just start right at the beginning
there about what is sleep? And I know it sounds like a sort of crazy question, right? Because we
all sleep. I think it remains sort of one of the more mysterious key activities that happen
in a human being. So could you just sort of kick off with us there? Yeah, it's bloody bizarre, isn't it?
I mean, you know, we close our eyes and then we think that we essentially lose consciousness and
that our body just lies dormant. And then seven to nine hours later, we wake up. Now, that is so understandable. And if I didn't know what I
know about sleep, I would think the same. And as a consequence, I perhaps would say, well,
look, what's the big deal of losing 30 minutes or an hour here or there, you know, or just going
down to six hours because I'm a busy person or five and a half hours because really
I'm just missing out on my body, getting some rest and my mind is not really doing much.
Nothing further from the truth is the actual fact of it. Your brain is incredibly active
during stages of sleep. In fact, during some stages, it's up to 30% more active than when you're awake.
More than 30% active than when I'm awake. That's crazy.
Yeah. In some parts of your brain are 30% more active in some stages of sleep than when you're
awake. And then downstairs in your body, there is a radical overhaul. It's like hitting the reset button on your wifi router, but it just takes seven to nine
hours to do. And let me just take a step back though, because I haven't really answered your
question, what is sleep? Sleep in human beings, in fact, in all mammalian species is separated
into two main types. On the one hand, we have something called non-rapid eye movement sleep,
non-REM sleep. On the other hand, we have something called non-rapid eye movement sleep, non-REM sleep.
On the other hand, we have rapid eye movement sleep or REM sleep.
And REM sleep is the principal stage in which we dream.
Now, it turns out that non-REM sleep is further subdivided into four separate sub-stages that are unimaginatively called stages one through four, increasing in their depth.
So stages three and four, that's the deep sleep that we discuss. And then stages one and two of
non-REM, that's light sleep. So you may have seen this in some of your sleep trackers where it says,
were you awake in light sleep, deep sleep, or REM sleep? Now, those two types of sleep,
non-REM and REM, will end up playing out in a battle for brain domination throughout the night.
And that cerebral war is going to be won and lost every 90 minutes and then replayed every 90 minutes, creating the standard 90-minute
cycling architecture of human sleep on average in most people. What's interesting, however,
is that the balance, the cocktail mixer distribution of non-REM and REM within those
90-minute cycles changes as you move across the night. What I mean by that is
in the first half of your night, the majority of those 90-minute cycles is comprised of lots of
deep non-REM sleep and very little REM sleep. But when you push through to the second half of the
night, now that shifts. And instead, you get much more REM sleep and very little deep sleep.
And Matt, what's all of this for? So, I mean, we definitely get a picture that
it's a lot more complex than I guess most of us imagine, which is I always sort of felt,
oh, you go to sleep, you wake up, it's sort of annoying, right? Like all those hours when you
could do something better. I think you're starting to paint this picture of a lot of complexity.
Why is any of this happening?
Learning, memory, emotional brain regulation, brain plasticity, downstairs in the body,
an overhaul of your cardiovascular system, a replenishing of your immune system, a re-regulation
of all of your hormonal systems.
In fact, 50 years ago, we used to ask the question,
why do we sleep? And the crass answer at the time was that we sleep to cure sleepiness,
which tells you nothing about the meaningfulness of sleep. Now, 50 years later, we've had to upend
the question. We now have to ask, is there any major operation of your brain or is there any major physiological system in your body that isn't wonderfully enhanced when you get sleep or demonstrably impaired when you don't get enough?
And so far, the answer seems to be no.
That's amazing.
And so how does that tie in?
You're describing these different stages. Are they linked to particular elements of the way in which sleep is sort of creating all of these
benefits for us? Very much so. So what we've learned is that all of those stages, even some
of the light forms of non-REM sleep, all of those stages of sleep are important. And so sometimes
people will come up to me and say, how do I get more
deep sleep? Or how do I get more REM sleep? And my question to them usually is, why do you want
to get more REM sleep or deep sleep? And they'll say, well, isn't that the good stuff? And it turns
out that it's all good stuff. It's just that different stages of sleep will do different things for your brain and your body
at different times of night.
And we can't shortchange the brain on any one of those stages without suffering some
kind of deleterious impairment.
