Modern Wisdom - #883 - Dr Matthew Walker - The Science Of Perfect Sleep
Episode Date: December 30, 2024Dr. Matthew Walker is a neuroscientist, professor at UC Berkley, and author. Many of the mental and physical challenges you might be facing could have a surprisingly simple solution: more sleep. But ...why is sleep so essential? What happens when we sleep, and how can we optimize our sleep to maximize its benefits? Expect to learn what defines good sleep, how stress impacts your sleep, the keys to getting and maintaining a regular sleep pattern, the best sleeping positions, how to stop snoring, why sleeping with your partner is making your sleep worse, if alcohol, THC and other supplements actually give you a better nights rest, the evolutionary reasons why we dream, the latest science and tech for hacking your sleep and much more... Sponsors: See discounts for all the products I use and recommend: https://chriswillx.com/deals Get the world's comfiest sleep mask at https://mantasleep.com/modernwisdom (use code MODERNWISDOM) Get the best bloodwork analysis in America and bypass Function’s 400,000-person waitlist at https://functionhealth.com/modernwisdom Get a 20% discount on the best supplements from Momentous at https://livemomentous.com/modernwisdom Sign up for a one-dollar-per-month trial period from Shopify at https://shopify.com/modernwisdom Extra Stuff: Get my free reading list of 100 books to read before you die: https://chriswillx.com/books Try my productivity energy drink Neutonic: https://neutonic.com/modernwisdom Episodes You Might Enjoy: #577 - David Goggins - This Is How To Master Your Life: https://tinyurl.com/43hv6y59 #712 - Dr Jordan Peterson - How To Destroy Your Negative Beliefs: https://tinyurl.com/2rtz7avf #700 - Dr Andrew Huberman - The Secret Tools To Hack Your Brain: https://tinyurl.com/3ccn5vkp - Get In Touch: Instagram: https://www.instagram.com/chriswillx Twitter: https://www.twitter.com/chriswillx YouTube: https://www.youtube.com/modernwisdompodcast Email: https://chriswillx.com/contact - Learn more about your ad choices. Visit megaphone.fm/adchoices
Transcript
Discussion (0)
You might be the British man with the best hair that I know.
I think it is the greatest cry of a midlife crisis that you are ever going to see.
It's a total train wreck.
I'm suggesting that no one told me the pandemic was over and that you can get your
haircut and this is the consequence of it.
So, um, for anyone who is watching any therapy pills, uh, bills that you have to
have after seeing me and being
confronted by me, send them to me, I will pay for them.
Oh my goodness.
Fantastic.
Well, what a good opening to it.
It is what it is.
Talking about sleep today, we've had a lot of conversations about it on the show previously,
but I really want to dig into some sort of more rare insights that people probably know
that they need to know, but don't yet know.
So just to get started, how do you come to think about what good sleep is? How do we conceptualize
good sleep? Yeah, it's an interesting question because I think everyone most mornings, let's say
you've got a significant other, you come down the stairs and you say, you know, how do you sleep?
And they'll say, I slept well, or I didn't sleep well. So everyone themselves has a subjective estimate
of what this thing called good versus bad sleep is.
Science is a little different though.
And medicine teaches us that there are essentially
what I would describe as the four macros of good sleep.
And so three macros of food, fat, carbohydrate, and protein,
four of sleep, and you can remember it by the acronym
QQRT, quantity, quality, regularity, timing.
And there's all sorts of stuff on the internet about,
take this supplement, do this particular thing,
and it's the Shangri-La of all good sleep,
and you'll have this utopian blissful night.
Honestly, if you just focus on these four main principles, you're 80% of the way there.
So quantity is what we used to espouse in sleep as the measure of good sleep, which
is somewhere between seven to nine hours for the average adult.
And there is variability.
Um, the next one is quality.
And I think this is probably, actually I need to jump in on the
quantity before you even move on.
Yeah.
Quantity of sleep, time in bed, time asleep.
Hmm.
Astute question.
Most of us conflate the former for the latter and it's potentially dangerous.
So if you are a good sleeper, you will have what we call a sleep efficiency of at
least 85%, which means, uh, so sleep efficiency of the time that you're in
bed, what percent of that time are you asleep and really good sleepers will
have, let's say 80 to 90% sleep efficiency.
So even if you're in bed for seven hours, you're not getting seven hours of sleep.
Working at close to six.
Correct.
So to get at least the minimum, according to the CDC, of seven hours, you actually have
to be on average in bed maybe about eight, eight hours and 15 minutes.
So it's a really astute point that we sort of misconstrue the question of total sleep
duration as total time in bed.
And you have to subtract one from the other.
And that's why I think there is some legitimacy in looking at say sleep tracking data, because
at least that will tell you total sleep time.
I mean, that was the-
Absent of, you know.
Exactly.
That was the biggest realization. I've looked at my end of year review for whoop and I've worn this thing for 1600
nights since way before they were a partner on the show and the biggest
realization I've said, I think whoops great and you can sign up for it if you
want, but I can tell you what the realization is, the main realization that
you're all going to come to, which is eight hours in bed does not mean eight
hours of sleep.
That's the biggest realization. Everybody comes away from it. They go, well,
I was sure I was in bed for eight. I thought I got eight hours. And he goes, well, he told
me that I was actually only in bed for seven and a half. I kind of had a bit of a bad night. So I had
like six, 15 of sleep last night. I thought I was in bed for eight. You go, that's a red pill that
everybody needs to take. Yeah. So I think it's, it's one of those areas that is not highlighted enough.
And that's why you can actually then come on to the second of the cues,
which is quality.
And that in fact is efficiency, sleep efficiency.
Well, there's two ways we measure quality.
The first is sleep efficiency.
So as I said, I want to see you at least asleep 85 to 90% of the
time that you're in bed.
If you are're in bed.
If you are staying in bed, let's say for nine hours and your sleep efficiency is 70, maybe 65,
then my recommendation is perhaps surprising,
do not get into bed that early
and do not stay in bed that late.
I want to cinch you down to maybe even just six and a half hours of time in bed.
And we've already said, well, hang on a sec, six and a half hours of time in bed is too little to
get seven hours of sleep by the mathematics, even maybe six. But what I'm going to do by way of
constraining your bedtime there is force efficiency out of your system. I go to the gym, I'm there for an hour.
I start working out, I do the 11th rep, pull out my phone,
I'm there looking at Twitter,
looking at Chris Williamson's content,
and then I'm chatting to people.
I'm not efficient.
And maybe I am only working out for 30 minutes.
Next day someone comes in, two bouncers on the door,
you've only got 25 minutes in the gym.
First couple of days, I'm just as lazy
and I get maybe 40% of my workout done and I get ejected.
By day three or four, the pressure that's built up
for me to want to exercise and get it all in is so high
that I go into the gym, my phone's down, on the counter,
I speak to no one and I blast through my workout
and I get it done.
It's the same with sleep.
I build up night after night, this increasing hunger
where your system was lazy before, it had inefficiency.
And after a while, it's essentially like hitting
the reset button on your wifi router.
I retrain your brain to realize,
I don't have eight and a half, nine hours of time in bed anymore to
be lazy. He's only giving me six and a half hours. I've got to get busy and all of a sudden you've
got 95% sleep efficiency because as soon as you get into bed, you are asleep and you sleep almost
through the night. Then gradually I will step you back out. If you start to get lazy again, we stitch
you back up again.
And gradually that's how we retrain the system.
What about the reverse when it comes to sleep quality, that somebody is staying
in bed for a good amount of time, but that quality doesn't seem to want to change.
Sinching it down doesn't really seem to make that much of a difference.
They're just waking up too much throughout the evening.
They're not hitting REM, they're staying quite light.
They're getting up earlier than they want to, et cetera, et cetera.
Yeah.
At that point, we've got to then start to ask if we've driven enough pressure in the system,
what we call sleep pressure or sleep debt, and you are still waking up throughout the night.
First, medical conditions.
Let's do blood work.
Let's see if you're suffering from a sleep disorder
like sleep apnea, restless leg syndrome.
If we exclude all of those that you're medically healthy,
then we have to ask, what are you doing in your life?
Exogenous components principally,
caffeine, alcohol, light,
and the principle one that we don't talk about
is stress and anxiety.
If there is a principle reason why most people in society, absent sleep disorders,
are not sleeping well, it's because of this wired but tired phenomenon.
We have people come to my sleep center all the time and they say, I am just so tired.
I'm so tired, but I'm just so wired that I can't fall asleep or stay asleep.
So at that point, when we've built up all of that pressure, forced you to be
efficient and you haven't been efficient, we exclude you medically that you're
healthy, no sleep disorders, then we've got to figure out what's going on in your life.
Let's dig into that wired, but tired stress thing.
What is going on in the body from a sleep perspective in the body and the brain, uh,
when you're in a high stress lifestyle?
Yeah, there's probably at least two things going on in the body and at least one
thing going up in the brain.
The first in the body is the balance between the two branches of your nervous
system.
One is the fight or flight branch
called the sympathetic nervous system.
It's very poorly named, it's anything but sympathetic.
It's very agitating and activating.
And then there's the parasympathetic.
That's the kind of quiescent branch of your nervous system.
If you're a good healthy sleeper
and you don't have too much stress in your life,
you naturally switch over to that restful,
quiescent branch of
the nervous system.
And that is the royal kind of pathway to good sleep.
And the alacrity of sleep, the speed with which sleep arrives to you when you disengage
from the fight or flight branch, is really speeding and rather beautiful.
If you are so wired, though, however, the sympathetic, the fight or flight branch is activated.
Your heart rate is jacked.
Your blood pressure is too high.
Your temperature, because of that activated state,
your core body temperature is also too high.
If you are too hot, your heart is racing
and your blood pressure is high,
it's very difficult for you to fall asleep.
At the top of that, a second system in the body,
which is what we call the HPA axis
or it's essentially the stress axis,
which descends down from a brain stem area,
the hypothalamus, down to the pituitary,
releases adrenaline, all of
a sudden you are cortisol flooded.
And I think everyone has had that sense where, whether it's let's say you've been on stage,
you've been on tour, you come off stage and you are wired.
Now this is not you're anxious, but you're still wired.
Cortisol is streaming, your heart rate is jacked.
And you can say, I was up at seven this morning and it's now two
o'clock because all is said and done.
I am still unable to fall asleep.
I'm so tired, but I am way too cortisol, you know, sort of concentrated.
Yeah, exactly.
So those two things in the body are what we will presumably, I think most people
will cleave to as the ingredients
to the type of wide phenomena.
I also think upstairs and they are interrelated,
upstairs in the brain,
you start to get this Rolodex of anxiety.
And I think we've all had that where we're stressed,
you in the modern world're constantly on reception.
Very rarely do we do reflection.
And now the only time based on modernity and how it inflects us that we do reflection is when our head hits the pillow at night.
That's the worst time to do reflection.
Because when you start to have that kind of wheel of anxiety whirring, you begin to ruminate.
When you ruminate, you catastrophize.
Everything seems twice as bad in the dark of night
versus the light of day.
And at that point, you're dead in the water
for the next two hours.
And that will then only feed in to jacking up the fight
or flight branch, because you're kind of going through what didn't I do today?
What should I have done?
What do I need to do tomorrow?
I forgot to do that thing.
That's critical for next week.
It's, it's a mental sort of, you know, train wreck in terms of your sleep that
then just further perpetuates those two downstream physiological mal sort of
consequences to the point.
And then they ramp up and that leads to more.
Yeah.
Talk to me about interventions for those three.
So the principle one is that you've got to process that.
And this is the hard part of the equation.
Mental health work is tough work.
You can take medications and that can be one path for people.
You can take certain medications that can try to lower your heart rate,
shift you back over into that quiescent state.
But most people don't want to reach for a pill immediately necessarily.
One thing you can do is just catharsis.
Two or three hours before bed, not right before bed,
pad of paper and a pen and just right now, I just want you to vomit out all of your stresses and
anxieties. And it turns out that simply doing that will decrease the time it takes you to fall
asleep by 50%. No way.
For zero. Yeah. It's a great study. Michael Scullin, fantastic work. So the first thing is just get it all out of you.
So it's not inside of you.
That said, you can still be burdened
with this egregious kind of stress and anxiety,
nevertheless.
So what do you do about that?
At that moment in time, whether it's you falling asleep
or you've woken up at 3 a.m.
and it's happening and you need to get back to sleep.
At that point, let's get your mind off itself.
That is the goal.
How do you do that?
Maybe at least four things.
First, meditation.
The data is really strong.
Now I was researching this for a book and I just thought, look, I'm a hard
nose scientist, I'm here at UC Berkeley, San Francisco,
it's all a bit woo woo, this meditation thing.
I'm sort of holding hands and people are
strumming guitars at the end of the day.
What is going on?
I don't believe this.
Studies were so powerful though.
So I thought, I best bloody try some of this myself.
And that was six years ago.
And I now meditate for 10 minutes every night before
bed.
So the first is meditation, but people just may not feel particularly compelled towards
meditation.
No problem.
Next one is breath work and you can just Google different types of breath, you know, box breathing,
sort of, you know, three, seven, four, there's all sorts of different patterns. But that breathing can also just try to bring the nervous system back down into that zone
of sleep permission versus sleep prevention when it's too high.
If that isn't your thing, you can do a body scan.
So just close your eyes, start at the top of your head and just start to relax back,
feel your neck, feel how tense it is, start to relax it.
Maybe even your forehead is that tense and just move through the rest of the body.
Go all the way down through your arms, through your chest, your back.
And just you're not making any judgments.
You're just being aware of your body.
That's fantastic too.
The final thing, if none of those appeal, mental walk in hyper detail.
So think about, let's say, a walk that you do with your dog.
And what I want you to do is think about this
at the level of, okay, I open the drawer,
which leash am I gonna take, the blue or the red?
I'll take the blue one, clip the dog in with my right hand,
I'm closing the drawer with my left,
open the front door with the left,
I go down the stairs, I look across,
there's that weird Berkeley house,
it's kind of just a little bit hippie, but no problem. left, open the front door with the left. I go down the stairs. I look across. There's that weird Berkeley house.
It's kind of just a little bit hippie, but no problem.
And then the cars always come too quickly around that.
But that's the level of hyper detail.
And what's interesting, if you look across all four of the things I've just described,
the commonality is that they all get your mind off itself.
Meditation, you're starting to focus on something other than your mind.
If you're doing box breathing,
you're all of a sudden body-centric, not mind-centric.
If you're starting to do some type of body scan,
again, it's hard for you to think about your worries
and your stresses if you're doing it.
Mental walk, same thing,
because sleep at that time of night
is a little bit like trying to remember someone's name.
The harder you try, the further you push it away. Sleep is something that happens to us.
It's not something that we make happen. And when you get that mind distracted away from itself,
the next thing you typically remember is the alarm going
off in the morning.
Why?
Because you got your mind off itself.
Okay.
So first one, quantity.
Second one, quality, that being a component of that.
Is there anything else to say on quality before we move on?
Yeah, probably the other way that we measure, and most people can't do this, but is in the
sleep laboratory,
we place electrodes on your head,
you look like a spaghetti monster.
And the other way we measure quality
is the depth of your deep non-REM sleep.
So we have two main types of sleep, REM and non-REM.
Non-REM for most sleep trackers,
you divide it into light non-REM and deep non-REM.
Deep non-REM is where you get these incredible,
deep, powerful, slow brain waves that just epic.
And the depth, the size of those brain waves
and how dense they are, the number of them
that you're having is another great measure of the quality,
the electrophysiological quality of your sleep
versus the, are you waking up lots throughout the night and
therefore you're spending a lot of time awake that sleep efficiency that's
another measure of quality so they're sort of orthogonal but both bleed into
this kind of second silo of sleep quality so QQ next one is regularity
going to bed at the same time waking waking up at the same time. And you think this sounds fairly rudimentary and basic.
Part of the reason is because you have a 24 hour master clock
in your brain and that clock thrives
under conditions of regularity.
