Huberman Lab - How to Defeat Jet Lag, Shift Work & Sleeplessness
Episode Date: January 25, 2021In this episode, I discuss a simple and reliable measurement called your "temperature minimum" that you can use to rapidly adjust to new time zones when traveling and to offset the bad effects of noct...urnal shift work. I also discuss tools for adjusting sleep and waking rhythms in babies, teens, new parents and the elderly. Read the full show notes for this episode at hubermanlab.com. Thank you to our sponsors AG1: https://athleticgreens.com/huberman LMNT: https://drinklmnt.com/hubermanlab Waking Up: https://www.wakingup.com/huberman Timestamps 00:00:00 Introduction 00:00:30 Sponsors: AG1, LMNT & Waking Up 00:04:15 The bedrock of sleep-rest cycles 00:07:05 Night owls and morning larks 00:08:22 “The perfect schedule” 00:11:04 The 100K Lux per morning goal 00:15:15 Keeping your biological clock set 00:16:15 Reset your cortisol 00:21:22 Jet Lag, death and lifespan 00:23:00 Going East versus West 00:28:45 The key to clock control 00:31:01 Your Temperature Minimum 00:36:30 Temperature and Exercise 00:41:20 Eating 00:42:50 Go West 00:44:15 Pineal myths and realities 00:51:13 The Heat-Cold Paradox 00:53:45 Staying on track 00:55:30 Nightshades 00:57:00 Emergency resets 00:57:30 Psychosis by light 00:58:05 Shift work 01:02:40 The Temperature-Light Rule 01:04:20 Up all night: watch the sunrise? 01:06:45 Error correction is good 01:08:20 NSDR protocols/implementation 01:10:44 The frog skin in your eye (not a joke) 01:16:39 Why stress turns your hair white 01:17:24 Ovaries or testes? 01:18:25 Babies and bright light 01:21:40 Polyphasic sleep 01:25:25 Ultradian cycles in children 01:27:38 Teens and puberty 01:29:50 Light before waking for better sleep 01:31:20 Older people and circadian rhythms 01:33:48 Sleepy Supplements 01:42:00 Red Pills & Acupuncture 01:43:50 Highlights 01:48:30 Feedback and Support Disclaimer & Disclosures Learn more about your ad choices. Visit megaphone.fm/adchoices
Transcript
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Welcome to the Huberman Lab podcast,
where we discuss science and science-based tools
for everyday life.
I'm Andrew Huberman and I'm a professor of neurobiology
and ophthalmology at Stanford School of Medicine.
This podcast is separate from my teaching
and research roles at Stanford.
It is, however, part of my desire
to bring zero cost to consumer information
about science and science related tools
to the general public.
Along those lines, I want to thank today's sponsors
of the podcast.
Our first sponsor is Athletic Greens.
Athletic Greens is an all in one vitamin mineral probiotic drink.
I've been taking Athletic Greens since 2012,
so I'm delighted that they're sponsoring the podcast.
The reason I started taking Athletic Greens,
and the reason I still take Athletic Greens once or twice a day
is that it helps me cover all of my basic nutritional needs.
It makes up for any deficiencies that I might have.
In addition, it has probiotics, which are vital for microbiome health.
I've done a couple of episodes now on the so-called gut microbiome
and the ways in which the microbiome interacts
with your immune system, with your brain to regulate mood,
and essentially with every biological system
relevant to health throughout your brain and body.
With Athletic Greens, I get the vitamins I need,
the minerals I need, and the probiotics to support my microbiome.
If you'd like to try Athletic Greens, you can go to
athletic greens.com slash Huberman and claim a special offer.
They'll give you five free travel packs,
plus a year's supply of vitamin D3K2.
There are a ton of data now showing that vitamin D3 is essential,
for various aspects of our brain and body health,
even if we're getting a lot of sunshine,
many of us are still deficient in vitamin D3.