So you need all of these different stages that you're describing because they're each
doing different things for both our mind and sort of the rest of our body.
Is that what you're saying, Matt? Correct. And when you think about it from
an evolutionary perspective, of course, that must be the case because when we're asleep,
sleep is the most idiotic of all inventions because when you're asleep, you're not finding
a mate, you're not finding food, you're not reproducing, you're not caring for your young,
and worse, you're vulnerable to predation. Yeah, no, I hadn't really thought about it that much, but you're right. Of course,
being asleep is a terrible place to be, isn't it? And Matt, do we understand
what is going on in this REM stage?
We do. REM sleep is associated with dreaming, but dreaming may just be an epiphenomenon. You
could imagine that dreaming is like a light bulb. The reason that we create the apparatus of a
light bulb is to create light. But it turns out when you produce light in that way, you also produce heat. It was never the
reason for the light bulb. It's just what happens when you produce light in that way. And the same
could be true for dreaming, that the reason that the brain created this thing called REM sleep
was to serve lots of different functions. But when you do create REM sleep in the way that
we have, you also get this byproduct called dreaming. It's just an epiphenomenon. Well,
now we know that REM sleep and dreaming itself actually are all functional. The things that
we've discovered are at least twofold. The first is that REM sleep provides a form of overnight therapy. It's emotional first aid. And it's during dream sleep and the particular brain chemistry of dream sleep where we reactivate emotional experiences and events that we've had during the day or even in past years or months. And we re sort of process that information.
And in doing so, it almost as though REM sleep is a nocturnal soothing balm that takes the sharp
edges off those difficult, painful experiences. So you wake up the next day and you feel better about them. So in other words, it's not time that heals all wounds,
but it's time during dream sleep that provides emotional convalescence.
That's amazing.
So this idea that, you know what, if I sleep on this thing,
I might feel better in the morning,
which is, I think my mother used to always say to me,
you know, go to sleep, you'll feel better in the morning.
Correct.
You're saying that was real science. That's extraordinary.
Yeah. And in fact, there's a wonderful quote by the American entrepreneur E. Joseph Costman,
who once said, the best bridge between despair and hope is a good night of sleep. That's exactly
what we found. So that's one function of dreaming, of REM sleep. The second function, however, relates to your learning and memory abilities. And what we found is that deep, non-REM sleep is the stage of sleep where we essentially cement new memories into the brain. It's like hitting the save button on that document. But when we do that for all of the information that we've been learning is during deep sleep and it takes a little bit longer than hitting the save button but what does REM sleep do then
well it turns out that REM sleep is a form of almost informational alchemy that REM sleep then
takes all of the information that you've recently learned and starts colliding it and
interconnecting it with all of your past back catalog of experience and creates new and novel
links and associations so that you wake up the next morning with a revised mind wide web of
associations that is now capable of defining solutions to previously impenetrable problems.
So this is the sort of eureka moment when you wake up the next day and suddenly,
you know, it all sort of makes sense, even though yesterday, you know, you couldn't really figure
out the solution to whatever the problem was. That's exactly right. I mean, think about it.
No one has ever told you, Jonathan, that you
should really stay awake on a problem. Instead, they tell you to sleep on a problem. It's amazing.
And I think we're going to talk a bit more about the impact of good and bad sleep. Just before we
move off this topic, because I think I could keep asking you questions around exactly how sleep
works forever. But how do you figure this out in your lab? How do you actually
understand what's going on, given that this is very different from many of the topics that we
look at at Zoe, where you're constantly measuring blood, for example, you can see the changes, but
how are we able to get these sort of deep insights that you're talking about?
We use a vast array of different technology, my sleep sensor here at UC Berkeley. So we will measure
your sleep with what's called high density EEG, which means I'm going to stick hundreds of
electrodes all over your head. You look like the spaghetti monster. And that allows us to pick up
all of the special brainwaves that are going on during the different stages of sleep.
And do you have to shave my hair to do that? Or am I allowed to keep that on, Matt?
You would think, but no, we don't, thankfully.
That's good.
It's somewhat easy to do.
All right, then I'm signed up.
So yeah, don't worry.
You will keep your wonderful hair.
But then we also use a whole variety of other technologies.