And when you feed it signals of regularity,
like going to bed and waking up at the same time,
it improves both the quantity and the quality of your sleep.
That's what I used to preach as why it was important until there was a great
study published probably two and a half years ago, and it was, I think, over
300,000 individuals that they tracked with sleep assessments over a good
period of time.
And then they looked at them across a much longer lifespan
period of time.
And they looked at mortality risk.
And they also looked at different forms of mortality
risk, cancer mortality risk, cardiovascular disease
mortality risk.
And they measured sleep quantity.
Sure enough, just like we've seen in many other studies,
using that sweet spot of seven to nine hours,
the shorter your sleep, the shorter your life.
Short sleep predicted all cause mortality. That's the quantity measure.
They looked at regularity. Regularity demonstrated the same thing. Those who were in the lowest quartile, those who were least regular, highly erratic, they had far higher rates of mortality relative to the people who were in the top quartile who were incredibly regular.
How did that compare to the quantity in terms of predictive power?
Genius. And that was the brilliance of the study that really made me double down on regularity.
Because then what they did, they said, well, if we've got these two measures, quantity and regularity,
let's not look at them individually.
Let's put them in the same statistical model and do a code Pepsi challenge between the
two.
And all of us in the sleep field, you know, you're betting that quantity is going to be
the more powerful statistical variable.
Wasn't regularity beat out quantity in predicting all cause mortality, cancer
mortality, cardiovascular mortality.
Now it's not to say that you can get away with short quantity of sleep, even
if you're highly regular, you know, getting four hours of sleep at the same time,
every night, you still have markedly elevated mortality risk.
But nevertheless, I was pretty stunned by how powerful that was and made me even, someone
who was pretty regular before, get a bit more evangelical about it.
You know?
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wisdom and using the code modern wisdom at checkout. That's m-a-n-t-a sleep.com slash modern wisdom
and modern wisdom at checkout. How big of a wobble are we talking in terms of tolerance here? People
can't just go to go to sleep at the same time, the same minute every single night.
What's an acceptable tolerance window for swings and is there a difference
for going to sleep time versus waking up time?
How can people navigate this regularity landscape?
Yeah, beautifully put.
So it's a two by two, you know, is it, um, is it offset versus onset of sleep,
getting into bed, get out, which is the more powerful right now?
We don't know which one you should keep
as more regular.
We haven't been able to dissect that yet.
However, to your question,
what's the amount of wiggle room?
I'm describing here in terms of the four macros,
this ideal world of good sleep.
And it turns out, drum roll,
none of us live in the ideal world.
We all live in this thing called the real world.
So just for goodness sake, stop being so puritanical.
It turns out that you've got a wiggle room of about 15 to 20
minutes on either side of it.
So there is some degree of play in the system, but not too much.
But this is to not have sleep regularity have a negative impact on your mortality outcomes?
Is that the measure that we're looking at?
Correct.
Or just your mortality in terms of cancer or your mortality in terms of cardiovascular
disease or all of the mortality buckets thrown together into a big old mix.
Presumably including car accidents and all manner of other things that can occur.
Correct. By way of microsleeps and all of that.
That's the way that a lack of sleep will pop you out the gene pool very quickly,
rather than chronically through disease and sickness.
Okay. So talk to me, you know, people might not be able to work out what the different quartiles
would be.
If 15 to 20 minutes of wiggle room for both going to sleep and waking up, I would actually
guess that most people, more people in terms of regularity will have their wake time versus
their sleep time in that most people have a thing that they need to do.
Correct.
The alarm goes off and whether you like it or not, you are up for many people.
Yeah.
The same isn't true when you go to sleep.
So I'm going to imagine that there's more wobble on the bottom end,
yeah, less wobble on the top end.
Uh, but talk to me about what's the upper quartile and what,
what are we looking at here?
How, how, uh, deep does the trough go of swings?
Yeah, the highly irregular people were somewhere between
two to two and a half hours variable.
So in other words, they may have an offset of going to bed
or waking up or just some wiggle room of an hour,
one side of their mean and then an hour,
the other side of the mean.
So again, it doesn't sound like too much.
I mean, how many times have you watched one extra episode
of Game of Thrones or something and then, oh, fuck.
That's me at the bottom quartile of Wiggle Room.
And then maybe you wake up later,
maybe you haven't got work in the morning.
I mean, God, I said this to you before we got started,
but I was running night clubs for
my entire twenties, 15 years.
And the first time I ever had a stable sleep and wake pattern was COVID as an adult.
The first time I ever had it, I would go-
Dunning?
Yeah.
I mean, it's crazy.
I also have to say to you, it must be interesting for you.
I wonder whether you've ever considered how many years of life you've saved on the entire planet, because I certainly know that before your first
episode on Rogan, I didn't care about sleep.
Yours was the first time when you spoke to Joe, I think it was 1109,
the podcast number.
And that was the first time that I ever thought, Oh, I really need to care about
this, like, you know, the number of doctors or surgeons that ended back in the same
hospital after they've gone home to do this thing, but that was me.
So I would, you know, wake up at say 10 or something like that.
Get up, I'd train a bit of a walk, do whatever I needed to do work.
And then I'd set off to go to Manchester from Newcastle at 7pm.
Get there at 9.30, set up the club, run from 10 until 2, 2, cash the till, which
is the most cognitively demanding task before you're about to finish.
Get back in the car, 2 30, drive back to Newcastle, get in at 5 AM.
And we did that, I did that once a fortnight for four years.
There would also be one night in Newcastle where I'd be up until at the very least 2
30 in the morning.
So I was cashing the till at one of our sort of, we would call it a domestic event, one
of the home games as opposed to a away game.
And, you know, I'd alternate that with my business partner.
And then there was, you know, just the vacillations of being a 20 year old club promoter in the
North of England.
So you know, that was all of that stuff was happening.
And yeah, that happened until I was 32. And then, you know, COVID comes along.
And that's the first time in my entire life that I go to bed and I wake up at the same time.
And what did you feel? Did you feel subjectively any and be truthful?
Just yeah, yeah, yes. I mean, look, for me, the single biggest determinant in my mood is my sleep.
If I'm under slept, also if I've slept in,
a lot of that's to do with the story that I tell myself.
I think I wanted to start becoming a morning person
and I thought, oh, you know, genetic night,
maybe we can get onto it, genetic night owls, early birds,
I must be one in the night owl thing.
It's like kind of maybe,
but also you've had to survive in this industry
for the last 15 years.
So maybe your body's just compensating for what it is that you have to do.
But I found that, um, the quality of my mood, the quality of my thoughts, uh,
my emotional regulation, uh, these things took a marked, uh, turn for the better.
Um, I found myself being able to regulate my appetite more, uh, what it was that I wanted to eat. Even if I was getting the eight hours, because I wasn't getting
ripped around by basically doing shift work, that didn't happen. Yeah, a lot of things
that my ability to introspect changed as well. Lots of things.
Yeah. And isn't it, it's almost like being in a room where the refrigerator compressor turns off.
And it's only when it turns off that you realize it's been on all the time.
Right.
I just thought that was like.
The same, exactly.
And it's only when you finally disengage from the brutality of that schedule, do
you realize, my God, this is not me in my thirties.
There's a different form of me sitting underneath all of this.
Well, I mean, this is the bizarre thing when you start to think about who are you
and what does it mean that you have a nature?
Well, okay.
You have a nature, you have a disposition for anger or discomfort or introspection
or sadness or happiness or whatever it might be, joy.
Okay.
Let me double your testosterone. Just that one intervention. Now let's see what you think you is. Well,
you are still you, but also the daily experience of you, the sort of landscape that you inhabit
internally and the way that you show up externally has probably changed at least somewhat. Okay. Let
me chop your sleep in half. What does that mean? Like who are you on half the amount of sleep for two weeks?
Yeah.
Who are you now?
Well, you're still you, but we have this sort of sense of who we truly are, which
is kind of like a best version of us, like a flourishing, thriving version of us.
And then we have this other one.
But again, as you say, you know, kind of like the, uh, the Stockholm syndrome of
our own sleep deprivation or sleep irregularity, maybe,
we don't know who we could be or who we are
with regards to that.
And over the last 18 months,
I've been fighting with sleep again,
sort of really trying to dial in sleep quality
and struggling quite a lot.
And that again makes me quite, okay, well,
who is, what is it that I'm fighting with here?
How much of this is me
and how much of this should I identify myself with? And how much of this is me and how much of this should I identify myself with?
And how much of this is just a by-product of what's going on at the moment?
It's really interesting.
And you've also got to ask yourself the question at some point, you know, what is
it that I want out of life?
Because I think so often in life, you know, the professional gun goes off and
you're off into the rat race.
And the thing is, even if you win the rat race at the end of the day, still a rat.
So why not just stop and look up and firstly ask, do I even want to
be running in that direction?
And do I want to be this physiologically kind of distraught person by way of that
run that this life is, is enacting on me.
And that's what it was with you.
And now being shortened as well.
And you're right, precisely.
And also it's not just that we're going to live a shorter life, but that shorter
life is going to be more likely filled with disease and sickness, which is not
your lifespan, but your health span.
And I think what you're describing is we do a large amount
of work in sleep and mental health.
And I would say that one of the most sensitive faculties
that takes a nosedive like a dart into the ground
when you are even sleep shortened
versus totally sleep deprived is your mood
and your emotional stability.
And we understand all of the brain mechanisms as to why, but when you're getting sleep,
a la the COVID experience, my guess is that you woke up and you are now dressed in a different
set of psychological clothes.
And sleep is almost like a set of emotional windscreen wipers, that it just adds the rose
back into the tint of your life glasses every single day.
And when you look, it's not necessarily, and we've done these studies, when you are under-slept,
it's not as though you slide down into the negative more and you experience negative things more negatively.
You do somewhat. The main thing is that you lose the pleasurable feelings of normally pleasurable
things. That's what we call anhedonia. The lack of the ability.
Sleep induced anhedonia.
Correct. And anhedonia is the principle underlying feature of depression. And that's why we see
such strong links between sleep and. In fact, in the past 20 years of studying, we have not been able to
discover a single psychiatric condition in which sleep is normal.
To me, that is one of the most, I think, demonstrable indications of this
tenuous link between your sleep health and your mental health.
They are so intertwined.
And there's a lovely quote by an American entrepreneur, E.
Joseph Cosman.
And he once said that the best bridge between despair and hope is a good night
of sleep. That's exactly what the data demonstrate.
One else is that the same regularity.
So we mentioned gold standard 15 to 20 minutes of wobble for sleep time, 15 to 20 minutes
of wobble for wake time.
Black standard at the bottom end, bottom quartile, two hours of wobble.
So from when you typically on average would go to sleep an hour earlier or an hour later
and the same at your wake time.
Is there anything else to say when it comes to regularity?
I think there is.
I think it's probably you, You came onto it beautifully with the Netflix
description, which is where most of us get hammered with our regularity is the front end of
sleep going to bed. And the Netflix phenomenon is really what we call sleep procrastination,
which is you are plenty tired enough to sleep, but there are things that are getting in the way,
be it online shopping, checking social media. And what to do about that, I would just at least say,
set a to bed alarm, not just a wake up alarm, but a to bed alarm. It goes off one hour before bed,
maybe even let's just say 30 minutes before bed and live in the real world.
At that moment, at least dim down half of the lights
in your house and see if you can do at least
a digital detox.
Fine, keep watching your Netflix on your TV,
but for the most part, see if you can put your phone away.
My goodness, that's the other thing that will activate you.
We used to think it was the blue light
from tablets and screens.
And there was a great study from Harvard
that indicated certainly one hour of blue light exposure
before bed blunts something called melatonin,
which is this bioactive nighttime hormone,
which signals sleepiness.
It certainly did that and it disrupted sleep.
And we were all on the good bus of blue light is,
the nefarious agent that will fleece you of your sleep.
Then came along some great work
by a guy called Michael Greta's are,
and he actually argued now, I think very powerfully,
it's not the blue light.
It's that these devices are attention capture devices.
And they are designed to ruthlessly fleece you
of your attention economy.
And my goodness, are they good at doing it?
Because they've spent hundreds of millions of dollars
developing that technology.
And as a consequence, you become so cerebrally activated
that it masks your state of sleepiness.
So you could be saying, okay,
if there was an electromagnetic blast
that came through Austin at 11 p.m. at night,
you would normally say, look,
I'm not sleepy until midnight.
And I just don't feel sleepy right now
because I'm on my phone and you're getting activated.
All of a sudden that goes out,
within 10 or 15 minutes,
you actually get hit by this wall of sleepiness
and you think, Jesus, I actually am pretty sleepy
because it hits the mute button on the signal,
the physiological signal of sleepiness
because it overdrives it with activation.
Well, I mean, the converse, which is pretty easy,
I think that you're so right as well
that there is something triggering about activating
about that kind of use you're, you're involved, it's engaging, you're, you're
sort of thinking about stuff.
It's kind of passive, but boring at the same time, but also engaging.
Very interesting.
Uh, but I used to use it if I was stuck in traffic or whatever, and I was
tired after driving back, I would make sure I had a really compelling YouTube video
on, so I would use that effect on the opposite side.
I need to stay awake.
You would reverse engineer it.
Yes.
It keep you awake.
Exactly.
Correct.
Quick note talking with Matthew really drives home how much our overall health
depends on the basics, like getting a good night's rest, which is why I've been
prioritizing tracking my health more closely and function has made it
unbelievably easy to get a clear picture of what's happening inside of my body.
They run lab tests twice a year
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They've got a team of expert physicians
that then take that data and put it in a simple dashboard
and give you insights and actionable recommendations
to improve your health and lifespan.
They track everything from your hormones
to your nutrient levels,
two key areas that affect your sleep.
They even screen for 50 types of cancer at stage one, which is five times more
data than you get from your annual physical.
Best of all, Dr.
Andrew Huberman, Dr.
Walker's colleague is their scientific advisor.
So you can trust that the data and insights you receive are
scientifically sound and practical.
Getting your blood work done and analyzed like this would usually cost thousands,
but with function, it's only $500.
Right now you can get the exact same blood panels I get and bypass their waitlist.
I'm going to the link in the description below or heading to function health.com
slash modern wisdom.
That's function health.com slash modern wisdom.
I'm interested in, I saw a study a little while ago.
I don't know whether it ever got replicated looking at e-readers and
looking at the effect of e-readers.
Most of them now, you know, the best Kindles have got a warmth level as well as a brightness level.
Have you looked at, a lot of people want to read, but if you're reading and you're
reading a paper book, that means you've got to have a light on, light's quite
bright, so you can go to a Kindle and you can pull that down, but that's a screen.
Have you looked at anything to do with light exposure from e-readers
impacting sleep quality?
Really interesting.
And that's actually a great way to continue
to engage with digital media in terms of reading
if that's all you're doing.
So the page is black, the text is a cream or a white,
therefore the amount of looks that's coming from the screen
is already lower versus because obviously the background
is the far more dominant constituent of that page.
So black paper, white text, that's perfectly fine.
You've got to be a bit careful in terms of what you're reading.
If it's the content, you know, if you have all sorts of salacial stuff, then, you
know, maybe the heart rate is going in the wrong direction, but for the most
part, that's completely fine.
Um, but I would say even if you, two things about your phone,
if you have to take the phone into your room,
because again, I don't want to be puritanical,
that genie of the phone being in the room is out the bottle
and it's not going back in, no matter what I say.
Two rules, if you can, you can find some software
that can try to turn the screen monochromatic.
So everything goes black and white.
And it's pretty surprising at how reduced in terms of the activation.
And my phone's next door.
Let me show you this.
I'm going to, hang on, wait there people.
I promised people who are listening, we did not plan this.
This is completely.
So you'll know that there's a accessibility function that allows you to turn things grayscale.
Have you ever seen anyone do that?
Oh, that's genius.
And turn it, turn all of the blue off and turn it just red.
So you can see here.
How on earth did you do that?
Just internally on the, on iPhone.