And K2 is also important
because it regulates things like cardiovascular function,
calcium in the body, and so on.
Again, go to athletic greens.com slash Huberman
to claim the special offer of the five free travel packs
and the year supply of vitamin D3K2.
Today's podcast episode is about sleep and wakefulness.
We are going to discuss jet lag,
shift work, babies, kids,
and the elderly, and we are gonna discuss protocols
that are backed by science.
That means quality peer reviewed papers published
in excellent journals that can support particular tools
that you can use to combat things like jet lag,
offset some of the negative effects of shift work,
and make life easier for the new parent
as well as for the newborn child, the adolescent,
anyone that wants to sleep better, feel better
when they're awake, et cetera.
If you've listened to the previous three episodes
of the Huberman Lab podcast,
we've been exploring these themes of wakefulness and sleepiness,
how to fall asleep, how to stay asleep,
and we've been discussing parameters like light,
exercise, temperature, et cetera.
If you've had a chance to listen to those episodes,
great, today's discussion will be even more digestible for you.
If you haven't, that's okay.
I will provide a little bit of background here or there
so that it's not necessary that you have listened
to those previous episodes,
but if you get a chance to listen to them,
please do it.
I think it will help you digest the information better.
Let's just take a step back for a moment
and remind everybody what we're talking about.
We're talking about an endogenous,
meaning within us, rhythm that we call the circadian rhythm.
The circadian rhythm is a 24-hour rhythm
in all sorts of functions.
The most prominent one,
is a rhythm in our feelings of wakefulness and sleepiness.
So believe or not, the experiment has been done
throughout history, not often,
but it's been done where people will go down into a cave
and will exist in constant darkness for some period of time.
There are also cases where people have been in constant light
for some period of time.
But because people can close their eyes,
it's actually easier to do the experiment
where you're in constant darkness
to address the question of what is the endogenous,
meaning the internal rhythm that we all
have and it turns out we all have this rhythm of about 24 hours, although it's not exactly 24 hours.
Meaning every 24 hours, your body temperature goes from low to high and back down to low again.
And it takes 24 hours for that to repeat. Not 18, not 6, 24, plus or minus a couple hours.
You also have a rhythm in sleepiness and wakefulness that correlates with that.
We tend to be sleepy as our temperature is falling,
getting lower, and we tend to be more awake
or waking when our temperature is increasing.
This is a biological fact.
It is right down to our DNA.
We actually have genes in every single one of our cells
that ensure that every cell is on this 24 hour-ish rhythm,
close to 24 hours.
We have a clock over the roof of our mouth,
a group of neurons called the supra-chaismatic nucleus,
that clock generates a 24 hour rhythm
and that clock is entrained,
meaning it is matched to the external light dark cycle,
which is, no surprise, 24 hours.
Spinning the earth takes 24 hours.
So our cells, our organs, our wakefulness, our temperature,
but also our metabolism, our immune system, our mood,
all of that is tethered to the outside light dark cycle.
And if we are living our life in a perfect way
where we wake up in the morning and we view sunlight
as it crosses the horizon,
and then by evening we catch a little sunlight,
and then at night we're in complete darkness,
we will be more or less perfectly matched
to the external or ambient light dark cycle.
Very few of us do that because of these things
that we call artificial lights
and this other thing that we call life demands.
So today we're gonna talk about
when we get pulled away from that rhythm.
Now you may immediately be thinking,
well, I've heard there are night owls
and there are morning larks they're sometimes called
and there are genetic polymorphisms.
That's just a fancy name for genetic variations
that make some people wanna wake up early
and other people wanna stay up late
and teens wanna sleep in more.
Sure, that's all true.
That's all true regardless of what names we give those.
However, there's no escaping the fact
that human beings
are a diurnal species.
We were designed literally our cells
and the circuits of our body were constructed
to be awake during the daytime and asleep at night.
How do I know that?