We use MRI particularly to look deep into the brain and
look at the patterns of brain activity that are changing when you're in and out of different
stages of sleep. We also look at how your brain has changed before and after a night of sleep.
We use special PET scans in a lot of our work, which I think we'll discuss on aging and dementia
to look at different Alzheimer's
disease pathology buildup because of insufficient sleep. And then we use lots of the peripheral
markers that you've been describing. We measure blood. So we look at lots of inflammatory factors,
for example, in blood. We also measure other aspects. We measure your cardiovascular system.
We measure hormonal systems. We measure your
thermoregulatory system as well. And at this stage, there's probably almost not one major
system within your body that we're not really measuring in the laboratory.
And so I think that one of the things you're really passionate about is what happens when
people don't sleep enough. Right, Matt? Yeah. So can you talk a bit about this?
Because I think we do live in this world where because of electric light, because
of digital devices, we no longer sort of run out of anything interesting to do
after it gets dark and therefore probably, you know, clearly just sleep as much as
our body wants, most of us have to work quite hard, in fact, to get as much sleep
as I think we would naturally
do, apart from maybe my teenage son.
He's just fine if I leave him alone.
So what happens to people if they don't sleep enough?
So downstairs in the body, we know that short sleep or insufficient sleep will change your
cardiovascular system for the worse.
It will increase your blood pressure. It will
increase the speeding contraction of your heart, and it will reduce, which is not a good thing,
something called your heart rate variability. And so firstly, we see significant impacts on
your cardiovascular system. And this is the reason why short sleep across the lifespan increases a whole collection of cardiovascular disease features, things such as atherosclerosis.
And we published a paper on this recently that having just poor quality sleep and fragmented sleep increases inflammation.
And that inflammation then leads to the buildup of plaques in your arteries.
And that leads to cardiovascular
disease. The next thing we could speak about is the immune system. There is a very intimate
association between your sleep health and your immune health. For example, we know that
individuals who, and we've done some of these experiments as well, if you limit someone to just four hours of sleep for one single night,
there is a 70% drop in critical anti-cancer fighting immune cells called natural killer cells.
And so that's quite a concerning state of immune deficiency after one short night of sleep.
And that's just one night of short sleep.
Yeah. And we also know one night of short sleep.
Yeah, and we also know that, for example,
and we've just got the data through for COVID and the same is true here,
but if you are not getting sufficient sleep
in the week before you get your flu shot,
you will only produce 50% of the normal antibody response,
therefore rendering that vaccination far less effective,
if not not effective at all.
I think the other big finding that's burst onto the scene, and I think it's probably the most
exciting finding recently in sleep science, is the link between a lack of sleep and Alzheimer's
disease. And we do a large amount of this. We have multiple large research programs looking at this at my sleep center. What we firstly understood is that people who don't sleep enough, who sleep six hours or
less, or people with insomnia or people with a sleep disorder called sleep apnea, all of those
people have a significantly higher risk of developing Alzheimer's disease in later life. Now, the problem is that that's just correlational.
That's not causal. And so correlation went in search of causation. And we found the evidence,
both in animal studies and in humans. For example, if you take a healthy human and you deprive them,
you selectively deprive them of either just their deep sleep, or you deprive them of sleep for
an entire night. The next day, we see an immediate buildup in the toxic proteins associated with
Alzheimer's disease called beta amyloid and tau protein. And we see that circulating in your
bloodstream, circulating in your cerebrospinal fluid, and using special brain scans, we've been able to see
that build up in your brain itself. So that was a causal demonstration that a lack of sleep is
associated with a buildup of Alzheimer's protein. Reverse that question though. If a lack of sleep
increases your Alzheimer's disease proteins, then what is it about sleep when you
get it that de-escalates those proteins and de-risks you from the disease of Alzheimer's?
Well, we then subsequently find, and this was a finding by Megan Neddegard at the University of
Rochester, she found that the brain has a cleansing system. Now, we knew that the body
had one called the lymphatic system, but we actually didn't think the brain had its own
cleansing system, but it does. But it's called the glymphatic system, named after the glial cells
that make it up. But then we made more discoveries, which is that that cleansing system in the brain,
that sewage system essentially,
isn't always switched on in high flow volume during the 24-hour period. In fact, it's only during sleep and specifically during deep sleep that the brain switches on that cleansing system
and washes away all of the metabolic detritus that has been building up during the day.