So you go into settings and accessibility and then you, the same as you triple click
to go gray scale, the same function,
but you just use the slider on the red side.
You kill all of the color except for red.
And that means it's so much darker.
So when you do this, especially if you need to use it
a little bit later on in the evening,
you just, and I triple click, and it goes from.
You just stack the two things, which is first,
it's almost monochromatic, but second, it's
desaturated the blue light and it's the blue light, which is the lower wavelengths that
are most deleterious to harming your melatonin.
It's that black belt strategy.
That's all blue light.
Black belt.
That's genius.
By the way, do you know why it's the blue light that's so bad for your melatonin?
Why it's so powerful in terms of... Is that because when the sun is lowest in the sky in morning, it's...
Oh, when the sun is highest in the sky, sorry, it's more blue,
and when it's lower and it's going through more atmosphere, it's redder.
Is that why?
Some of that is true, but it's not the main reason.
It's because where we evolved from, evolved from the ocean, from the sea.
And there, because of the way that light is refracted through water, the
principal color of the sea, of the ocean are blues.
And so where we evolved our circadian rhythm originally was under the water.
And the way it was regulated was using light, but the color of light under the water was
principally blue because it was kind of desaturated from the reds and the yellows.
Isn't that amazing?
That's so crazy.
This isn't even reptile brain.
This is fish.
Oh no, this is, you know, reptiles, amphibian fish.
We are way before, you know, avian and mammalian emergence.
And by the way, it's only in birds and mammals
that we see this thing called REM sleep or dream sleep.
And it's a surprising thing.
We still don't understand what that tells us
about the functions of REM sleep.
REM sleep is the principle stage in which we dream.
And before, with every living species
that we've studied to date, sleeps.
What that means is that sleep probably evolved
with life itself on this planet
and fought its way through, heroically,
every step along the evolutionary path.
Go, if sleep doesn't serve an absolutely vital function,
it's the biggest mistake the evolutionary process
has ever made, and we now realize
why it didn't make a blunder.
But what's interesting is that what first came into being
was this thing called non-rapid eye movement sleep.
And for millennia, there was no rapid eye movement sleep.
There was no dream sleep.
Something happened when we went from amphibians,
reptiles, and fish up to birds and mammals.
Now birds and mammals evolved separately
in two separate lineages from reptiles, amphibians, and fish.
Birds have REM sleep, mammals have REM sleep.
What that means, firstly, is that REM sleep evolved twice,
independently, in the course of evolution.
When you see the same thing evolve twice or more times,
like eyes, for example,
it tells you that it's probably a fundamental trait of a living species.
So what we don't still understand though is why do birds and mammals require, why did
REM sleep emerge into being?
Now we've got some theories because one of the differences is that birds and mammals
regulate the temperature.
We are homeotherms.
We get the ability to control our core body temperature.
All of those other species don't.
So it has to be something to do perhaps with metabolic control to produce thermoregulation.
There's probably other theories too, but nevertheless, going back to the
evolutionary story and we'll come back to don't, I haven't forgotten the final
T for QQRT, but I've put forward a theory that sleep actually never evolved.
Why do we think that sleep evolved?
Why don't we think that sleep was the default state of all life? And it was from sleep that wakefulness evolved. Why don't we think that sleep was the default state of all life and it was from
sleep that wakefulness evolved? I've always been confused why we don't.
Well, because you wouldn't be able to survive if you just slept, but you could survive if
you just woke.
The idea would be though that if sleep is this initial default state, it is enough to
support life and its existence.
And some of those species could reproduce potentially
asexually, so you wouldn't have to necessarily be awake
to find a mate.
You could at least have a proto version of life
and the proto version requires this stasis state
that we call sleep.
It would somehow accumulate nutrients
by falling through gravity.
Correct.
You know, think of, you know, there's any manner of static living organisms that
stay in place that don't move around.
But then at some point there was enough evolutionary pressure to demand this
thing called movement and demand higher levels of consciousness.
And it was, so that's one way of seeing it.
I think the other is, let's say wakefulness came first.
Why don't we then just have wakefulness?
Why do we need sleep?
Sleep is clearly the price that we pay for wakefulness.
That's another way around that we can see it.
So I've gone off on an evolutionary tangent there
based on your brilliance,
but I can always come back to the final T if you like. Yes, please. Timing.
Timing. So timing, so QQRT, timing sounds like regularity and you think,
hang on a second, that's the one and the same.
It's not. Timing is your chronotype.
Are you a morning type, evening type, or somewhere in between?
If you're an evening type, the headline piece of news is, it's not your fault.
Because it is largely genetically determined, there are at least 22 different genes that
dictate your morningness or your eveningness.
And therefore you don't really get to decide.
It's gifted to you at birth.
And it's very hard to change.
They tried it with a great study out of Australia
where they took night owls who were kind of
one, 30 a.m., two a.m. type people.
And they gave them, I think it was a total
of 11 different rules and I'll forget some of them,
but it was wake up two hours earlier,
as soon as you wake up, have breakfast,
right after that get at least 30 minutes of daylight,
don't nap, cook caffeine off after midnight.
Don't nap in the afternoon.
In the afternoon, if you go outside, you've got to wear shades,
start to get dimness already.
Eat two hours earlier and make sure that you're eating at least three hours before
bed and then make sure you get into bed at least an hour and a half before you
normally would do.
And they were able to bring those night owls back by about 60 minutes.
But if you go into bed at 1.30am normally and you drag back, you're still a 12.30am
type person.
And that was extra.
Imagine trying to do that every day for the rest of your life with those nine to 12 different
rules.
The adherence to that protocol is probably going to be very difficult and sustainable throughout life.
So even with all of that extreme, it's hard to do.
Why is your chronotype knowledge important?
By the way, you can just go onto Google and just type MEQ test,
which stands for morningness, eveningness, questionnaire test. It takes about three minutes and it gets you about 80 to 90% accurate
close to your actual genetic chronotype distinction.
So it's a pretty good test for what you are.
You probably already know what you are.
You can probably answer it by a simple question.
If we put Chris on a desert island, nothing to wake up for,
no responsibilities, no clocks, no nothing,
what time do you think your body would naturally like
to go to bed and naturally like to wake up?
And the reason, by the way, I say your body,
rather than what time would you,
you're already too biased by society's predilection
to morning types are the best types.
You know, it's the early bird catches the worm type mentality.
So to which I would say, by the way,
that the second mouse gets the cheese, but let's move on.
I would still say though that it's so difficult
to fight against that.
And we see this also at the sleep center.
People will come in and say,
I've got terrible sleep onset insomnia.
That I get into bed for the first hour and a half, two hours, I'm awake, I just can't fall asleep, I've got terrible sleep onset insomnia that I get into bed for the first hour and a half, two hours.
I'm awake, I just can't fall asleep, I've got insomnia.
And then we do a chronotype test with them.
And for some of them, what we find is that
they're a night owl,
they'd like to go to bed at midnight.
But because of the way life is structured for them,
they're getting into bed at 10 p.m.
And they're awake for the first two hours,
they don't have insomnia.
They have a mismatch between when they're trying to sleep
versus when their biology wants them to sleep.
And when you sleep in synchrony with your chronotype,
you get a beautiful distribution of quantity and quality.
When you fight against your biology, you normally lose.
And the way you know you've lost is typically disease, sickness, and bad sleep.
So, so that's why I would always try to emphasize your chronotype
as a critical last component.
So I think I'm probably a pretty good example of somebody that was, uh, like a,
how would you say chronotype fluid?
Um, being in my, oh, you're a genius, Chris.
I love it.
Uh, being in my twenties and I say and I was adamant.
I'm a night owl.
I finished my every single assignment at my two degrees at
uni were all done at three in the morning.
That was where I came alive.
I used to have my most creative moments
between about 10 PM and maybe one in the morning.
I could really drill of drill down.
And then COVID comes along and I was, I was already starting, I mean, this is after your
episode on Rogan had come out.
So I'd already realized I needed to start to prioritize sleep in a different kind of
a way.
And then COVID comes along and say, well, I just see what happens, I guess.
And I started to get myself a morning routine that was unnecessarily elaborate.
And then I, over the last, what, four, four and a half years, since that came
along, my natural wake time now is 7 AM.
If you don't put an alarm on, I will get up at 7 AM.
I will go to bed at the moment.
I'm going to bed at like 7 PM or 8 PM, which I need to have a chat with you about.
Yeah.
But, uh, I will get up at 7 AM and I don't know, I don't know how much of it, you
know, the chronotype thing, the night owl, early bird or something in between,
although useful and powerful, I worry will be used by a lot of people to
justify their poor or obsessive sleep habits in whichever direction that they
kind of want to rationalize that they
should take it. Like I say- This is so natural. I understand that.
Absolutely. I mean, I was somebody that had Stockholm syndrome from his own industry.
Whatever, the prison guards had become my friends because I did what I needed to do in order to be
able to survive in the world that I was living in, but liberated from that, free from that for a
full four years, right? Where I was no longer having to do this. I was living in, but liberated from that, free from that for a full year, four years, right?
Where I was no longer having to do this.
I was actually incentivized to maybe get up a little bit earlier, train and then prep
and do the episodes and so on and so forth.
Oh, well, it seems like my body works in a different way.
So yeah, very fluid in that regard.
Yeah.
And I think you, so we definitely need to have a discussion if you're going to bed that
early because I'd love to see your sleep efficiency.
Nevertheless, I think what that teaches us
is much like sleep deprivation.
You don't really know that you are sleep deprived
when you're sleep deprived.
Your subjective sense of how well you're doing
when you are not getting sufficient sleep
is a miserable predictor of objectively
how you're doing within sufficient sleep.
You know, and the analogy you could use
as a drunk driver at a bar, they've had,
you know, three or four pints,
they've had a couple of shots,
they pick up the car keys and they say,
I'm fine to drive home.
And you say, I know that you think you're fine to drive.
Trust me, you're not.
Let me just grab you a cab, I'll take your car keys.
And it's also the same with your natural chronotype tendencies versus over
driving it and trying to force yourself to be, let's say a night owl when
you're actually not a night owl.
I would also say that when you start to get very regular and you sleep in
harmony with your chronotype, you start to not need an alarm.
And that's the other strange thing, by the way,
human beings seem to be the only species
that will deliberately deprive themselves of sleep
for no apparent good reason.
And often when people say,
how do I know if I'm getting enough sleep?
One question I'll ask is,
if your alarm goes off in the morning, you wake up,
but if your alarm didn't go off tomorrow morning, would you sleep past your alarm?
If the answer is yes, then it tells me that your body's not done with sleep.
And no other species does that.
They just sleep until they're done with sleep.
But we will naturally terminate that for all sorts of different reasons.
And so I like the idea that you will wake up no matter what at 7 a.m.
It tells me something about your unique biology.
Now my guess is that even if I put you into bed at 2 a.m., you're probably not going to
sleep the same duration that you would do otherwise.
7 a.m.
Right, exactly.
Because your body has a natural circadian rhythm that even when you are sleep deprived, it will go on its awesome upswing of a piston activation and wrench you out at 7 a.m.
So you're getting closer to understanding what your biological rhythms are, at least at sleep offset.
Talk to me about the relationship between timing and regularity, because it seems like
those two are intrinsically linked.
Some people might have even confused it.
How important is it to get regularity if we're getting enough of it?
Like, sleeping during the day, but staying up at night, you already mentioned kind of
dampened it a little bit for the night owls to say, oh, you know, it's not your fault
and so on and so forth.
But I imagine that there is some predictive power for mortality for people that are
waking and sleeping more aligned with when the sun is up, when the sun goes to bed, et cetera.
More aligned if they're sleeping in harmony with their chronotype.
Okay.
So if evening types are sleeping like morning larks, their sleep quantity is shorter,
their sleep quality is far worse.
And that's the reason why they have higher rates
of mental illness, psychiatric conditions,
higher rates of diabetes.
Oh, that's so interesting.
Higher rates of obesity, higher rates of hypertension,
stroke and heart attack.
So you can see that the consequences of fighting back
against that biology.
Now it can also work the opposite way too.
If you've got a morning type that's sleeping like a night owl,
which rarely happens in society,
because society is so biased.
Comic club promoted.
Towards exactly, but you are the archetypal example.
What happens there is that you are going to bed late
and you will necessarily, you will still be short slept.
Now the night owl that's getting forced to sleep
like a morning type is going to struggle to sleep
on the front end because they're not ready for sleep.
Your problem is the opposite.
You are going to bed far later than you would normally,
naturally like to do,
and you will fall asleep ever so quickly.
The problem is, you want to get your seven to nine hours
and sleep later into that morning,
but you're awake at seven.
That was less of a problem when I was younger.
Again, this whole thing sort of started
when I started to get regularity.
It was like, I don't know,
I was an MMA fighter
from a sleep perspective and sort of just sometimes ground and pound and sometimes stand
up game and other times it was Brazilian jiu jitsu. Whereas now I've just pivoted into
one particular type. So I think giving myself a little bit more structure has resulted in
a kind of lock in with my sleep that I didn't have before. I was able to shift that window
around and again, maybe it was not too dissimilar
to squeezing down sleep so that you get sleep efficiency.
Everybody that's a shift worker that's listening to this
or most of the people that are shift workers,
because I would imagine if you couldn't deal with it,
if you weren't, if you were insufficiently sleep flexible
when it comes to moving around your shift work,
you would have lasted a couple of years and being like,
I can't keep doing this.
This is gonna kill me. So yeah, again, we're very adaptable, at least for me,
we're very adaptable. I had a full, uh, intellects, DNA, uh, genetic screen done,
which was the super Uber platinum, everything, everything, everything. Nothing came up for,
uh, sleep a bunch of stuff for sort of dopamine, epi nor epi, uh, but nothing really came up for sleep. A bunch of stuff for sort of dopamine, epi, nor epi, but nothing really came up for sleep.
So that was kind of interesting to me.
So I guess the question I've got, what happens to all of the cues, the R and the T, as we
age over time?
What starts to get manipulated and changed in terms of all of those as we grow up, as
we get older? Yeah, bloody great question.
The first two cues get much harder.
It's much harder to get the same amount of sleep that you did in your 30s, 20s, or 40s,
when you're 60, 70, or 80.
And this is one of the myths in sleep.
People used to think, well, older adults need less sleep.
And if you look, they'll on average get maybe six,
six and a half hours of sleep.
What we now understand is that older adults still
need the same amount of sleep as they
did when they were in their 40s.
The difference is their brain simply
can't generate the sleep that they need.
And I've always been perplexed by that mentality of people just saying,
well, older adults get less sleep, so older adults need less sleep.
That's the equivalent of saying, well,
older adults have weaker bones because older adults just
don't need bones that are as strong in later life.
No, we don't say that.
We treat them with calcium and resistance training
to try to maintain that bone density. Why don't we take the same
mentality with sleep? So firstly, quantity gets much harder. It's harder to
generate the sleep and we know why because as we get older, just like our
body deteriorates, our brain also deteriorates. The problem is that your
brain does not deteriorate in a homogeneous manner.
What I mean by that is some parts of your brain rapidly deteriorate or at least more
rapidly than other parts of the brain. And when we've mapped that what we call brain
atrophy and you can almost play a movie now where you look at it across decades and you
can see these beautiful morphological changes in the brain. The two areas that, or at least one of the main areas that generates your deep non-REM
sleep is right here in the frontal lobe, right in the middle, called the medial prefrontal
cortex.
That area is the epicenter for the generation of deep sleep.
And that degrades most rapidly when we get older. So unfortunately, the aging brain
is a sleep dependent aging brain.
It's especially sort of ravaged by the process of chronology
relative to other parts of the brain.
So that's the first issue.
The second is quality.
And quality is here coming back to
you are nice and continuously asleep for most of the night
versus you're awake, you're asleep, you're awake,
you're asleep, or you're awake for long periods of time.
That is much more like age-related sleep.
If I were to show you sort of the,
what we call the hypnogram of sleep,
which is what you see on your sleep trackers,
it looks time of night along the horizontal axis.