Well, I wasn't consulted at the design phase,
but I'm certain of that because many studies have shown
that when we deviate too far from a diurnal schedule
and we try and become nocturnal,
we can pull it off, but serious health effects,
both mental and physical, start to arise.
I'm not gonna spend much of today talking about all the negative effects of jet lag.
I'll talk a little bit about it or the negative effects of shift work or trying to scare you
by telling you about the quite valid data around depression, amnesia, dementia, all the terrible
things that happen when you're not sleeping well. Rather, I'd like to focus on what you can
do and arm you with tools. So let's talk about that perfect schedule for a moment and then let's talk
about jet lag and what jet lag really represents and how to push back on jet lag, shift your
clock faster, and escape some of the severe bad things that can happen with jet lag, including
just feeling miserable when you're traveling for work or vacation. So what is the perfect day?
What does that look like from a circadian sleep wakefulness standpoint? I'm about to summarize what
I've said in the three previous podcast episodes as well as now countless in
Instagram posts.
Here's the deal.
You basically wanna get as much light,
ideally sunlight,
but as much light into your eyes
during the period of each 24 hour cycle
when you want to be awake,
when you want to be alert.
And you wanna get as little light into your eyes
at the times of that 24 hour cycle
when you want to be asleep
or drowsy and falling asleep.
How much is,
is enough, well, you don't wanna go so high
with the light exposure that you damage your eyes
because as many of you heard me say before,
the eyes are actually two pieces of your brain,
your central nervous system that were extruded out of your skull.
And as pieces of the central nervous system,
aka your brain, they will not regenerate.
At least right now, the technologies don't exist
to regenerate those neurons and humans.
You do not wanna damage them.
So what is too bright?
Well, when it's painful to look at.
When you have to blink or close your eyes
in order to bear it.
So please don't.
look at very bright lights so painful
that they're likely gonna damage your eyes.
However, if you get up in the morning
and it's still dark out and you want to be awake,
you would be wise to turn on artificial lights,
in particular overhead lights for reasons I've discussed previously,
but those overhead lights will optimally trigger the neurons,
these melanops and cells in the retina that will activate
your circadian clock.
When the sun comes out, even if there's
cloud cover, the sun does come out every day, regardless of where you live, unless you live in a cave.
People have said to me, well, I live in an area where I can't really see the sun. Well, the sun is there.
It might be hiding behind clouds unless it's very, very dark where you live, like Scandinavia in the
depths of winter, in which case you might want some artificial light. Get some sunlight in your eyes
when you can. Here's the deal with sunlight and artificial light that I have not discussed previously.
A lot of photon energy, a high amount of lux,
LUX comes through even cloud cover.
A good number to shoot for as a rule of thumb
is to try and get exposure to at least 100,000 luxe
before 9 a.m. 10 a.m. maybe, but before 9 a.m.
Assuming you're waking up sometime between 5 and 8 a.m.
Okay, so get 100,000 luxe.
Now you do not,
I want to repeat, you do not want to stare at a 200,000 lux or a 100,000 lux light.
It's very, very bright.
The mechanism of circadian clock setting, and this is very important,
the mechanism of circadian clock setting involves these neurons in your eye
that send electrical signals to this clock above the roof of your mouth,
and that system sums, meaning it adds photons.
It's a very slow system.
So let's say that I wake up and I look at my,
computer screen briefly or my phone screen, that's probably 500 to a thousand lux.
If I were to look at that for a full minute, I would get that photon energy transferred into
electrical energy of neurons and it would be communicated to my circadian clock.
However, the signal that it's morning will not have registered with the circadian clock
unless I looked at that for a hundred minutes or more.
So 100,000.
Now the problem is if you wake up at 8 o'clock, you're not going to get enough light from
artificial light before you reach what's called
the circadian dead zone.
So you have this opportunity before 9 a.m.
maybe 10 a.m.
to capture enough photons and you have to do it with your eyes.