And it's crass and it's hyperbolic,
but you could say certainly from a biochemical perspective, wakefulness is low level brain
damage. And what we've now discovered is that sleep is your sanitary salvation. And so it's
good night, sleep clean, as it were. It's a power cleanse for the brain.
There are definitely some interesting analogies elsewhere, right? So I guess if you think about muscles, we all know, I guess,
from people talking about training that, you know, actually the act of using muscles causes damage
and that the rest and recovery is central. We discussed that, you know, areas that I spend
more time on around the gut, like how important it's now become clear that you need to leave long
periods of time for the gut also to recover. And that's partly to do with the microbiome,
but partly to do with these processes. So it's really interesting that across all these
different areas of the body, you're seeing the same thing in the brain. And that does sound a
bit like my mother saying, well, you need to have a rest, right? You need to let your mind rest.
So it's funny also how some of these things feel very similar to sort of traditional advice that
our parents and grandparents would have given us,
which maybe have become harder to follow now that we have all these great devices that can
keep us up all night. Yeah, I often say that really all I do as a sleep researcher over the
past 20 or so years is put the science behind everything that your mother ever told you about
sleep. Well, I've always believed that doing what your mother tells you is a good idea,
even if I don't always actually achieve it. So that's really interesting.
Yeah. But let me come back to the stuff that we're doing together. I mean, it's incredibly
exciting because with a lot of the studies that we and other colleagues have done in the field,
when we measure your sleep, we typically will measure your sleep for just a night in the laboratory because it's
difficult to constantly track individual humans, you know, night after night after night. It's
especially difficult to track large numbers of them from one night to the next, to the next,
to the next. And then it's even harder to, in addition, be measuring lots of changes in their
brain and their body as a consequence of that
ongoing night-to-night sleep evaluation, meaning that we know a lot what we call cross-sectionally.
So we just take a large group of people, we do one night of sleep recording, we measure changes the
next day, and we show that there's these associations. What that doesn't really tell you, however, is what is the
consequence within an individual of variability in their sleep across weeks, if not months?
And that's a fundamental question because that's the way most of us live in our lives. So what I'm
saying is that we've not really understood what inter-individual differences are
within an individual over time as their sleep fluctuates. What can we learn about that? And
how does that relate to things such as the metabolic system and their immune system and
their gut microbiome? That's the type of work that we're able to do in the ZOE collaboration.
And then we're also able to look at genetics because of course, as you've mentioned before
on the podcast, there is a remarkable set of twins within the large data set, which
gives us the ability to look at lots of different things, but one of them is genetic heritability.
And so that is very powerful too. And I can mention, if you'd like, one finding that
I was soon going to be publishing. One of the most fundamental questions that we wanted to ask
was the following. How will you wake up tomorrow morning? And secondly, how will you sustain that wakefulness across the day?
What is it about your sleep or your food or your genes that determines how well you wake up every
day and how able you are to stay awake? And you'd think that we would know the answer to that
question. We didn't. And we were able to answer it with the data set. And so looking at
over a thousand healthy individuals, which also contained a large number of both identical and
fraternal twins. And what we found is that how well you wake up the next day has nothing to do with how much sleep that you get relative to the standard population
recommended average. Instead, it was how if you slept longer relative to your own typical
average amount of sleep, then you wake up more effectively. It takes you a shorter amount of
time to wake up.
The engine heats up quicker in terms of operating temperature, which is what we call overcoming sleep inertia.
And then you're far better at sustaining that wakefulness across the day if you've slept
longer than is your normal.
The second part is that we found it's not just about your sleep.
It's also about your food and expressly your
breakfast. And what we find is that breakfasts that contain slightly higher amounts of fat and
fiber, but low amounts of simple sugar, that type of a breakfast predicted a far superior ability to wake up and then stay awake across the day.