You've got this different sleep stages
and you go on this beautiful rollercoaster ride,
REM, non-REM.
But then if you look at the aging brain,
you've just got all of these kind of like a dolphin
going up surfacing for wakefulness all of time.
It's fragmented sleep, poor quality of sleep.
Part of the reason is because the release of melatonin
is not in the standard beautiful
where melatonin peaks just before you go to sleep, stays high and then drops down low.
You just get this really flat profile of melatonin as you get older.
Secondly, you've got the deep sleep generating brain regions deteriorating so you can't stay
in deep sleep generating brain regions deteriorating, so you can't stay in deep sleep.
You surface in these lighter stages where you're more vulnerable to being woken up.
And then the other sort of component of age-related sleep decline comes onto the aspect of your
chronotype.
You are given your chronotype at birth, but it's highly age dependent in terms of where
you're sleeping on the clock face.
So as let's say a six year old, we all wanted to be awake with the adults at the weekend
and try to stay awake and we would try and try, but you know, I just remember at nine
o'clock being kind of like lifted up to bed because I'd fallen asleep.
I used to annoy the living daylight out of me.
So there, even though I'm mostly a neutral,
I'm kind of like an 11 to 730 kind of guy,
there I still had my neutral chronotype.
But as a child, my neutral chronotype
was sort of nine to 6 a.m. in the morning.
And then as I got older, I moved forward in time
and I found my adult sweet spot.
But then, per your question, as you get older in late life,
now you start to regress back and you become more childlike.
You want to go to bed earlier and wake up earlier.
It's the reason that if you go to Florida,
where you've got a lot of retirees,
you've got the early bird special where people now are eating at 430.
You know, they finished their meal, their home by eight and they're in bed by nine because
they've regressed.
But even if you take, you know, 180 year olds in Florida, you'll still get a distribution
of some people wanting to go to bed at, you know, p.m. others more close to 10 p.m. there's
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One question I had, do sleeping positions matter?
Why, why do people have habits
when it comes to their sleeping positions?
It's really interesting that people say,
I'm a back sleeper, I'm a side sleeper.
That's not really true.
You will typically sleep in almost all of those positions
throughout the night.
It's just what is the dominant position.
And when people say, I am a X sleeper or Y sleeper,
you're just talking about what you typically do more often
relative to the other positions.
More people are side sleepers than front sleepers
or back sleepers.
About 60% of people are most often side sleeping.
Position doesn't matter with probably two exceptions,
although one of them has an asterisk,
which is I don't want a skirmonger.
The first is definitive.
If you are snoring, if you have sleep apnea or undyed,
if you know anyone who is snoring and they have not if you have sleep apnea or undyed, if you know
anyone who is snoring and they have not been tested for sleep apnea, go and get
them tested or if you are go and get tested. It's real easy to figure out if
you're a snorer or not. Download an app I have no association with them it's
called Snore Lab, Android Apple. You open it up, you hit record, you
place the phone down by your bedside,
it listens to your snoring.
And then at the end of the night, you can see the amount of snoring and it grades it
from quiet, moderate, loud, and epic.
And you see these Richter shocks throughout the night.
The worst still, you can then go and tap at any moment in your night
and you can listen to yourself gasping for breath and snoring. Because snoring, what happens when
you snore is that the airway starts to partially collapse. And when it starts to partially collapse,
like a straw that gets bent, sort of, you start to get these fluctuations, these eddies in the airway,
and that's the sound of, that's the partial collapsing of the airway.
When the airway collapses completely, the straw goes flat effectively, that's when you
stop breathing entirely.
And you can be there for 15, 20 seconds, and your blood oxygen saturation just starts to
plummet.
And at some point, your brain stem, which picks up the ratio of the gases in your bloodstream
between carbon dioxide and oxygen says break glass in case of emergency.
Like him up.
We've got to wake him up.
And that's the moment where you hear and you gasp and you're back up again.
As a consequence, you're never going into deep sleep.
You stay in those shallows of sleep.
Now mild sleep apnea,
if you have these what we call apnea events,
and apnea is a word, it's beautiful.
Pneumonia is breath from a Latin derivative.
Anything in medicine that has the word a before it
is usually the absence of it.
Arrhythmia, the absence of a normal rhythmic heart.
Apnea is the absence of breath.
And mild sleep apnea is you having maybe five to 15
of the events per hour.
That's how we grade it.
For each hour of sleep,
how many of these events are you having?
Mild sleep apnea, let's just call it 10 events.
And you're asleep for eight hours.
Imagine if I were to come in and say,, Chris, I'm going to come into your
room and for the entire night, maybe 80 times throughout the night, I'm going to
come in and I'm going to throttle you around your throat to the point where your
oxygen saturation drops below 80%.
Do you think you're going to feel good by tomorrow morning?
The answer is no, but so many people are living with undiagnosed sleep apnea.
We think at least 80% of people who have sleep apnea are undiagnosed right now.
And that will put you in an early grave.
Is snoring the same as sleep apnea?
No, it's not.
You can have snoring and it will not classify as sleep apnea.
You still want to understand why you're snoring, but nevertheless, you can just get a very simple home test.
In fact, you can look at your risk for sleep apnea already.
Go online and type in the search term stop-bang-questionnaire.
Stop-bang-questionnaire.
And again, it takes probably two minutes to fill out, and it will give you a risk hazard
ratio of how likely is it that you have sleep apnea?
And it correlates very well with an at home sleep apnea test.
So it's a good quick proxy.
I love SnoreLab though.
That's another great way to frighten yourself into understanding what's exactly happening.
So all of which to say, I think I'm forgetting how we got here, but nevertheless, sleeping
positions. All of which say, I think I'm forgetting how we got here, but nevertheless, sleeping position is one of those situations where when you are lying on your back, you are allowing your airway the direct access to this thing called gravity.
And when gravity is present with back sleeping, it's far easier to pull that straw flat shut.
So that's why we typically don't like people
with sleep apnea sleeping on their back.
The old school approach, gosh, when I was coming up
to sort of start to treat was to at least get you away
from a back sleeping position,
was you would ask the gentleman,
usually the more heavy set,
you would ask them, find a t-shirt from your wife,
usually smaller, and get that t-shirt that has a pocket
on the breast.
And then I want you to wear that tight t-shirt back to front.
And then I want your wife to take a tennis ball before you sleep and put it in the pocket.
And every time you roll over, it's so uncomfortable that you train yourself out of back sleeping.
Wow.
And so that's the way that's the old.
Is that, so why do we have preferences for sleeping position?
Is this chronotype?
Is this just habitual?
Can we train ourselves up to be usually based on your skeletal ergonomics
and how you want to sleep.
It's also in part driven absent of your body based on your mattress.
And so that's why, you know, having a mattress that's at least supportive enough
where you don't get that banana bowing, because if you are a front
sleeper and you're sleeping on a poor mattress, then all of a sudden you just
get this every night, this bending of the spinal cord and you're lying there.
I might just say, okay, today for eight hours, I'm going to have you compressed
into this banana shape lying on your front.
And then at the end of that eight hours, get up and, you know, do 10 jumping
jacks and feel great, not so much.
So you've got to be mindful of the position.
So I would say sleeping on your back, if you're a snorer, not so great.
There is some evidence that sleeping and I'm going to forget which side it is.
Now I'm trying to think of my anatomy, but sleeping, I think it's on your left side based on how your gastrointestinal system is working leads to a greater degree
of GERD, which is gastric reflux.
In other words, getting heartburn, you just get reflux.
Interesting.
So that's the, the second one though, Riddhi, that I was going to mention is sleeping on your front or on your back
may not necessarily be ideal
because what they found is that during sleep
and this quick tangent, I'll come back to it,
but another one of the new functions of sleep
is brain cleansing.
That when we go into sleep,
your brain essentially has this
sewage system that kicks into high gear and it washes away all of the metabolic
detritus that's been building up across wakefulness. Because from a biochemical
perspective, wakefulness is low-level brain damage. Sleep is your sanitary
salvation. And two of the pieces of metabolic detritus that that sleep
system will cleanse your brain of are beta amyloid and tau protein, which are the two culprits that underlie, we believe,
the Alzheimer's disease cascade.
And what's interesting is that when you are sleeping on your side, these are animal studies,
they found that that cleansing system is more efficient than when you're sleeping on your
back or your front.
And what they did was they showed this in rats and in mice.
And then I was watching this, I was at the conference,
they started to show you pictures in the wild
of every single animal sleeping.
What was common across all of them,
no matter how they contorted their body,
the common ingredient was that their head
was always on one side or the other.
As if that was the natural sort of tendency,
the predilection of how sleep was optimally designed.
And they argued that the reason for that
is because that's when you get greatest optimality of flow
of this, what we call the glymphatic cleansing system.
Now I would say that I haven't seen strong replication
of that nor have I seen any evidence
that that's true in human beings.
Human beings are very odd species.
Our head is tilted 90 degrees relative to many others.
Think about a giraffe, a donkey, think about a dog, a cat.
Their head is lifted up in line with their spinal cord.
When we went from being quadrupeds to bipeds,
one of the things that had to happen,
because we were walking on all fours with our head out
like a dog, if you then stood up on your back legs
but kept the head in that same position,
all you're doing is looking,
getting very deep interesting clouds.
So our head tilted down 90 degrees.
And so that means that our ergonomics of the head
and the cranium may be very different to animals.
So I think the jury is out and I don't think
that's any good reason for you to start worrying about,
oh my goodness, I've got to get my head to the side.
And if I'm not, if it's down on the pillow
or I'm on my back, don't worry about that.
Is there anything else to say on sn back, don't worry about that.
Is there anything else to say on snoring, people that snore, why we snore, and then
sort of progressing through that to treat sleep apnea?
I would simply say that coming back to being insufficiently slept and that mood dysregulation
and you not knowing what you, the true self, actually was, is ever more true in untreated sleep apnea patients.
And I remember we were doing a study with one group
and we started to treat these individuals.
Now there are numerous new treatments out there.
If you have mild sleep apnea,
you may not need one of these masks, these nasal pillows,
which are called CPAP machines, C-P-A-P,
and it stands for Contin positive airway pressure.
This little nasal pillow pushes pressured air up your nose
and it acts like an airway splint
to keep the airway open so it doesn't collapse.
Now, if you have severe sleep apnea,
I know that these machines can be invasive,
although people like ResMed have really great machines now.
The old school kind of mask, Fighter Pilot, Tom Cruise,
those were tough to live with.
Now they're much better.
Nevertheless, I would say,
even if you feel as though you're not,
you're struggling to sleep because of this kind of pipe
that's coming off you,
that's still far better than you sleeping without it
and having the horrific oxygenity saturation
and minimal sleep quality that you get otherwise.
So nevertheless, if you have mild sleep apnea,
you now have these mandibular augmenting devices.
So it looks like a sports gum guard top and bottom,
but it's hinged.
And what it tries to do is move the lower jaw forward by just a couple of millimeters.
And what's fun is that you can do this test at home, lie on your back and just sort of
lie there and stop making the snoring noise.
So I can make the snoring noise and then just try to move your jaw forward.
Actually much harder to snore.
And it's a tiny change anatomically in the jaw, but it can make a vast difference.
So now these new mandibular devices are out there.
There's all sorts of new ways.
There are also some people obviously rightly don't wish for this.
There are more invasive surgeries where you'll put a neuro stimulator that
stimulates the airway, forces it open and that saves you from having the CPAP machine and some people end
up-
A permanent CPAP machine.
Yeah, it's a permanent CPAP machine.
So there are lots of great ways to treat it.
What about snoring?
What about reducing snoring, something that's presumably more common than sleep apnea?
Yeah.
So there I would probably go to a mandibular device, speak to your dentist.
If they don't know about it, go find a dentist who does.
They can make up these devices and most of them are covered by insurance.
You can buy them on Amazon, make sure that you just look at the star ratings and
make sure it's rated by at least a couple of 500, 600 people and then believe the
rating and you've got to get a bit used to it.
And, you know, I've, I actually about three or four years ago,
because I would track ruthlessly every night, my snore lab,
I could start to see a little bit of snoring coming on.
Now that's just my age.
As we age, you know, just like the rest of your body,
it becomes a bit saggy.
My muscle tone isn't what it used to be.
And so I started to see signs of very mild sleep apnea.
I wasn't in anywhere close to the region of needing to be. And so I started to see signs of very mild sleep apnea. I wasn't in anywhere
close to the region of needing to be treated, but because I know so much about sleep, I don't want
to live a shorter life, nor do I want to live a life with disease. So I just bought myself one
of these devices. I ended up then having a great dentist friend who specializes and we actually
got the proper device, the custom device. And yeah, but you can buy them on Amazon.
You put them in hot water, you buy down gum guard and they're
actually not too bad as if you can tolerate them for smaller
people who don't have jaws like my jaw and certainly your jaw.
You know, it's going to be a bit, you know, tougher, you know,
if my wife, very slim, refined woman, you know, she's probably
not going to be able to tolerate it because the jaw mass is just not sufficient.
So you've got to be, I'm not trying to say it's a one size fits all for everyone, but
for those who can, if you have some mild snoring, it will clean it right up.
It's very impressive.
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selling today. Let's talk about sleep and relationships.
I think two people trying to sleep together, wonderful pairing.
They're so in love.
Everything's great.
And yet the one of the best predictors for their lifespan, their health span,
their mood, their emotional regulation, the way they feel the next day,
their achievement of their goals, their memory, the fact that they're not going
to fall asleep at the wheel and die.
Wonderful.
That's my next book right there, Chris Williamson.
Wonderful partners in waking, terrible partners in sleeping.
Talk to me about the relationship
between sleep and relationships.
Yeah, there's some really great research on this.
Pioneer in this field is Wendy Troxell, wrote a great book.
And what we find is that if you survey people
and you ask, do you sleep in the same bed together,
one out of four people will say
that they do not sleep in the same bed.
And if you then survey them anonymously,
because there's such a stigma associated
with not sleeping together, about
one in three couples will say, I wake up in a different location than this bed that I
went to sleep in with my partner.
So in other words, they got up during the night and they just went and they got on the
couch and yeah, exactly.
So it's certainly, it's certainly a common practice and it's increasingly so.
This idea, I think poorly named,
which is this idea of a sleep divorce to prevent a real one.
And I'm not suggesting again here
that it is a one size fits all.
It's absolutely not.
Some couples can sleep together and they sleep really well
and they have a preference for that.
What's interesting though,
is that if you measure them
objectively, you always see that when couples sleep together
versus when couples sleep separately,
their sleep is always objectively,
as we measure it with sleep trackers or polysomnography
in the laboratory, it's always worse
when they're sleeping together on average
than when they're sleeping separately.
However, if you ask them subjectively, what do you think of your sleep? They'll say, well,
about half of them will say, I actually feel my sleep is much better quality when I'm sleeping
with my partner versus when I'm not. Some of that has to do with perhaps the societal bias that they
think they have to cleave to. Others, it's about safety that they just feel safer and others.
It's just more intimate.
But what we have definitely found is that it's, if you start to under sleep a
male, if you short sleep them, and if you look at the average data, they could be
in bed, let's say seven hours with a partner, they could be down to around
five and a half hours because of the sleep disruption.
If you put a male, healthy male in their twenties on five hours of sleep for five nights, they
have a level of testosterone of someone who's 10 years older than them.
And you see equivalent impairments in female reproductive health, follicular stimulating hormone, luteinizing hormone, progesterone.
These are all critical sex hormones
that promote superior libido drive,
and it also promotes superior sensation
and sexual pleasure during the act of intimacy.
So firstly, when you're under-slept,
and again, this is not a one size fits all,
but for those that it's not working for, the
stigma in society is that if you're not sleeping together, you're not sleeping together.
But in fact, the opposite seems true because you replete your sex hormones.
We also know that for every one hour of sleep that a woman gets, an extra hour of sleep that a woman gets,
her desire to be intimate with her partner increases by 14%.