I've discussed why that's important
in previous episodes of the podcast.
You have to do it with your eyes.
There is no extraocular photo reception.
This is not about vitamin D in your skin.
This is about setting your circadian clock,
which is paramount for mental and physical health.
So here we're talking about trying to get
that at least 100,000 photons,
but not all at one.
but you gotta get them before 9 a.m.
ish, maybe 10 a.m.
So what do you do? You go outside.
If you wanna get nerdy about this, quantitative,
you could download a free app like Light Meter
and take a look around your house with Light Meter
and you'll notice that even bright overhead lights
are only emitting about 4,000 or 5,000 lux.
It's gonna take a long while of looking at those lights
with eyes open in order to set your circadian clock
and tell your brain and body that's morning.
Going outside, even on a common,
cloudy day could be 7,000, 10,000 lux.
It's really remarkable how bright it is,
meaning how much photon energy is coming through.
So try and get 100,000 lux before that 9 a.m.
Now if you can't do that because you live
in an area of the world where it's just not bright enough.
Some people have sent me pictures from Northern England.
It's just not bright enough in winter.
Then sure, you can resort to using artificial lights
in order to get enough photons.
And I'm putting out this 100,000 lux number
as a target to get each day before 9 a.m.
You can in theory get it all from artificial lights,
but there are some special qualities about sunlight
that make sunlight the better stimulus.
First of all, it's free if it's available outside.
There is a number of different, there are,
excuse me, a number of different technologies,
kind of like this one, like a light pad that this one says
it's 930 Lux.
I'm not covering this up
because I'm not trying to promote any specific products.
I actually bought this.
just with my own money on Amazon,
they're not a sponsor.
And it lets you toggle the brightness,
I think by holding this on,
holding down this button, you can make it dimmer or brighter.
There's about a thousand lux.
It seems really bright,
but a cloudy day outside will have five times more
photon energy coming through.
So some people set these lights or ring lights
that they use for selfies and that kind of thing
near their coffee or workstation first thing in the morning,
but you really wanna get sunlight.
Okay, so those things are kind of nice
because they'll travel
and we're gonna talk about jet lag.
But I can't emphasize this enough,
that light has to be captured and summed
before you enter the circadian dead zone,
which is the middle of the day.
This is again trying to achieve kind of perfect schedule.
Then I've recommended based on scientific literature
that you look at sunlight sometime around the time
when the sun is setting and the reason for that of course
is because it adjust down the sensitivity of your eyes
because here's the diabolical thing.
while we need a lot of photon energy early in the day
to wake up our system and set our circadian clock
and prepare us for a good night's sleep 14 to 16 hours later,
it takes very little photon energy to reset
and shift our clock after 8 p.m.
And that's why you want to, as much as you safely can,
avoid bright light and even not so bright light
between the hours of 10 or 11 p.m. and 4 a.m.
A number of people have asked me some questions about this.
And the last episode, I went into red lights.
I would discuss blue blockers, all that kind of stuff.
So I'm not gonna repeat all that.
But here's the thing.
If you see afternoon light,
you're going to adjust down the sensitivity of your eyes
so that you have a little bit more wiggle room,
a little bit more leeway to view lights from screens
and overhead lights even late at night
without disrupting your circadian clock.
But it is a kind of a double-edged sword
where you need a lot of
light early in the day and you need to avoid bright lights later in the day.
I've mentioned studies on here.
A number of you have asked about getting the references.
We are in the process of trying to get a webpage going with full links.
There's some copyright issues that we have to deal with.
But wherever possible, I'll try and reference these studies.
And when people ask, I'll generally put them in the response to their comments on YouTube
or Instagram.
There have been two studies done from University of Colorado, both published in current biology.