The next thing we found, and you would think that just the innate levels of how alert someone is,
you can find some people who just seem to have crazy energy each and every day, and other people
who are just a bit more sort of baseline relaxed, you would think that that means that it's strongly genetic. Well, we did a twin pair analysis,
and we demonstrated that using this data set, genetics only have a very small contribution
in determining how well you can wake up and stay awake across the day. And I think that that's
actually very encouraging, because it means that you're not
bound to a predetermined genetic fate that most of how well you feel when you wake up every day
and stay awake across the day is determined by non-genetic, in other words, modifiable
influential factors. And I think that is incredibly exciting, right? Both this idea
that it's personalized, there's not just one answer for everybody, but people are different. But also, I think we see
this across a lot of our research that you're less locked in by your genes. And I think many of us
were led to believe over the last sort of 40 or so years. And I think that's really reassuring,
right? Because it suggests there's still things you can do to change this. So much so that's exactly the message that how you sleep and how you eat each and every day
will decide how well you wake up and feel awake across each and every day.
And do you see changes across time? And I think one of the topics that we had a lot of questions
from our listeners about was around menopause, which is obviously a really big change that we touch on in a lot of places.
Is that something that's well studied and what's going on there?
Personally, I don't think it's studied anywhere near enough, but we know that there are marked
changes during that, what we call the perimenopausal period. So during menopause and both before and after it,
there are really significant increases in sleep disturbance. Sleep becomes more fragmented.
When you wake up, people will find it harder to fall back asleep. And then there are the
temperature swings, the temperature changes, these hot flashes that people will experience.
Why is that a problem? Well, it's a problem at night because it turns out your brain and your
body need to drop their core temperature by about one degree Celsius or about two to three degrees
Fahrenheit for you to fall asleep and stay asleep. And that's the reason you will always find it
easier to fall asleep in a room that's too cold than too hot.
Because the room that's too cold is taking you in the right temperature direction for good sleep.
But if you're having these changes inside of the body and the brain that create a thermogenic effect, that create these bursts of heat that we call these hot flashes, no wonder you're struggling to stay asleep. So menopause is certainly one of
those time periods where we see sleep disruption. And then also just as we get older, unfortunately,
we know that probably one of the cognitive hallmarks of getting older, of course,
is that our learning and memory abilities begin to fade and decline. And that's
been known for a long time. What we've also discovered though, is that one of the most
reliable physiological signatures of aging is that your sleep gets worse and not just any type of
sleep, by the way, it's particularly that deep quality of sleep that we were describing before,
which is actually essential for some of
the cardiovascular functions, for some of the learning and memory functions, for some of the
immune system functions, all of which change with aging. That's the type of sleep that declines
most precipitously as we get older. And the worrying thing is, by the way, that great sleep depression for deep sleep, at least, we can start to measure it happening in your mid to late 30s, which is exciting for me because that means that's an opportunity for prevention. of course, is that we have a model of sick care and we don't have a model of healthcare.
And we don't really understand the question of rather than what happens when a human being goes wrong, how do you treat that disease? How, before you ever get to that stage, do you maintain a
human in the right healthy direction? And that is a model of healthcare rather than sick care, which is what we have
now in modern societies. And I think you know this is something I believe in passionately.
And it's so clear that sleep is one of these central pillars, right? That if you get right,
can really improve your long-term health. And I guess I stopped you mid-flow there,
Matt, but I just say, yes, we're incredibly excited. And obviously we think nutrition is
a very important part of this, but ultimately this is about understanding the set of things
that you can do before you're really sick to try and make sure actually you put that off for
as long as possible. That's exactly right. And that's why I think this,
in some ways it's depressing to know that that's why I think this, you know,
in some ways it's depressing to know that it's in the mail for all of us. You know, I'm now coming solidly into the foothills of middle age myself, and I've already seen the changes in my sleep. I
can notice them. But what if we can do things that could intervene and actually prevent that decline of deep sleep? Could we, for example, even bend the
arrow of Alzheimer's disease risk down on itself by way of superior sleep intervention in midlife?
That's one of the things that we're very excited about trying to do at my sleep center.
And I think it's a brilliant transition to the last topic. And I would say just
personally, I have really noticed I'm in my late 40s now that
I do not sleep as well as I used to. I used to be someone I would consider myself a really good
sleeper. And there's no doubt that I'm more easily disturbed that when I'm disturbed,
I find it harder to go back to sleep. And this is even after using all of your great tips.