Wow.
Now, if you think about the latest libido drugs for women, things like Veilisi, those
will improve libido by about 23 to 24%.
That's a pharmacological brute forcing agent.
But here-
90 minutes of sleep. One hour of sleep and you're, you know, you're getting this.
So all of a sudden, you know, all of the guys now are probably
saying, calling their girlfriends or their wives.
Honey, we need to go to bed an hour.
Yeah.
Should we get into bed an hour and let's sleep in.
Come on, let's have a, um, so, so there's certainly a, a superior
benefit when you are sleeping well as a couple, your physical component of intimacy
is improved. We also know that when couples are sleeping well, from a female perspective
at least, you get by way of those sex hormones, you get greater vaginal lubrication, which
leads to higher pleasure during sex, and you get greater sensitivity of the genitalia
for both man and woman in terms of the intimacy.
The other component though is the psychological component.
When couples are not sleeping well,
for example, when they are sleeping together,
firstly, their empathetic sensitivity is blunted.
Secondly, as a consequence, they end up butting heads more
in the relationship. And furthermore, because their prefrontal cortex, which is the kind of
higher order reasoning logical area of the brain, that's the one that goes first in terms of sleep
deprivation. It's the same one that is there designed to do conflict resolution. So you are, you are in enfeebled as an organism to have a co-opted relationship
that's emotionally mature and designed to be part of a team versus adversarial
and combative and so shorter nights, greater fights.
That's what data starts to demonstrate.
Then you can ask, well, okay, if I design, if I decide to sleep in separate rooms,
how can I firstly approach that with my partner and how can I design it?
The first thing I would say is approach your partner
with curiosity and a non-binding agreement.
Go to your partner and say,
look, have you ever thought about us maybe trying to sleep
in separate locations so we sleep better,
so we're better together as a consequence?
Would you be open to just saying,
look, for the next two weeks, we try sleeping apart,
and if we agree that it doesn't work,
we just go back to sleeping together?
Would you be open to that idea?
So you make it non-threatening,
you approach from a level of curiosity,
and you don't make it binding that from this point forward,
this is what we're doing.
Then how do you design it? What we most of us miss by sleeping together is the bookends of sleep,
because in between we're largely non-conscious. So you can say, look, if before we go to sleep,
I'm just going to come into your room and we're just going to have a kiss and a cuddle. And we're
going to do what we're going to do the front end of sleep.
And then whoever wakes up first, you can go through to the kitchen, make the coffee.
And the person who is waking up second, just text your partner.
And now this is, you know, utopian world where no one's rushing out the door to go to work.
But if you have the chance, then just text your partner and say, hey, I'm awake.
Come in, give me a cuddle, give me a kiss.
And that way you get what you wish for, which is the buck ends of sleep of intimacy,
cuddling and all of those good things, but you still get to sleep apart.
What is it that's happening when people sleep together that's causing the
disruption for the most part?
It's usually two things.
It's the, it's the territorial non-conscious fight for the top
surface called the cover.
The kind of tug of war.
And the second is the distribution of disturbance along the base of the bed,
which is I'm tossing and turning and you therefore may not even remember that I
woke you up, but my movement still.
Train going past outside and it.
Correct.
Yeah.
And you roll over, you're back into shallow sleep.
And then the other person has rolled over.
And now that was just at the time and they're adjusting themselves just at the
time that you fell back asleep after you were the one who caused it.
And now you're awake again.
So firstly, there's the non-conscious physicality of top and bottom sort of
surfaces being moved around.
And then the other is snoring.
It's the other, you know, if you ask a lot of usually women, because now women get sleep
apnea and men get sleep apnea.
It's just that it's probably at a rate of about three to one ratio, men getting sleep
apnea.
It's about the opposite for insomnia.
Far more women have insomnia than men.
It's not to say that men don't have insomnia.
That high neuroticism?
It's usually because anxiety disorders are about devices common in women than
in men and anxiety, just as we spoke about is one of the principal underlying
mechanisms through which we understand this thing called insomnia.
Okay.
Did you see on Reddit quite a while ago, that famous couple sleep study they did
where they ended up with the Tuve solution?
Yeah.
What do you make of that? Because I've had a number of friends.
I have one friend who I'm not going to name.
I have two friends, one friend who a year ago actually it was done on the show is
George, so George, um, fully committed to this.
I've having read that study on Reddit and he had the classic.
Partner's great, but fuck.
We really, the sleep is, is lower quality than it should
be. And he was very much prioritizing it a la Dr. Walker. Um, and he pivoted to a two
day solution.
And yeah, do you want to explain a two day solution just for folks who do do this, two
do two day covers on the top of the bed. Uh, this couple who had maybe using an aura ring
or something similar attract their sleep. The single best determinant of the bed. Uh, this couple who had maybe using an aura ring or something similar, attract their sleep.
The single best determinant of the wife's good night sleep was the husband being in
the bed.
The single best determinant of a bad night's sleep for the husband was the wife
being in the bed.
Uh, for clarity, I think it was the same, it was more of a decrease in sleep
quality for the man as being on the period was for the woman.
Uh, so that was the sort of rate.
Extentive.
Yeah, exactly.
The rate of impact and they tried everything, lots of different solutions.
They didn't want to go to a two bed solution.
So they went to a two duvet solution, which presumably is, as you said, fixing
the top surface is no longer a tug of war because it's two separate surfaces to play on.
So I guess.
Is there not, first off, there must be companies, I think, look at all of
the eight sleeps and the, you know, the, the Helix mattress and stuff like that.
Uh, an extra, extra wide bed that's got maybe some sort of segmented, um, you know,
the honeycomb thing that kind of portions off in the middle with a two-way solution.
I mean, how big does a bed have to be before it's one bed that is essentially two? Do you know what I mean? Like, have you looked at the, the, the, the, the, the, the, the, the, the, the honeycomb thing that kind of portions off in the middle with a two-way solution.
I mean, how big does a bed have to be before it's one bed that is essentially two?
Do you know what I mean?
Have you looked at solutions?
Can you imagine the real estate territory we're talking about here at some point?
Yeah, you're getting right.
If there's just an entire bedroom that's one mattress.
Yeah, exactly.
It's a soft play area for parents.
Keep your bedroom chit chat to yourself, Chris.
What do you think about the two-way solution? Have you looked at that?
Has it ever been replicated?
And then what about solutions, maybe the people don't have sufficient bedrooms in
the house to be able to move to two.
What can people do to make sleeping together better?
Yeah.
Yeah.
I actually think the two-way solution is a great one.
In fact, if you look, there's Equinox hotels, the chain, principally in New
York right now, if you go in there's Equinox hotels, the chain, principally in New York right now.
If you go in, they're highly optimizing sleep,
and I'm just starting to have conversations with them
to see if I can help them with that.
They already do this where the King Bed,
it's dressed in essentially two separate suites
of your sheets, my sheets.
They've got an eight sleep on them all as well, right?
They've got a cooled mattress.
I don't know if they have eight sleep yet, but certainly they, yeah, they probably,
I'm sure they do, but they will, they've already figured this out and it kind of a genius move,
but there's a more extreme version of that and it's called the Swedish method.
And it sounds highly salacious.
Just turns out that this was a method pioneered in Sweden, which is simply that you get two
twin beds, you put them together side by side.
So you're still sleeping essentially next to each other, but there is complete separation
between church and state as it were.
And therefore the bottom and the top is segregated rather than the two way where the bottom is
common.
Do they is split and this way with the Swedish method, you do top and bottom.
Wow.
Which sounds very, it's a little bit, it does sound very Swedish.
Anything else.
I'm so glad you're not cutting that part.
Anything else to say on sleep and relationships?
I would say that certainly sleep affects sex, meaning that when you are getting sufficient sleep, it can promote a
greater degree of physical intimacy and pleasure.
Sex also impacts sleep though.
And what we found, we in the royal way of the sleep field is that sex that is associated with orgasm
ends up producing about a 70% improvement in subjectively reported sleep quality.
Regardless of time of day?
Regardless of time of day, it's higher in men than in women.
So women, it's about a 64% improvement in men, it's about a 64% improvement, and men, it's about a 72% improvement,
but it's still demonstrable.
Now, for some people listening,
maybe you don't have a partner,
but all is not lost because it turns out
that masturbation associated with orgasm
results in about a 50% improvement.
Why?
Part of it is probably because of certain other
social bonding hormones like pro, well, probably
if you look at some of the data,
there is probably vasopressin for men.
And then if you look at that sort of
the classic hormone of bonding, which you,
have you spoken about?
Oxytocin. oxytocin?
Oxytocin, yeah.
So oxytocin that's more so in females than in males.
Fast depressing for men is so fascinating.
And it's, oh, don't get me.
Yeah.
And I've started to speak to Peter Tia, you know, cause he used to use it for all sorts
of sleep related reasons.
But those hormones typically are released by way of pro-social activity.
Now, when you're by yourself, you don't get that added benefit. So there is something about,
and I think what's happening with orgasm is that you're very sympathetic, you're very fight or
flight, you're getting very activated, your heart is racing, but then afterwards it's that kind of cigarette moment
in the movies where all of a sudden you're just spent
and you go all the way over into the parasympathetic,
quiescent state and you're kind of done.
And that's the state that you need to be in.
So firstly, I think from a hormonal
and a nervous system perspective,
that's why sex by way of orgasm is beneficial. The benefit of couples or, you know, at least more than one person producing
that added benefit from 50 to 70 is probably because of the pro-social hormones.
But nevertheless, you can still get, you know, 50% of the way there.
So in terms of adding sleep credit, you know, you're making money handover,
making money hand over fist, but maybe I wouldn't say that.
Let's not talk about fist.
So you mentioned there about nicotine, about the cigarette after sex, caffeine, you know,
one of the most common stimulants that I think 80% to 90% of people use on a daily basis.
Yeah, it's the second most traded commodity on the surface of the planet after oil.
So it tells you everything.
It's the largest, it's the largest drug experiment that's repeated on the planet every single day.
Wow. What is there to know about sleep and caffeine?
Probably, I think most people now through idiots like me understand some of its temporal
dynamics. What I mean by that is it's half life. Caffeine has a half life of about five to six
hours, which means after about five to six hours, 50% of that is still in your brain, which means it has a quarter life of 10 to 12 hours
for the average person.
So drink a cup of coffee at midday, perhaps a quarter of that caffeine is still in your
brain at midnight.
It's highly dependent, however, on your sensitivity, which is determined by a specific enzyme.
That enzyme is what we call a cytochrome P450.
It's a liver enzyme and it's a variant on a gene
that's called the CYP1A2 gene,
which is just, you know, word spaghetti at this point,
word salad, but simply variations in that gene
means that you are either quick
at clearing the caffeine or slow and
Everyone knows what type that I'm slow and I'm pretty slow too. I am a caffeine sensitive individual
But nevertheless just keep that in mind that in terms of caffeine having that temporal dynamic
I would say the dose and the timing make the poison try to cut yourself off after about
Probably four cups of coffee maximum.
Three is probably really where I would draw the line, but again, it depends on your sensitivity.
That's not where it stops though, because even if you're one of those individuals that
says, look, I can have two espressos after dinner and I fall asleep fine and I stay asleep,
that may be true, but the caffeine will actually keep you out of the deeper stages of sleep.
And we did some studies where we gave you 200 milligrams of caffeine, which is a hefty drip.
Big whack.
Sort of, yeah, cup of coffee after dinner.
And that robbed you of about 15 to 22% of your deep sleep.
And to do that, I would have to add about 12 years
of your life to your life.
So I could aid you by a decade
in terms of your deep sleep quality
by just having two espressos after dinner.
The other thing about caffeine
is that it will fragment your sleep.
So it will litter your sleep with these awakenings
and just like alcohol, which does the same, but by way of a different mechanism, caffeine is going to reduce the quality of your sleep non consciously because those awakenings are so brief.
You never commit them to memory.
So you wake up the next day, you feel lousy, but you don't remember waking up.
So you don't put two and two together.
That said though, I've actually changed my tune on coffee. I would absolutely say for anyone for whom they
like coffee, absolutely drink coffee. And the reason is because if you look at
coffee, the health benefits associated with coffee are astronomically numerous
and remarkably robust statistically.
Furthermore, perplexingly for someone like me, if you list all of the benefits
that is de-risking in terms of diseases and you stack up what sleep will do in
terms of de-risking all of your disease states, it's almost a one-to-one match.
So people are coming along to me and saying, well, can you square that circle for me?
How, I don't understand how that can be true.
The answer is that the coffee bean
contains a whopping dose of antioxidants.
And because we're so deficient in our antioxidant consumption,
because we're deficient in our whole food dietary intake
in this modern world, The coffee bean has been asked to carry the Herculean weight
of all of our antioxidant needs.
So no wonder it looks like drinking coffee
is associated with health benefits.
It's not the caffeine, it's the antioxidants.
Case in point, if you look at the benefits
that decaffeinated coffee produces, it's the same.
So it's not the caffeine, it's the coffee bean.
I, uh, looked at the whoop urine review last year.
It's actually just come out recently.
Uh, and I haven't, I haven't been through it.
And they talk about your behaviors and what's being related between your
behaviors and your sleep and your recovery and your strain and so on and so forth.
But they also have aggregated anonymized and aggregated the data from all of the other whoop users.
The number one predictive behavior
for a good night's sleep was caffeine.
The number one predictive behavior
for a good night's sleep was caffeine.
So is there a method, would you ever encourage somebody
to use caffeine in terms of its timing
to help bring you into land from an adenosine perspective, uh, so that you sleep more easily so that your latency
is reduced or whatever.
From all of the data, there's nothing to say that you should advocate
for it as a sleep aid.
I think there's some data to say it may be equivocal that at least moderate
doses of caffeine have any effect on your sleep.
The problem with some of that data is that it's associational.
So it could be that people who are drinking coffee are people who also are
very thoughtful because they can afford healthy user bias.
They're the same people who are probably drinking two cups.
Then they're going to the gym.
They're exercising sleep is fantastic.
So that's right.
Exercise is fantastic for sleep.
But that's the interesting thing about the whoop data though, because that is a
relatively, I would guess, homogeneous group of people, all of whom have got a
wearable, they're tracking lots of things.
Right.
And even within, because these are behaviors done by different, or the
same individual on different days.
It's a within subject design is what we call it sort of longitudinal within subject.
And so the other possibility is that that it, it's still on days when you're
drinking caffeine or days when you are more fatigued, more fatigued.
See, this is why we need a scientist to help me pick this apart.
Okay.
So that's sleeping caffeine.
What about sleeping alcohol?
Yeah.
Drink lots of it.
It's fantastic for your sleep.
Sound like a true brain.
It's right there on our passports.
Alcohol is probably the most misunderstood sleep aid that there is out there.
Alcohol is in a class of drugs that we call the sedatives and sedation is not
sleep, but when you have a couple of night caps in the evening, you mistake
the former for the latter.
And if I were to show you the electrical signature
of your sleep with alcohol versus without,
you would see how different it is.
It's not the same.
That that alcohol will actually,
it pushes you into what looks like deep, slow wave sleep,
but it's kind of the more,
the faster slow brainwave activity.
So it's sort of the more less nutritious faster slow brainwave activity. So it's sort of the more, less nutritious
of those deep slow brainwaves, but it's simply sedation.
The second problem with alcohol is that like caffeine,
but through a different mechanism by way of acting
on the sympathetic fight or flight branch
of the nervous system, it will make you wake up
more times throughout the night. And once
again, they're so brief that you don't usually commit it to memory. The other
thing is that because of that sleep fragmentation that principally is
happening in the first half of the night, this is why on your sleep tracker when
you know I'm if I look at my oaring data, I mean I don't typically drink, but even
if I have you know a glass, I get hit not just with this. Another thing I'm going to tell you about REM sleep,
I lose a good amount of my deep sleep.
And it turns out that it's really the fragmentation
of your sleep early on in the night
when the alcohol concentration is highest,
when your liver and your kidneys have not had the chance
to metabolically clear it.