You can easily find these online by just Googling the words,
current biology, camping and reset circadian clocks
that have shown that two days of waking up with the sun
and avoiding light at night,
they actually took graduate students camping,
really cool experiment to be a part of,
reset the melatonin and cortisol rhythms
for these people that had otherwise drifted
quite far from their natural rhythms.
There are other things that you can do
to shift your clock and to reinforce your clock,
like exercising more or less the same time,
eating more or less the same time, et cetera.
That's not what today's episode is about.
So I just described perfect schedule,
get at least 100,000 lux of light exposure to the eyes,
not all at once, but summing across the morning.
Again, you know when it's too much
because it's painful to look at.
So that's obviously something to avoid.
But then once the middle of the day,
let's say you're waking up at 10 or 11,
you go outside the sun's overhead, forget it.
You're not gonna shift your clock.
You're just not.
It doesn't work that way.
In the evening, you see the evening light
and you wanna get that light to adjust down your retinal sensitivity
to afford you a bit of a buffer so that late at night,
if you happen to look at screens or go to the bathroom
in the middle of the night, it's not gonna shift your clock.
Because it takes probably only about 1,000 to 1,500 lux
of light energy to shift your clock in the middle of the night.
So let's talk about shifting clocks
because for the jet lag person,
this ability to shift the clock with light temperature,
your exercise in food is vitally important
for getting onto the new local schedule.
And there's so much out there about jet lag today.
I'm gonna dial it down to one very specific parameter
that all of you can figure out without any technology or devices
and can apply for when you travel for work or pleasure
or anytime you're jet lagged.
And I want to absolutely emphasize that you don't have to travel
to get jet lagged.
Many of you are jet lagged.
You're jet lag because you're looking at your phone
in the middle of the night,
your jet lag because you're waking up
at different times a day,
your jet lag because your exercise is on a chaotic regime
some days at this time, some days at that time.
And if that works for you, great.
I want to be really clear that a number of people always say,
well, I know so and so that you only needed four hours of sleep
or they're just fine, they travel to Europe,
and it's just fine, there's a lot of individual variability.
And we're gonna talk about the origins
of some of that variability.
I mean, I know people that can eat anything
and somehow seem to maintain great lipid profiles
and, you know, body weight and fitness ability.
And I know some people that they eat one cracker
and they sort of dissolve into a puddle of kind of tears,
right? Because they think that that's gonna throw them off
and maybe it does, I don't know.
You know, there's a tremendous amount of variability out there.
So this is really about optimal and what's possible.
and you have to ask, I can just say from personal experience,
I suffer terribly from jet lag traveling in certain directions,
but not others.
Some people don't have trouble with jet lag.
Many people will travel to a new location.
They feel great for the first day and night,
and then they crash and they have trouble sleeping.
Or they travel back and they have a terrible time
getting back onto a normal schedule.
And some of this varies with age
and some of it varies with genetics.
And there is no simple pill or anything
that you can take to just get rid of jet lag.
It doesn't work that way.
If it worked that way, I would tell you.
But there are some simple things that you can do.
I'm gonna arm you with the knowledge of what jet lag is
and how it works.
And contrary to what many people out there say and believe,
I know that understanding mechanism affords you more flexibility.
Why understand mechanism as just opposed to me
just writing up a PDF and giving you a list of things to do?
Well, what happens when you can't do those things
in exactly the way they're written?
down. When you understand mechanism,
you understand how to control the machine
that is your biological system, your nervous system.
So a little bit of understanding about mechanism
goes a really long way.
So that's where we're headed.
Let's talk about what jet lag is.
Okay, well I promised that I wouldn't get too dark
with all the terrible things that can happen with jet lag,
but I'm about to get dark.
There are quality peer reviewed papers
showing that jet lag will shorten your life.
it will kill you earlier.
I guess it means you'll die earlier.
It doesn't actually kill you necessarily,
although there are many cases where tourists
end up stepping in front of buses,
especially in countries where the cars and buses
drive on the opposite side of the street
that they're used to who are jet lagged
and lose their life that way.