But should we transition to that? Because we always like to make sure we give actionable
advice. And I know you have some really great advice for people listening to this who are now saying, you know what,
maybe I didn't take sleep as seriously as I should have done. Now I want to take it really
seriously. How can I go and get better sleep? What would your advice be, Matt?
I think there's a couple of general tips and you can find most of these on the internet too,
but it's good to go over them. The first thing is regularity. I would
say if you could just focus on one thing, go to bed at the same time, wake up at the same time,
no matter whether it's the weekday or the weekend. And I'm pretty religious like this, you know,
and not because I want to be a poster child for good sleep. It's selfish. You know, if you knew
everything I knew about sleep and how important it is, you wouldn't do anything different than prioritizing your sleep. And I do. So I would say, make sure you're getting somewhere between a seven to nine hour opportunity. Find out what is innately correct for you, which is called your chronotype or your morning type, evening type or somewhere in between. And you need to sleep in harmony with your chronotype
to get the best sleep. So I'm somewhere in the middle, just like the rest of my personality.
I'm quite vanilla in terms of my chronotype. So you either a morning type, evening type,
or a neutral. And I'm mostly a neutral. I'm kind of somewhere between an 11 to 1130,
kind of, you know, 730, 745 wake up time, which puts me in the neutral
category. If I were to go to bed, you know, at 9pm, and then wake up eight hours later,
or I were to go to bed at 4am and wake up eight hours later versus my natural eight-hour sleep window. Well,
it's eight hours, so what's the difference? Surely there's no difference. Well, there's a
big difference because in one of those three scenarios, I will have been sleeping in sync
with what my biological rhythms want me to do. And the other times, I will be out of sync and
I won't sleep as well. But the first message is regularity.
And Matt, just a question,
because I know that we'll get a flurry
of these questions afterwards.
How do you find out your chronotypes
so that you know that you can be sleeping
in line with that?
If you want to do the detailed assessment,
you can go onto Google
and you can search for something called the MEQ,
which stands for morningness eveningness
questionnaire. It takes you about three or four minutes to fill out, and then you'll get a score
and that score will tell you. Um, in fact, we really use in sleep science, five categories,
extreme morning type, morning type, neutral evening type, extreme evening type, and it will
kind of bucket you into one of these flavors.
The other way you could really do it though, which is kind of like my quick rule of thumb,
and it's just a rule of thumb, it's not really a rule. Let me ask you the following question.
If you're on a desert island, nothing to wake up for, no pressures, no one to wake up for, no work,
what time do you think you would like to go to bed? And what time do you
think you would like to wake up? And the answer to that question is usually very different than
currently when you have to go to bed and when you have to wake up. And that mismatch is the
misalignment between how you are forced to sleep versus how you are biologically designed to sleep.
So that's another way that you can sort of answer the question. And it's relevant, by the way, some people come to me and say,
I've got vicious insomnia. I get into bed and I cannot fall asleep for the first hour or hour and
a half. And then we go through this exercise of figuring out their chronotype. And what you
realize is that they're going to bed at 10 PM because they have to wake up at six to go to work and in fact they're much more of an evening type they would normally like to go to
bed at maybe 12 12 30 and so they don't necessarily have insomnia they have this mismatch between their
chronotype and when they start sleeping a little bit closer to their natural sweet spot, they sleep better.
So it is relevant to know your chronotype.
That's fantastic.
And we will provide links in the show notes to the questionnaire for anyone who's listening to this and make sure that it's the right one.
Yeah.
And then other than that, I would just probably quickly go through a few others.
Temperature, we've already spoken about.
Keeping your bedroom cool. Aim for around about 65 to 67
degrees Fahrenheit or around about, what is that, 18, 18.4-ish degrees Celsius. I know it sounds
cold, but cold it must be. You can keep your feet warm, hot water bottles, socks, that's fine, but
the ambient must be cold. And that's colder than many people
keep their rooms today, right? It is. Yeah. Most people will come home, they'll set, you know,
have this ambient temperature of, you know, 70, 72 degrees in their house. And then they leave
that same thermostat setting for the night and we need to cool down at night. So keep temperature in mind. Light is another thing. We are a dark
deprived society in our modern era, and we need darkness at night to trigger the release of a
sleep hormone called melatonin. And so as a tip, I don't like the word hack, but as a tip,
try doing the following experiment in the last hour before your bed, so set an alarm on your phone or on your
home device, say, set alarm for whatever time it is now before bed. And in that last hour,
dim down half of the lights, even more of the lights if you can, dim down half of the lights
in all of your house. And you will be surprised at how sleepy that increased darkness will make
you feel. And what that tells you is that normally you are suppressing the release of this sleepiness
hormone, melatonin, or it's a sleep timing hormone really, when you are bathed in electric light at
night. So light is another one. The final two things I would mention,
alcohol and caffeine. I know, I know. I'm sorry. This is bad news.