And when you get fragmentation in the first half
of the night, you're not getting your deep sleep.
And as a result, there's a great study that demonstrated that alcohol after dinner, one
glass decreased the amount of deep sleep and as a result, produced a 50% drop in growth
hormone release.
50%, I mean, I don't know what you'd have to age an individual by to get them to have a 50% drop in growth hormone.
But so there are, it's consequential, it's not epiphenomenal.
Just because you don't get deep sleep, you may say, well, so yes, and so what?
What's the consequence of that lack?
Well, one is that you don't get your growth hormone release for reparation and repair.
But then the other thing about alcohol,
people love me, don't they?
They're saying all this.
Someone once told me when we listen to you,
your personality is like the greatest prophylactic
known to man.
You're the fun police.
Thanks for, yeah, exactly, yeah.
God, and that goes together already
with my bloody acerbic personality.
Anyway, nevertheless, alcohol also is very good
at blocking your REM sleep.
And it turns out it's not the alcohol,
it's the metabolic byproducts of it,
particularly the aldehydes.
And it's the aldehydes that will essentially act
like sort of jamming up of the cogs of the gears
of the generation of REM sleep.
So you become REM sleep deficient.
This is the reason that people will sometimes say, God, you know, we, we had
two or three bottles of wine last night when friends came over at the weekend.
And then I slept in late because we went to bed late and I was having these crazy
dreams, just wild, crazy dreams.
What's happened there is that firstly, REM sleep comes mostly in the
second half of the night. You get most of your comes mostly in the second half of the night.
You get most of your deep sleep in the first half of the night.
If you're sleeping later into the morning, that's the REM sleep rich phase part of your sleep cycle.
So your brain has a different taste preference for what it wants to eat from the finger buffet of the sleep menu at night.
Early in the night, all it wants to do is feast on deep sleep,
very little REM.
As you go through into the second half of the night,
it likes to switch its taste preference to REM.
The further you sleep later into the morning,
the more REM sleep you get.
If you want to increase the amount of REM sleep,
one of the things you can do is just sleep
half an hour later into that morning,
and you'll start to get more REM sleep.
But what alcohol will do is it will
start to block the amount of REM sleep that you've been having for most of the night.
Your brain is so clever though. Sleep is so strongly conserved across biology, across phylogeny,
that sleep emerged, as I said, with living organisms and has stayed there. It's one of
the most preserved behaviors that we see in any living organism.
And it's preserved at the level of the stages too.
So your brain, what I mean by that is it's understanding how much REM sleep you
Chris should have had across the night when you've had a few too many drinks.
And it keeps a clock counter of how much REM sleep you should have had
and you've not obtained.
And finally, by those late morning hours on the Saturday when you've slept late,
your liver and your kidneys have finally excreted all of the alcohol. So in the
last hour or two of sleep, your brain gets the REM sleep it will have normally
obtained. Plus, it tries to get back that which it's lost. And it's called a REM
sleep rebound effect. And that's why you have really intense dreaming
and you have these really crazy bizarre experiences.
Does your brain get back all of the REM sleep that it lost?
No, it doesn't.
It can only accumulate about 50% of the dead.
So you will still be REM sleep deficient.
REM sleep, it turns out, if you want to say,
give the head to head challenge,
which is more important, non-REM versus REM?
Well, I'm going to firstly tell you that all stages of sleep are important.
Different stages do different things at different times of night.
But the ultimate test of what's more important is presumably death.
How quickly do you die when you don't have one versus the other?
They did a series of studies back in the 1980s that will never be replicated again because I think they were just so barbaric.
They started to sleep deprive rats to the point when they died. And what they found is firstly
that rats will die as quickly of food deprivation as they will of sleep deprivation. Sleep deprivation
will kill you just as quickly as no food, about 11 days in the rats. Then they said, okay, let me now
selectively just deprive the rats of deep sleep, so they still get REM sleep, or they get deep sleep
and we remove REM sleep. And when they looked at that, the rats died from REM sleep after about 20 days.
So REM sleep was, you know, still lethal.
A lack of REM sleep was still lethal.
Non-REM sleep, they still died, but they died after about 60 days.
So in other words, rats will die quicker from REM sleep deprivation than they
will from deep non-REM sleep deprivation.
We all predicted the opposite in those studies.
Why?
Because I told you that non-REM sleep was the original OG in terms of the evolutionary
course of sleep.
It was the first stage of sleep.
So surely the first stage of sleep that emerged in the course of evolution would be the fundamental,
elemental, most important.
The opposite was true.
Great study then back at Harvard.
And what we find is that a lack of sleep, short sleep,
as I said, short your sleep, short your life.
And it's sort of a, it's a decaying curve,
which is that, you know, the less sleep that you have,
the higher and higher your death risk.
But let's come back to that seven to nine hours
of sweet spot because something odd happens.
When you get past about nine,
your death risk does not keep going down.
It goes back up as if more sleep after nine hours
is deathly.
And people have said, well,
that's proof that sleep can actually kill you.
If you look at the data, at least one of two things is happening in those studies.
When you get sick, what is the first thing that you typically want to do?
Sleep.
Exactly.
And it turns out that the reason is that your immune system has a very adaptive
network that when you get sick, it brute forces a set of chemicals
to induce you into more sleep
because it knows that the Swiss army knife of health,
the best thing that it has to combat disease and sickness
is this thing called sleep.
So it drives you to sleep more.
And so what was happening in those studies
is that whatever the disease was,
the sickest people were sleeping
more.
It was like an unhealthy user bias.
And it looks like artificially more sleep is killing you.
The people that were sleeping nine hours or more per night, there was something underlying
that was causing them to.
It was too powerful for sleep to overcome despite sleep trying.
The other reason is because of sleep quality versus quantity. Typically,
what we find is that people who have really bad sleep quality stay in bed for far longer.
And sleep quality also predicts all cause mortality. So as a consequence, it looks like
people when they say, what time did you get into bed? What time did you wake up? That's
how they measure the amount of sleep,
as it were, poorly as it is.
Those people who were in bed for 10 hours died sooner.
And the reason is not because they were sleeping 10 hours,
it's because they were trying to get back more sleep
because the quality of their sleep was so bad
that they had to stay in bed for longer.
And therefore poor quality of sleep masquerades as longer quantity of sleep being bad for you.
But to come back to it, this Harvard study then looked at how much of different stages of sleep
people were getting across the lifespan because they were able to do this with fancy sort of
technology. And what they found was that when they put non-REM sleep,
again, in the same statistical model with REM sleep,
REM sleep beat out deep non-REM sleep in humans
to predict your all-cause mortality.
And here, it wasn't this reverse J shape,
like total sleep deprivation, sorry,
like total sleep duration, which is,
once you get past nine hours, it starts to hook back up.
No, with REM sleep, the less and less that you had, the worse and worse your mortality
risk.
It was a linear relationship.
And so across animals, across human beings, REM sleep seems to have been, if you want
to do the math, which I wouldn't argue for anyone to do. If there is one stage of sleep that's mortality more important than the other.
It would be REM sleep, which is also the reason maybe to raise
caution regarding alcohol and then maybe THC.
Talk to me about CBD, THC.
It's been marketed for a while separately and together as solutions.
What's the truth behind it?
So THC and CBD, I think they've gone through a real evolution.
THC for the most part, I think the data is fairly robust.
It's just not going to be your friend when it comes to sleep.
It is very clearly helping people fall asleep faster.
And I think that's something
that we can come back to in a second.
The problem with THC, first is that you build up a tolerance
and a dependence on it, a psychological dependence.
And what happens is that when you stop using THC for sleep,
not only do you go back to the bad sleep
that you are having because of the dependency,
you typically have a withdrawal and your sleep is even worse as a consequence.
And if you look at the number one reason why people fail in their attempted abstinence
from smoking weed, it's because they can't tolerate the insomnia.
So they fall off the wagon and they go right back to using again, because they've built
up both a physiological and a psychological dependence.
So that's the first issue is just the really bad insomnia.
In fact, it's part of the cannabis withdrawal syndrome set of features in what we call the
DSM-5, which is the Diagnostic and Statistical Manual of Mental Disorders.
It's basically the psychiatrist handbook.
If you look at cannabis withdrawal syndrome, right there at the top is insomnia.
And that's a, it's, you're just feeding yourself a future history or future event in your
history of insomnia.
When you try to withdraw and you typically will go back.
of insomnia when you try to withdraw and you typically will go back.
The second problem with THC is that it's very potent
at blocking your REM sleep again.
And we've spoken about REM sleep both as a mortality feature.
REM sleep is critical for creativity, learning and memory.
It's also essential for your emotional and mental health.
But we often think of dream sleep,
it's such an active state
that we think of it as purely for the brain.
REM sleep is for the body.
Men and women both release their peak levels
of testosterone when you're in REM sleep.
And so REM sleep is essential,
but you're depriving yourself of it with THC.
And a really good case in point here
priving yourself of it with THC.
And a really good case in point here, um, is that when people stop using THC, when they've been smoking weed, firstly, they'll start to say, I just, I just
don't dream or I don't remember my dreams anymore.
Then all of a sudden, when they stop using it, they will say, once again,
like that late morning, Saturday morning with the alcohol, they will say, God,
I'm
just having these crazy dreams now.
I never used to dream at all.
The reason is because the brain has built up such a chronic debt of absent REM sleep
that finally when you stop smoking weed, it comes back with a vengeance because you've
been trying to sort of get it, but you can't.
And the roadblock is finally out the way and boy, do you start getting REM sleep again.
So THC, I right now, I just don't think there's good evidence for, although I'll come back
to it now in one of the two ways.
If you look at some of those studies though, and you've really got to kind of dig deep
into them and look at all of the ancillary,
the supplemental materials in the science paper,
something funny happened when I was reading the literature.
If you looked at, they always classify people's level
of sleep apnea in these sleep studies.
It's just one of the things that we always measure,
just like we measure your brainwaves
and we measure your sleep apnea.
If you look across when people were dosed experimentally
with THC, the sleep apnea started to decrease
and in some of those studies,
decreased statistically significantly,
which would argue that THC may potentially be,
have something beneficial to say
about being at least an adjunct to sleep apnea therapy.
Now, I am not going to advocate based on the downsides
that come with THC in terms of your sleep
that it should be used, but nevertheless,
you shouldn't throw the baby out
with the sleep bathwater here.
What is it about THC that is beneficial to reducing
the respiratory disturbance associated with sleep apnea? I think we need to figure that out
because there are too many studies where that seems to be an anecdotal result in the data.
Now, is it because it prevents the relaxation response of the airways
so that they stay more taut and resistant
against the collapse.
Is it about the release of certain neurochemicals
that are there to stimulate the nerves, to keep the air?
I've got no idea, but I do think it's a really interesting
kind of story that's yet to be told.
What about melatonin, other sleep supplements that people are
probably quite heavily relying on?
Interesting.
I don't, I mean, you'll know this being from the UK, but Americans may not,
that melatonin is something that you can just buy in CVS here is kind of hard
to get a prescription for in the UK.
Drugs like Zolpidem, Ambien, you do not, I mean, you need to be like fucking insomniac for
weeks and weeks in order for your doctor to step in pharmacologically and help you with
your sleep in the UK.
It's very much not a thing that your GP would ever do.
But some people from the UK can get a hold of melatonin in some way or another, especially
a lot of people in America are using it and other supplements, the magnesiums of the world, uh, what the L-theanines, what do you
sort of come to think about here?
Yeah.
I think the first thing to note is that if any of these supplements or any
s- supplement stacks that are out there that promise you the royal road to, you
know, resplendent sleep, if sleep. If they really were doing what they
claim, the drug companies would have been all over them 20 years ago and would find
analogues and would have been making billions of dollars from them. The fact that they've
left them to the wayside tells you a lot about really what their efficacy is. And the drug companies are ruthless, but you know, it took George Lucas, I think something
like 30 or 40 years to amass about 4 billion in profit from the Star Wars franchise.
Took Ambien 21 months to do that.
So they know that these drugs, if they are out there and any molecules like these supplements, if they are good sleep aids, they will be very strategic.
Melatonin I think certainly over here, it's so easily purchased.
You go down any grocery store and in the health food section, there's this big purple subsection
and that's the melatonin section. And you've got 10 milligrams, 20
milligrams, I've seen 50 milligrams. Firstly, five milligrams, 10, 20 milligrams, these
are what we call supraphysiological doses, meaning that they are levels of melatonin
that your body would never naturally release far higher than your body's natural tendency.
So the fear here, although there are some studies that people have argued, this is not
the case, but the fear is just like testosterone replacement, at some point your testes, if
you're exogenously injecting, will just stop producing innate testosterone.
And once they stop, they don't restart. The worry is the same
with your pineal gland which is going to release melatonin that if you keep
exogenously giving your brain vast amounts it says well you're giving it to
me so I don't need to produce it anymore and once it stops does it ever restart?
There are some data where they looked at an individual who was blind and the reason that they were looking
at this individual is because when you're blind
and depending on the level of blindness,
if it's at let's say the level of the retina
or the optic nerve, you don't receive light signals.
So you don't get the light to reset your circadian rhythm.
So you're bouncing with your sleep all over the place.
It's very difficult for these patients.
So what we typically do is we give them exogenous melatonin
to at least feed them the signal of melatonin darkness
at night to try to regulate their sleep.
And they did a study where they were tracking
the melatonin of this individual
and they were giving exogenous melatonin.
And then they stopped and then looked to see,
did that individual stop producing
their own natural melatonin?
And the answer was no. So people will say, well, that's a good,
and it was about a 30 day experiment. Other people, I think have looked across about
six weeks of dosing and when they stop, the people keep producing it. And some people
have argued that's the evidence then that we don't have to worry about that.
The problem is most people don't use melatonin like that. They've been using it for three or four years. So we don't know.
And it could be perfectly harmless.
The second concern about melatonin is that
it's a hormone that regulates the timing signal
for when you should sleep.
It doesn't participate in the generation of sleep itself.
So melatonin is like the starting official
at the 100 meter race.
It brings all of the sleep races to the line and begins the great sleep race,
but it doesn't participate in the sleep race itself.
That's a different set of chemicals and compounds.
So that's why when people have done what we call meta-analyses,
where you get all of the individual studies looking at melatonin and sleep,
and you put them all together in the same big statistical bucket,
and you ask what's the overall effect.
Melatonin only improved the speed
with which you fell asleep by about 3.9 minutes,
which is not that much more relative to placebo,
and it only improved your sleep efficiency
by about 2.2%.
So again, largely trivial.
Now, I think, however, despite touting those statistics,
I think there is a subset of people
for whom melatonin is sleep generating.
And therefore melatonin is not just the starting official,
it's also one of the racers.
And we don't yet understand why.
I think one of the ways that melatonin
could be a sleep generating agent, and this will
bring me back to CBD in a second, is that melatonin can make you cold.
Melatonin has the ability to produce not hypothermia, don't worry about that, but it will drop your
core body temperature a little bit.
And it turns out that we do need to drop our brain and core body
temperature by about one degree Celsius to fall asleep and stay asleep. It's a reason that it's so
hard on those summer nights when it's brutally hot and you've got no air conditioning. You can almost
not fall asleep despite how tired you are in a warm room, but in a cold room you typically can sleep.
Because the cold room is at least taking you in the right temperature
direction of a good sleep as melatonin in some individuals may be mildly hypothermic
and move you in that direction. So I think that's, I'm fascinated by that.
I want to pick that apart, but for most people, firstly, it's not going to move the needle.
That's the reason that no one, no doctor has ever prescribed melatonin for people
with insomnia, um, you have to have a circadian disruptive clinical syndrome
causing the insomnia to receive melatonin.
That's where it can be helpful.
The other thing about, or two other things about melatonin, if you could go
down that purple aisle, now a large part of it is dedicated to pediatric
melatonin for kids.
And what we know is that melatonin is a bioactive hormone.