Jet lag is a serious thing.
Should we had a family story about this.
When I was growing up,
had a family member travel overseas for work
and take a sleeping pill.
I won't name the sleeping pill,
although at the end I'm gonna talk about sleeping pills
and had a case of total amnesia for a week.
That's not entirely uncommon.
If you've ever been really jet lagged and fallen asleep,
doesn't even have to be in the middle of the day,
woken up, you might not know where you are.
And that's because time and space are really linked
and the brain wasn't designed to be transported
four, five, six hours into a new time zone.
It just wasn't.
Our brain and the biological mechanisms
that govern circadian time,
were designed to be shifted by a couple hours,
not necessarily six or nine or 12 hours.
So you really mess yourself up.
I've had that experience.
I usually experience it as fluctuations in mood.
I flew 12 hours out of phase to Abu Dhabi wants
to give a talk of NYU Abu Dhabi.
And it was a mess.
I actually was getting vertigo.
I wasn't hallucinating, but I was really out of it.
And my mood was just all over the place.
It was very bizarre.
Jet lag, even if you don't experience it as mood shifts
or amnesia, it can shorten your life.
Now here's what's interesting.
Traveling westward on the globe
is always easier than traveling eastward.
Okay, it's interesting because the effects of jet lag
on longevity have shown that traveling east
takes more years off your life,
than traveling west.
Now, of course, traveling 30 minutes into a new time zone
or just one time zone over, or two time zone over rather,
is far less detrimental to your biology and psychology
than a eight hour shift or a nine hour shift.
Now, here's what's interesting.
When we think about the effects of jet lag on longevity
or this idea that it can shorten our lives,
We have to ask ourselves why.
Why is that?
And it turns out there's a pretty simple explanation for this.
We've talked before about the autonomic nervous system,
this set of neurons in our spinal cord and body and brain
that regulate our wakefulness and our sleepiness.
Turns out that human beings and probably most species
are better able to activate and stay alert
than they are to shut down their nervous system
and go to sleep on demand.
So if you really have to really have,
have to push and you really have to stay awake,
you can do it, you can stay up later.
But falling asleep earlier is harder.
And that's why traveling east has a number
of different features associated with it.
That because you're traveling east,
you're trying to go to bed earlier, you know,
as a Californian, if I go to New York City,
I've got to get to bed three hours early
and wake up three hours earlier, much harder
than coming back to California
and just staying up a few more hours.
And this probably has roots in,
in evolutionary adaptation where under conditions
where we need to suddenly gather up and go
or forage for food or fight or do any number of different things
that we can push ourselves through the release
of adrenaline and epinephrine to stay awake,
whereas being able to slow down
and deliberately fall asleep is actually much harder to do.
So there's an asymmetry to our autonomic nervous system
that plays out in the asymmetry of jet lag.
So if you wanna read up on this
because people have asked me about,
papers. You can look, there's a paper published by Davidson and colleagues, 2006 in current biology
that talks about the differences in lifespan for frequent eastward versus westward versus no travel
and longevity and et cetera, a number of different biological markers of longevity. So going east is
harder because going to sleep earlier is harder if you're trying to do that on demand. Many people
have turned to melatonin as a way to try and induce sleep.
I'm going to talk about melatonin at the end.
I've mentioned on previous podcasts.
A number of you have asked for the evidence
that melatonin is potentially detrimental
to some hormone systems, meltonin is a hormone,
and I'll discuss that at the end,
in particular the role of melatonin in suppressing
a hormone pathway that involves lutenizing hormone,
testosterone in men, and estrogen in females,
as well as a really interesting peptide called
Kiss Pepton, that's a cool name.
All right, well, let's think about,
travel and what happens.
Let's say you're not going eastward or westward,
but you're going north or south.
So if you go from, for instance, Washington, D.C.
to Santiago, Chile, or you go from Tel Aviv, Israel,
to Cape Town, South Africa, you're just going north and south,
right?