Yeah. You're a bit depressing on this one, Matt, I have to say, but I think you should tell
everybody so that they get all the facts. Well, I'm much more bullish now. Some people
sometimes on different podcasts when I'm interviewed will say, you know, what have you changed your mind on in the last five years? I've changed my tune on coffee. I would say drink coffee because the
health benefits that have been associated with coffee are profound and very reliable.
But here, when it comes to sleep, the dose and the timing make the poison. By the way,
the reason that coffee is associated with health
benefits has nothing to do with the caffeine. The reason is because the coffee bean contains a
whopping dose of antioxidants. And because most people, and you know this better than most of us,
Jonathan, most people in the Western world are deficient in their dietary intake.
And the way that most people get their daily dose of antioxidants is through their cups of coffee.
And that's why coffee is associated with health benefits.
Case in point, you get very similar health benefits for decaffeinated coffee.
So it's not the caffeine, it's the coffee bean itself.
But I would say the dose and the timing make the poison. Try to limit
yourself to two cups on average, maybe three. But the critical thing is cut yourself off at least
12 hours before you expect to go to bed. That's a good rule of thumb.
And I would say just on that one, I'm actually more of a tea addict than coffee, but I have
definitely discovered that this timing with
the caffeine is important. And I now cut myself off. I think this is something you can sort of
figure out for yourself, Matt, a bit, right? Because there's a lot of personal variation
in caffeine response, isn't there? Yeah, there is. And we know the genes that
change the clearance, the speed of clearance caffeine.
But in my case, that means I need to stop by about two or three o'clock in the afternoon.
And if I go later, then sure enough, you know, it affects my sleep. And sometimes also
it can even mean you wake up again right in the night and then you can't go back to sleep.
So it's a bit more complicated than I had imagined. Yeah, both make it harder to fall asleep,
then it fragments your sleep. But the other thing that's pernicious about caffeine,
some people will say, look, I'm one of those individuals, and they could be because they clear caffeine very quickly, but not quick enough, as we'll see.
They'll say, I can have an espresso with dinner, and I fall asleep, and I stay asleep, and I'm just fine.
Even if that's true, caffeine can actually decrease the amount of deep sleep that you have by somewhere between 12 to 15%. It depends on
the dose of caffeine. We've done this in our laboratory. Now to reduce your deep sleep by 15%,
I would have to age you by about, you know, 10 to 12 years, or you can just do it every night with
an espresso. So it is a little bit, you know, be thoughtful.
What about alcohol?
Yeah.
You know, many people, when they're struggling with sleep, will turn to alcohol as a quote
unquote sleep aid.
Unfortunately, it is anything but a sleep aid.
Alcohol is in a class of drugs that we call the sedatives and sedation is not sleep.
So when you have a couple of nightcaps, people say, look, I always fall asleep faster if
I've had a few drinks in the evening.
You're not really falling asleep faster.
You're just losing consciousness more quickly.
And that's the first problem.
Alcohol is a sedative.
The second is that alcohol will fragment your sleep like caffeine, but through a different
chemical mechanism.
So you wake up many more times throughout the night, but the problem is you typically don't
remember those awakenings. So the next morning you wake up, you feel unrestored and unrefreshed,
but you don't remember waking up. And so you don't put two and two together.