We did some work and we were looking at great scientist Craig Kanapari at Yale.
And we spoke with the FDA about this.
Admissions to the hospital for melatonin poisonous overdose
have increased by 503% in the past 10 years,
which is a stunning statistic.
Now granted melatonin for the most part
is a largely inert compound in terms of its safety profile,
but the worry with the pediatric component
of melatonin nowadays from the sleep community
is that studies done back in the 1980s, 70s,
demonstrated that in juvenile male rats,
essentially male rats going through adolescence,
when they were given higher doses of melatonin,
it stunted their testicular growth
and it caused testicular atrophy.
So imagine if I came along to a PTA meeting,
a parent teacher association meeting,
and to the parents and the teachers,
I got up there and said,
tonight, I'd like you to start dosing your child
with bioactive hormone.
And I'd like you to dose them with a magnitude
that is far higher than their bodies,
would ever naturally release.
And it's a hormone that will also disrupt
their reproductive gonadal development.
And I'd like you to do this every night
for the next couple of years, who's with me?
And you get taken off stage rather rapidly.
And again, I don't mean that that's hyperbolic
in terms of an example,
but I do think we need to be
a bit more thoughtful, certainly about melatonin pediatric populations. The final thing about
melatonin, it's now been replicated. They did a study originally where they looked at at least
20 different brands off the shelf of melatonin. And then they tested based on what it said on
the bottle versus what was inside the capsules. What it turned out was actually what you were swallowing, swallowing was
anywhere between 83% less than what it said was on the bottle to 464% more.
Oh, fucking hell.
Right.
And what is that 50, that 50 milligram capsule has become a monster.
It's a wild West.
You don't know what you think because it's not regulated by the FDA over here. Wow.
And what was even worse is that within any one vendor, the amount of variability from
one batch to the next, the next was just as large.
So this isn't across even across companies.
What about other technologies to artificially boost or improve sleep?
Is there anything cool at the moment?
Yeah, I think there is.
I mean, I think there are, you know, CBD, I think is actually one of the potential
contenders in this category of new emerging technologies pharmacologically.
CBD, I think is, we still don't have enough data.
I think the problem with CBD is that it is dose dependent.
If you look at the data, squint your eyes, cause there's not enough, and you make a non-scientific
kind of guesstimation, anything less than about 25 milligrams seems to actually be wake
promoting.
Whereas anything that's about 50 milligrams or more may actually be sleep promoting.
Even though it's the same drug compound.
Same compound.
So you get what's called a dose dependent response and it's
bi-modal, meaning that it's the Goldilocks phenomenon, you know,
not too little, not too much, just the right amount.
And let's then entertain that you and I sit here in another five
years time, there's been lots of work on this and and CBD now is a sleep aid at the right dose.
The question then is, how is it doing that?
Because for me as a scientist to entertain its causality,
I at least want to understand mechanistically
what it's doing to be a plausible,
parsimonious explanation.
For CBD, I think it's actually at least two different routes. Like melatonin,
CBD is really quite hypothermic.
It will get rats cold when we dose them. The colder their core body temperature,
the faster sleep will arrive with them, the deeper the sleep that comes after.
The second, however, I think is an indirect mechanism.
I think now there is very good data, even human brain imaging data, that CBD is what
we call anxiolytic, which it reduces down your anxiety.
It takes you out of that fight or flight branch that we've been talking about.
It reduces cortisol levels.
The emotional centers in the brain called the amygdala, they are turned down in terms
of their volume of kind of cranked
activation by way of CBD. So in other words, that kind of tired but wired phenomenon is potentially
going to be medicated by CBD. CBD isn't necessarily generating sleep. It's simply removing what is
blocking your brain's natural ability to generate the sleep that it could do.
If only it could try to reduce the anxiety that's getting in the way.
And when I say anxiety here, I'm meaning the physiological, biological anxiety within the body.
That's, I think, what CBD is potentially doing to get you into good sleep.
So new technologies, I think CBD is an interesting one, but then we come
on to an area that I've been doing a fair amount of work in the past eight years
or so, which is the augment, the artificial enhancement of human sleep.
Because what I started to realize is that, you know, I can come on lots of
podcasts, I can give you the scientific data, but in truth, there's only so much I can do
to get people sleeping the same amount
that I would wish them to sleep.
So the next question would then be,
well, could I create technologies
that act like a zip file for sleep,
that I can compress sleep into six, down from eight?
Now, I think that that's, you've got to,
I think that's a dangerous thing
because I think it's hubristic
because it took mother nature 3.6 million years
to put this thing called the seven to nine hour
sleep necessity in place.
Sleep is the most idiotic thing that you can conceive of.
You're not finding a mate, you're not foraging for food,
you're not reproducing, you're not caring for your young, and you are vulnerable to predation.
On any one of those grounds, sleep should have been strongly selected against in the
course of evolution.
If Mother Nature had found some magical zip file solution to compress eight hours of vulnerability,
nonsense, down to six, guaranteed she would have done it.
And the fact that it hasn't emerged.
And then I come along and I say to you,
oh, Chris, I'm gonna be some scientific genius
who comes along with the compression zip file for sleep.
Good luck, take care.
We are starting to get there with some things though.
One of the things that we developed
was an electrical brain stimulation device.
So we've moved from pharmaceuticals to electrostaticals.
Because if you want to change sleep,
sleep is an electrical phenomenon.
It's an electrophysiological state.
It's brainwave activity.
It's electrical activity.
And if you want to speak in the currency of the brain,
you should deal in the same currency, which is electricity.
So we developed something called a transcranial direct current
stimulation tool, which is a fancy way of saying,
I put a headband on and I insert a small amount of voltage
into your brain.
It's so small you typically don't feel it,
but it has a measurable benefit to your brain wave activity.
And people had been doing this approach where they measure
your sleep in the laboratory,
and they're starting to look at these deep, slow brain waves. And then using this electrical
stimulation device, they're going to try to act like a choir to a flagging lead vocalist.
And by way of measuring it, they can try to predict where the next stroke of midnight is
coming on the top of that brainwave, and they hit you with a pulse of electricity and they try to amplify the size of those brainwaves and they can
and in doing it they almost double the amount of memory benefit that you get from sleep.
The problem is when we go to sleep we take things off we don't put things on.
So you're expecting me to have a headband device with all of these wires and I'm going
to sleep with it.
And then there's going to be some crazy computer
in your study that's kind of measuring your brain wave
and it's trying to temporally estimate when,
that's a disaster.
It was never gonna happen.
So what we took the approach of is that
when you stimulate the brain and you stop stimulating
like a drug in the system,
it still has a blast radius
of a benefit.
And when we do 10 minutes version of stimulation, it lasts in terms of its effect on the brain
for about two hours.
And it was that deep sleep that I said comes in the first half of the night and mostly
in the first two hours.
So I knew I had this window of opportunity to capture, to go after deep sleep.
So instead what we did was we applied this headband
and as you're brushing your teeth,
when you're taking your makeup off,
you're stimulating the head
or you're lying in bed for 10 minutes.
And then what happens is that you take the headband off
and it's almost like, it's a good analogy
would be a child on a swing. They're static and the swinging of the feet, nothing is happening.
You, as the parent, you've got to come along and you've got to start swinging them.
But when you give them enough momentum, at some point you stop and they keep swinging.
So I was trying to essentially get the brain swinging so that when it went into
sleep, it would generate bigger or a better analogy would be, I'm trying to fertilize,
I'm trying to electrically fertilize the soil
of your prefrontal cortex, so that when I take it off
and you start sleeping, you germinate more powerful
deep sleep brain waves,
because I've electrically fertilized the soil.
Have you tested this in the lab?
So we've tested it now multiple times,
and we were able to, we've published data on it already.
We then ended up realizing, look,
if I'm gonna get this out to the public,
despite me being a puritanical scientist,
I've got to make it a company and move it out.
We got venture-backed capital.
That was just when COVID hit.
And we were trying to do human testing,
where we were putting nasal thermistors up people's noses
to measure their breath.
And COVID,
so we had the kind of caboose put on a kibosh.
Anyway, one of those, we slowed down,
but we were able to get enough data
that at least confirmed to me that it had efficacy.
We've released a first gen product now.
Again, I'm not some, I never want to be
the George Foreman grill of sleep.
You know, I never want to hawk this stuff.
So you can kind of look around.
What's it called?
It's called Somni.
So if you just go to the website, Stim Science, the company is Stim
Science, Stimulation Science, stimscience.com, you'll find it.
Take what I say with a grain of salt.
It's gen one.
If it were up to me, I would wait at least another 10 years, get another 10 million
hours of data before I, as a scientist felt comfortable.
That's the reason I'm not the CEO because people will have already done this long
before me.
So we've got a first gen product out there.
Second gen is coming, I think probably the end of Q1 2025.
I, we've now done lots of systematic studies. Um, we've looked at it on the basis
of insomnia. It seems to be even more efficacious for the more severe your insomnia symptoms
are. I was worried it would be the opposite. The harder the problem, the less potent the
solution. It seems to be the opposite. Um, it does seem to benefit young and old, but
I would say that in the especially old individuals
were finding it harder to drive the brain into sleep with the stimulation device.
We now I think have some good new solutions in terms of how we stimulate the brain to
overcome the age-related problem.
So it's not all good news.
But certainly the duration of sleep and the efficiency of sleep
improve and the speed with which you fall asleep.
How long do you have to have it on for?
About 10 minutes.
Wow.
And it's an interactive thing because we'll also do bone conduction for sound.
So you have a whole app experience, you do the app and what's different in our
method versus others who are trying to do this, is what's called, it's a closed loop system
because the stimulation I need to co-opt my brain
into sleep is slightly different in terms of its frequency.
In other words, how I'm stimulating your brain
in terms of the kind of the brainwave pattern.
My stimulation frequency sweet spot is different to yours.
Not by much, but just enough that if I tailor it to your unique frequency
snowflake like, as if versus standard stimulation tools out there are like
going to your Bloomingdale's and you just grab a suit off the rack and it doesn't
really fit you quite well. This version is the Savile Row suit.
I tailor it unique to your physiology.
And that turns out to make night and day, night and day difference.
It makes a big difference statistically.
In fact, we almost get no benefit at one size fits all stimulation.
And we were doing that for about two years and getting no data.
And I didn't want to release the product because, you know, I don't want to sell snake oil.
If my mother is buying a device that promises a good sleep and it's $400, I'm not going
to sleep well at night if it's total snake oil. So we just weren't going to release.
And then we realized, no, we've got to find a unique stimulation pattern. So what the headband does is not just stimulate, it records.
It's an input output device.
And we start with a short session where I measure your resting brainwave
activity, and then we do an sort of an AI calculation where we rejig the
stimulation for your frequency in reverse.
Yeah, we reverse engineer it.
And now we know what to stimulate you at.
And then if we see your brainwaves change,
even across the 10 minute session,
we're constantly adapting it
to what we call a staircase method.
Very cool.
So that's electrical stimulation is one path.
I think I'm now interested in others.
The next one is kinesthetic vibration. If you see a parent with
a child who's not sleeping well, typically, you know, a grandmother will just pick the child up
in their arms and they'll start to do what? Start to rock the child. You know, you think about,
you know, a manger rocking the manger or parents with their child, they'll put them in the car and anything that's repetitive kinesthetic is enough to induce sleep.
So they did this great study, Sophie Schwartz at the University of Geneva.
It was wonderful borderline S&M.
They got a mattress frame and they dangled it on these big chains from the ceiling.
So the bed frame was suspended on these chains.
And all of a sudden it feels like, you know,
candle wax on the nipples, tie me up, tie me down
type stuff.
And then what they did was they inserted an arm
against the side of the bed frame that had this rotation.
And it would rock at a very slow frequency.
In fact, it would rock only once every four seconds.
It's a really slow rock.
And the reason they were doing that is they were trying to mimic the super slow brainwave
frequencies that go up and down maybe just once every second, maybe once every two seconds, ultra slow brain,
they were trying to mimic that.
And sure enough, by rocking you at this gentle frequency,
it increased the amount of those deep sleep brain waves
and these additional bursts of brain waves
that ride on top of them like surfers on a wave
called sleep spindles.
And the combination of those two we know are important
to hit the save button on new memories
for what we call memory consolidation.
And sure enough, after the sleep on the rocking mattress,
it ended up boosting the amount of memory by about 20%.
And some of their replication studies by about 10%,
you think 10%, but if I were to say to one of my students, you know, okay, look, you got,
uh, you know, 65% on your exam.
Do you want an extra 10%?
Oh my goodness.
That's a great point.
You know, so it's not, it's not a trivial amount.
So I think this, and then they've done these really great studies in, in fruit
flies where they started to just vibrate the surface and these fruit flies just conked out
and there's something about the kinesthetic motion and then what they did was really clever you
could say well is it something to do with the tactile sensation of feeling like you're moving
or is it really what we call the vestibular system, the sensation of movement.
So in these fruit flies,
they were able to inactivate the vestibular mechanism
in the fruit flies.
So the fruit flies could no longer sense movement
and they vibrated them and they just stayed awake.
So it absolutely is something to do
with the vestibular system that is assisting with sleep.
So I think that's a fascinating area that these new mattress companies, there are a couple of them, Bright BRYTE is doing this.
8Sleep has the ability to now, it will vibrate. You can tap on the side of the bed and it will vibrate. What if, and take, by the way,
I think 8Sleep is a fantastic product.
I was using it for years beforehand.
Now, together with myself, Andrew Hubern and Peter Attia,
we joined the advisory board.
So again, full disclaimer,
take what I say with a grain of salt,
just like I speak about Auraring,
because I'm an advisor there too.
I would say though that these mattresses may now be able
to create some kind of ripple approach.
And so we're starting to play with this technology
in the lab where we're trying to do just lateral ripples
to see if we can actually manipulate you.
I was at a conference at what's called the section
of the advanced sort of science agency
here DARPA, which is part of the defense agency.
And they had this really interesting technology
for special operatives to navigate them through
based on the trajectory through a particular kind of
scenario where they had to go and find a kill.
And they couldn't use radio communication
because that would give the game away.
But they were able to insert this device into the ear
that would stimulate the vestibular system
and tell them left, right, forward, back.
So then I was thinking, well, hang on a second.
If I'm rippling the bed or I'm swinging it,
all of a sudden my girlfriend and my wife
is probably thinking, geez, it's a bit too much too soon.
You know, we were fairly pedestrian in what was going on in the bedroom.
Now you're swinging the mat.
You know, go easy.
I don't like that.
But what if I could not even stimulate your mattress,
which could disrupt someone else?
All I need to do is have this ear device and I'm going to fool artificially your brain
into thinking
that it's being rocked by way of stimulating the vestibular system and off you go into
sleep. So that's another sort of method that I'm really interested in and there's good
evidence for. Probably the next one is acoustic and there's now I think this emerging wave
of acoustosuticals, which is acoustic manipulation of the brain.
Early studies from groups in Japan, like from Germany, Jan Born's group, they were just
simply trying to do sounds that were these tones that would go at the frequency of the
slow brain waves.
And they just started playing them as you were falling asleep and just kept playing
them.
And they were ignorant of whether your brain waves were going up or down.
And it did seem to improve the amount of deep sleep,
just passive tone playing at this frequency
of about once every second or less.
Then they got a bit clever.
Then they started to measure the brain waves
in the laboratory and they would try to hit the brain
with a tone right at that strike of midnight
like we were doing with electricity. And sure enough, you boost hit the brain with a tone right at that strike of midnight, like we were doing with electricity.
And sure enough, you boosted the brainwave.
The problem was, if you did it about three or four times
in a row, the brain fought back and it resisted the tone.
And in fact, it started to decrease the amount
of deep sleep brainwaves.
So you've got to be a bit careful.
Why would that happen?
It's probably because the brain
has a protective neural mechanism to prevent too much synchronous brainwave activity. Synchronous brainwave
activity when it gets out of control is called epileptiform brainwave activity, which causes
a seizure. So you've got to be, you know, you have to be thinking about these things.
So I think that, but there is, I think now devices out there that are doing vibratory stimulation.
And part of the brain stimulation device that we have now
is a bone conduction system too,
where we can also vibrate you
as well as electrical stimulate you because-
Also you're doing both.
So I'm doing both, because when it comes to sleep
for a commercial device, now as a scientific device,
I want to pass them out separately
and I want to understand them distinctly.
But when it comes to the, you know, boots in the ground and the trenches, I'm going
to throw the kitchen sink at this too.
So if I can do acoustics and electrical, I'll do it.
It's so cool.
All of this technology is so sick.
And, uh, yeah, I wonder what's going to happen.
I wonder what's sort of coming next.
And obviously, you know, such a reliance on pharmaceuticals,
sort of leaning in and, and people manipulating all manner of different,
different things internally. You mentioned insomnia there.
Have you looked at chronic fatigue syndrome?
Is that part of your remit at all? Fatigue sounds like tiredness, sounds like sleep. Is that something that you ever,
you guys ever cross over with?
We we've done a little work in it and it's different.
And I think what's happening with chronic fatigue
is that there is, here we're talking about a metabolic problem,
which is it's about energy balance,
that there's something going on
with a metabolic regulation of the system
that causes this overall sense of malaise.
Now, how that plays out with sleep,
all we simply know is that chronic fatigue syndrome
results in fragmented sleep and poor quality of sleep.
Which in some ways is counterintuitive,
because all of us, if you've ever gone out,
I cycle a fair bit, if I've gone on one of those
century rides, and back in California,
I like to do it in the summer because I love cycling in the heat.
By the end of that day, I come home and it's like working in the fields for eight or nine
hours.
I just know that night, I am going to have the most righteous sleep of my life because
I'm just so fatigued.
I can feel it in my body.
That's a very different physiological state, I believe,
than chronic fatigue syndrome.
Mine is acute fatigue syndrome.
Chronic fatigue syndrome, I think,
is probably a very different biological cascade,
and that's probably pushing you into more,
perhaps, a higher kind of chronic cortisol state,
where you're all of a sudden fighting against sleep
rather than promoting sleep.
I think it's different.
Fascinating.
You said earlier on as well about dreaming.
I want to kind of get into dreaming.
What is it?
Why do we do it?
How does it work?
Explain to me.
Yeah.
Dreaming is, when you think about it, absolutely bizarre, because last night, everyone listening,
yourself included, as long as you slept,
you all became flagrantly psychotic.
And before you reject my diagnosis
of your nightly psychosis, I'll give you five good reasons.
Firstly, when you slept and you started to dream,
you started to see things which were not there.
So you were hallucinating.
Second, you believed things that could not possibly be true.
So you were delusional.
Third, you became confused about time and place and person.
And in psychiatry, that's what we call being disoriented.
Fourth, you had wildly fluctuating emotions.
And we describe that as becoming emotionally labile. disoriented. Fourth, you had wildly fluctuating emotions.
And we described that as becoming emotionally labile, your pendulum, like you're all over the place. And then fifth,
you woke up this morning and you forgot most,
if not all of that dream experience, you're suffering from amnesia.
If you were to experience any one of those five symptoms while you're awake,
you'd probably be seeking psychiatric and psychological intervention.
But for reasons that now we're starting to understand,
it's a normal biological and psychological process.
So if it's prevalent and it's consistent,
what is it functionally doing for us?
Now you've got to be very careful
because dreaming for the most part is
principally associated with REM sleep. So how do I put a scalpel scientifically between
simply conflating any function of REM sleep, let's say hormone benefits for testosterone
and saying no separate from REM sleep separate from the stage of sleep from which dreaming emerges,
show me that dreaming above and beyond the state
from which it comes from, which is REM,
also has its own separate functional benefits.
And that was hard to do for a long time.
And now we know that there are two benefits of dreaming
independent of necessarily having REM sleep,
although it is beneficially supported
by the physiology of REM sleep.
The first is that dreaming provides a form
of overnight therapy.
Dreaming is emotional first aid,
because it's during dream sleep at night
that dreaming acts like a nocturnal soothing balm
that just takes the sharp edges off those difficult painful experiences so that you
come back the next day and you feel better about them.
And what REM sleep dreaming is doing is essentially it's divorcing the emotion from the memory experience.
Because what makes a memory emotional
is that at the time of the experience,
you had this whole visceral emotional reaction
and that wraps the memory with this emotional blanket.
But what dreaming does is it goes in there
and it divorces the emotion from the memory.
It strips the bitter rind from the informational orange so that you wake up the next day and
you have a memory of an emotional event.
But it's no longer emotional itself.
You don't regurgitate the same intensity of visceral reaction that you did at the time
of the experience. And so that's why we think dreaming provides a form of it's emotional convalescence.
And the quintessential disorder that we've studied that this process seems to fail in
is PTSD, post-traumatic stress disorder.
Because when you speak to those patients, what they will tell you is, I can't quote
unquote, get over the event.
What they mean is that every time that they relive the memory, let's say it's the war
veteran, they're walking through the supermarket car park, a car backfires, and instantly
have a flashback to the trauma memory of the detonation of the landmine. And what they're describing to you is that they have not
stripped the emotion from the memory. It's still bound to the experience. It's not coincidental
that one of the diagnostic features of PTSD is repetitive nightmares. And what we've done is put forward a theory that in PTSD, because they have
two higher levels of a stress-related chemical called noradrenaline in the
brain, they are not able to do the elegant trick of stripping the emotion from the
memory.
So what happens the next night, the brain comes back and says, look, sleep,
please, I've got this highly charged emotional trauma memory. Please do your trick of divorcing the emotion from the memory.
And it fails again because of this two high levels of a stress chemical called noradrenaline.
And so it becomes this repetitive, almost like a broken record. And it perfectly fits the feature
of repetitive nightmares. You cannot receive a diagnosis of PTSD
without having sleep disturbance or repetitive nightmares.
So then you can ask, well, so then in normal REM sleep,
why is it doing that?
REM sleep is the only time during the 24 hour period
where our brain shuts off
this stress-related chemical called noradrenaline. The sister chemical in the body everyone has
heard about, it's called adrenaline. Upstairs in the brain it's noradrenaline.
Noradrenaline does lots of things, but one of the things it does is it gets
released in rude amounts when you undergo one of these emotional
experiences. It's the thing that plants the red flag on the memory and says to the brain,
this is priority. This was emotional. This is important. And so it's useful to prioritize
what gets remembered in the brain. But it's only useful to tag the memory initially as important.
It's not useful to hold on to the emotion. And dream sleep provides that form of the emotional detox.
So I presented this data at a conference,
this theory that dream sleep strips the emotion
from the memory because dream sleep is the only time
when the brain has this perfect therapeutic chemical
cocktail of shutting off noradrenaline.
And the brain actually has the emotional memory centers
reactivated during dreaming.
So you can reactivate the emotional memories,
but you process them in a quote unquote
safe neurochemical environment.
But in PTSD, they'd already measured levels of neuroadrenaline
in the cerebrospinal fluid
and found that they were excessively high.
No wonder they couldn't strip the memory,
the emotion from the memory.
And I was presenting this and then in the afternoon session,
a psychiatrist came along from Puget Sound.
He worked in the VA, the veterans system,
and he was treating patients with PTSD.
And most of them had high blood pressure.
So he was treating them with a generic drug
called prazacin. And the drug, it turns out,
because it's the VA, it's cheap, it's generic, it crosses the blood-brain barrier. So it goes up into
the brain. And he was perplexed because his patients were coming back to him and their blood
pressure was a little bit better. But they started saying to him, I'm not having the nightmares
anymore. And my symptoms are getting better. So I had a theory that was in search of clinical data.
He had clinical data that was in search of a theory.
And it was one of those kind of hair on the back of your neck moments standing up,
raced to him afterwards said, look, I've got to catch a flight back down to Berkeley.
I'm gonna fly you down next week. We need to go out for dinner. We need to speak about this.
We started speaking about it.
He did clinical trials.
It then became the only VA approved medication for PTSD.
There have been some failed replications
with that medication, I'll tell you that right now.
But nevertheless, it is usually one of the first line
medication treatments now for PTSD veterans
for nightmares. So that's the first benefit of dreaming. I would say that you can then
argue, well, how do you disentangle that from just REM sleep that they're getting? Rosalind
Cartwright, who has now passed away, great sleep researcher back in the 1980s, was looking
at her patients she was treating
psychologically who were going through really tough experiences, bereavement, divorce, and
they were very depressed.
And around the time of those events, she was measuring their dreams, getting dream reports.
And then she did a follow-up study one year later, and about half of those patients had
gained remission in terms of their depression.
They'd got better.
The other half had not.
So she then went back a year previous and looked at the dream reports and split them
on the basis of those who ended up getting remission and improving versus those who didn't.
Both of those groups were getting REM sleep.
Both of those groups were dreaming.
That was not the difference.
The difference was that those people who got remission
at the time of the event were dreaming
about the experiences themselves.
Those people who had REM sleep, who were dreaming,
but didn't dream of the events that they were experiencing
did not gain remission.
In other words, it's not just sufficient to have REM sleep.
It's not even sufficient to dream.
You have to be dreaming about the difficult things
that you're going through in order to get
that overnight therapy benefit.
So that to me was a demonstration that it's something
about the act of dreaming above
and beyond the stage of sleep.
Does that make some contorted sense? demonstration that it's something about the act of dreaming above and beyond the stage of sleep.
Does that make some contorted sense? The second benefit of dreaming is very different. It's
creativity and ingenuity because during deep sleep, deep non-realm sleep, that's when the brain
takes the new memories that you've formed and it cements them. It sets them like amber, like a fly trapped in amber,
into your brain.
It cements them into the architecture
so that you don't forget.
So deep sleep hits the save button on individual memories.
But memories that sit like isolate islands in your brain
are largely useless because that's the old laptop.
Your laptop was even better at storing
individual pieces of information than your brain ever was.
But you're far more intelligent, why?
Because you don't just simply have
isolate pieces of information,
your brain richly interconnects them together.
That's the difference between knowledge,
which is remembering the facts,
versus wisdom, which is knowing what it all means when you put them together. That
is the purview of REM sleep. REM sleep takes those new memories and it acts
almost like group therapy for memories. Everyone gets a name badge and it
forces you to now speak to the people not at the front of the room that you
think you've got the most obvious connection with. You've
already done that when you're awake seeking out the obvious connections.
Dream sleep forces you to go and speak to the people at the back of the room
that you think you've got no association with whatsoever. It turns out that you do
it's a distant connection but it's a powerful one nonetheless because when
you start to fuse things together that shouldn't normally go together, but when
they do cause marked advances in evolutionary fitness, it sounds like the biological basis
of creativity.
That's what dream sleep is doing.
It's almost as though you wake up with a revised mind wide web of associations.
And it's during dream sleep and the act of dreaming itself
that we, it's almost like memory pinball.
You take what you've learned, bang,
and you shoot it up into the cortex
and you start bouncing it around
and you test out what the connections are.
But the way the algorithm works during dreaming
is different than wakefulness.
Wakefulness is the Google search gone right.
You type in modern wisdom into the Google search and the first page all about you, fantastic.
You go to page 20 and it's about a field hockey game in Utah.
And you think, but if you read about it, all of a sudden you think, oh, that's clever.
I can see why that's associated.
It's a diff, now you can have a thousand of those every night
that are completely useless,
but all you need is one of those to make that advance leap.
That's the novel difference between 2001 and Space Odyssey
where they're banging bones around,
and then all of a sudden one of them realizes,
Christ, this thing is actually a weapon.
It's not just a bone.
What does it mean if we keep dreaming
about the same situation or the same person,
people that have sort of consistent dreams
with consistent characters or scenarios in?
Yeah, repetitive dreaming and repetitive nightmares,
some of it we think from the PTSD literature Yeah, repetitive dreaming and repetitive nightmares.
Some of it we think from the PTSD literature
is about trying to reprocess emotion
and emotional experiences.
And something maladaptive short circuits that,
so you keep trying to reprocess.
That's one theory.
The other is that we don't know if necessarily that's your brain simply trying to prioritize
the memory circuit.
And it's saying that every night I want to etch and score that memory into the sort of
the neural circuit glass of the brain ever more strongly because it's important.
So one camp is it's maladaptive and it's a process failed.
The other is it's adaptive
and it's just simply telling your brain,
pointing you to saying, this is the important stuff,
we're going to memorize it more.
I would say that for people who are undergoing
sort of repetitive nightmares,
we used to have no real good treatments for it.
Now I spoke about prazicin as one way
that we've done this with PTSD patients,
but there's now actually a very effective
psychological treatment for nightmares.
And it's called I-image rehearsal therapy,
or IRT for short.
And it comes back to, we made a discovery back in 2003.
What we found is that when you form a memory,
that memory is fragile, and when you sleep,
the brain fixates it, so it's now stable,
and it's set, and it's hard-coded into the brain.
However, we then discovered that when you come back
the next day, if you recollect,
if you reactivate that memory again,
it opens that memory back up to being fragile
and susceptible to being molded and changed.
And you think, well, why would you go through
the act of cementing it only to basically
kind of undo that cementing process?
Think about a memory system.
Think about a word document.
I type in the word document
and then I hit the save button, which is sleep.
I come back the next day,
I double click on the word document and I can't edit it.
I want it to be flexible and your brain has that ability.
So the brain, every time you recollect a memory,
you open it back up to change and then you modify it
and then you sleep it and then you sleep
again and you re-consolidate the memory. This therapy took advantage of that. So it had individuals
who had repetitive painful nightmares and with a therapist they simply rehearsed the trauma dream.
Now during the rehearsal every time they brought back that memory to mind, by definition,
it opened up that memory to being edited.
And with the therapist, they would convert the ending.
So let's say that I was in a horrific car accident and the brakes failed and I went
straight through the junction and I got sideswiped and it was a horrific car accident.
Well now instead I'm coming up to the lights and I'm hitting the brake pedal and in this new
sort of rehearsal they say well then you just reach down because it's a manual car and you
just grab the handbrake and you pull it and gradually the car decelerates, you move it to
the side of the road and you avert the act. Rewriting the memory. And you rewrite the memory and then you get them to sleep.
And now it reconsolidates the updated version and you have to do that though,
multiple times.
So you set the new scenario, which is a neutral scenario.
You have them rehearse it every day.
You set a timer.
They do this.
And then over time you morph the memory
and you now rewrite your history.
And as you're doing that, night after night,
what happens to the trauma dreams,
the frequency of them decreases in proportion
with the frequency of you repeating that every day.
Absolutely brilliant memory dynamics.
So cool, so cool.
Matt, I feel like I could speak to you all day.
We need to bring this one into land, at least for the first one.
You're so great.
And like I said before, you genuinely made a huge change.
Probably the single biggest lifestyle change that I made was after your first episode on
Rogan.
So however long I live is at least in part due to yourself.
Well, I stand on the shoulders of all of my colleagues.
I think I did a pretty bad job when I first came out
at communicating science.
I think I was untrained, I was dictatorial,
I was absolutist, not because I wanted to be that way.
That's not my natural ilk.
It was just because I saw so much suffering happening
by way of a lack of sleep.
Steaming in with authority sounds like a nice way
to fix that.
Right, exactly.
And I was so passionate about it.
I came across as almost adversarial.
I probably caused as much insomnia by way of my TED talk.
You know, it was called sleep is your superpower
or something.
And people were saying it should have been called sleep
or else dot, dot, dot, you know?
And I feel bad about that.
But so I would say I'm now I'm a little less bad
as a scientific communicator,
but really all I'm doing is communicating the science of all of my colleagues.
I'm just in the privileged position of like a true academic the the the idiot with the
Bon Jovi her style and the bad accent who's trying to communicate sleep science, but if I've done any of that work
It's simply because I've communicated the science of others and for their efforts. I'm immensely grateful. Thank you Matt
I appreciate you until next time mate next time. Take care