The final reason that alcohol is not great for your sleep is that it is quite potent at suppressing your
REM sleep or your dream sleep. And we know that dream sleep, as we've spoken about,
has lots of benefits for the brain. It's critical for the body too. REM sleep is the peak time
during the 24-hour period when men and women release their peak levels of testosterone, for example. So we need REM sleep. So I'm very
nervous as a scientist to tell anyone how to live their life. I don't think I have any business
doing that. What I'm here to do as a scientist is simply impart the knowledge so that you can
then make an informed choice as to how you want to live your life. And of course,
my goodness, when it comes to cups of coffee and having a drink now and again,
life is to be lived for goodness sake. So don't get puritanical about it, but just know the evidence and know that there can be consequences. By the way, I would say that with alcohol,
the politically incorrect advice that I would never offer you would be go to the pub in
the morning. And that way the alcohol is out your system by the evening, and then you'll be just
fine. But I would never say such a thing on a health podcast. And we did a whole podcast on
alcohol. And I think it's very interesting topic. But I think the impact on sleep is clearly one of
the big downsides. And Matt, one thing that you haven't mentioned, but it was so influential on me
was about making your room like a cave. So you don't get woken up in the morning. Is that
something that still you believe is really important? Yeah, very much. So this, this is
temperature. So it's not just about temperature, but it also combines the third tip I've mentioned,
which is darkness. So keeping your bedroom cool and dark, and then, you know, if you need to, you can use
earplugs or a sound machine. We don't know too much about sound machines, whether they're helpful
or hurtful to sleep right now. I think for the most part that they seem to be mostly benign.
Just before we wrap it up, I think one thing I realized you haven't mentioned is screens
and that comes up quite a lot. Yeah.'s a good question you know this comes to the
the light issue again particularly light exposure at night and unfortunately our screens are enriched
in the blue led light spectrum which is the worst for our melatonin levels it suppresses it most
powerfully i would say that in probably over 50 to 60% of the studies looking at blue
light screens, they have an impact on sleep, but some of them have not found a robust effect.
What we do now know is that those devices, perhaps the greater detrimental impact on sleep is not
necessarily the light, but they're activating
engagement. Because when you are on these devices, particularly your phone, it is designed to capture
your attention, make you alert and keep you awake and sustained and engaged. And many people will
be what we call sleep procrastinating, where they are perfectly tired, but they're so engaged with
their device that they can't put it down. That seems to be, if anything, it's this alertness
that actually masks otherwise very strong sleepiness. So my rule of thumb, again, not to
get puritanical, that genie of technology is out the bottle and it's not going back in anytime soon,
no matter what I say.
So, you know, use your phones and your screens.
Just keep in mind that they can have an impact on your sleep.
And the rule of thumb, I much prefer people to keep their phones out of their bedroom. If you absolutely have to take it into the bedroom, here's the rule.
You can only use it in the bedroom standing up.
I hadn't heard that one before.
It's really interesting. You kind of think, okay, after about five or six minutes, I'm just going to sit down on the bed. No, at that point, that's the rule. You're done.
Put the phone away. That's brilliant. And I have to say,
keeping out of the bedroom is one of the things that I've become quite strict about, but it's
not an easy thing always to carry out. I would like to just quickly wrap up as we always do and make sure that
summarize what's been, as always, a very wide ranging conversation.
So I think firstly, you know, the big message is sleep is incredibly important.
You need your sort of seven to nine hours, whatever it is for you.
And if you don't, it has these really profound health impacts.
We talked a little bit about the studies that we've been collaborating on together and this really exciting new paper that's coming out shortly about how do we wake
up every day, how are you able to stay awake, and about how different each of us are. We talked a
little bit about sleep disturbance around menopause. You gave us a bunch of tips, regularity,
finding out your chronotype, getting your room colder, finding
a way to get your room a lot darker, both when you go to sleep and when you wake up.
And then I think you've got a little softer on caffeine and alcohol than perhaps when I read
the book a few years ago, but in general, coffee's probably fine, but make sure it's long before you
go to sleep. Alcohol, I think you're basically saying, you know, it's never probably really good for you,
but bear that in mind. And in terms of screens, if you are going to bring them into the bedroom,
you have to stand up. Great summary.
Matt, it was a real pleasure and we look forward to talking again in the future,
I hope, with the next paper that we bring out.
Sounds good. Take care. Thank you for hosting me, Jonathan. I really appreciate it. And thanks for
the collaboration that we have. I think it's immensely powerful and it's a privileged data
set. So thanks very much. You're welcome. Thank you, Matt. Bye-bye. Bye.
Thank you to Matt Walker for joining me on Zoe's Science and Nutrition Today.
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