And not either direction.
You're not really moving into a different time zone.
You're not shifting.
So you will experience travel fatigue.
And it turns out that jet lag has two elements,
travel fatigue and time zone jet lag.
Time zone jet lag is simply the inability
of local sunlight and local darkness
to match to your internal rhythm,
this endogenous rhythm that you have.
So before we get too complicated
and too down in the weeds about this,
I wanna just throw out a couple important things.
First of all, I mentioned this earlier,
but some people suffer from jet
lag a lot, other people not so much.
Most people experience worse jet lag as they get older.
There are reasons for that because early in life,
patterns of melatonin release are very stable and flat
and very high actually in children.
It's one of the reasons why they don't undergo puberty.
Then it becomes cyclic during puberty,
meaning it comes on once every 24 hours
and turns off once every 24 hours.
It cycles cyclic.
And then as we get older, the cycles get more
and we become more vulnerable to even small changes
in schedule, et cetera, meal times, right?
So jet lag gets worse as we age.
In addition, there are other things that happen with age
that people start doing less exercise,
their digestion can get worse, et cetera.
So some of the effects of age might not be direct effects
of getting older, but some of the things
that are correlated with being older.
Like people who are willing to have a regular exercise
regime can use that exercise regime
to shift their circadian clock.
And I have a good friend, his father's in his 80s,
he's still pushing out 25, 30 pushups each morning.
He's on the Peloton or whatever it is,
doing a lot of cycling.
So some 80 year olds are doing that, many are not.
Many 30 year olds are not.
But if you have a regular exercise program,
that's gonna make it easier to shift your circadian clock
for sake of jet lag.
And it's actually a knob
you can turn and you can leverage for shifting your clock.
Before you go any further, I wanna make changing your internal rhythm
really easy, or at least as easy and as simple as one
could possibly make it, I believe.
What I wanna talk about is perhaps one of the most important things
to know about your body and brain,
which is called your temperature minimum.
Most of you know your approximate weight.
Some of you might even know your blood pressure.
Some of you might even know your,
body mass index.
Some of you might know other things about your biology
that have fancy names,
but everyone should know their temperature minimum.
Your temperature minimum doesn't require a thermometer to measure,
although you could measure it.
Your temperature minimum is the point
in every 24 hour cycle when your temperature is lowest.
Now, how do you measure that without a thermometer?
It tends to fall 90 minutes to two hours
before your average waking time.
So I wanna repeat that.
Your temperature minimum tends to fall 90 minutes
to two hours before your average waking time.
So let's say you're not traveling
and your typical wake up time is 5.30 a.m.
Your temperature minimum is very likely 3.30 a.m. or 4 a.m.
If you want, if any of you want to,
you can measure your temperature minimum.
You can get a thermometer and you can measure your temperature
every couple hours for 24 hours.
You can find your temperature minimum.
What you're going to find is that you have a low point,
the temperature minimum.
And then your temperature will start to rise.
You'll wake up about two hours later.
Then your temperature will continue to rise into the afternoon.
It will peak, maybe a little trough.
Sometimes that happens.
And then it'll start declining slowly
as you approach nighttime.
There are things that will disrupt that temperature pattern.
Saunas, cold baths, intense exercise, et cetera.
Meals tend to have a thermogenic effect
that increases temperature slightly, little blip,
but the overall cycle, 24 hour cycle of temperature,
has this pattern.
And last time I talked about the seminal work
of Joe Takahashi and others who have shown that temperature
actually is the signal by which this clock above the roof
your mouth entranes or collectively pushes
all the cells and tissues of our body
to be on the same schedule.
Temperature is the effector.
And once you hear that, there should be an immediate,
oh, of course, because how else would you get
all these different diverse cell types
to follow one pattern, right?
A pancreatic cell does something very different
than a, you know, a spleen cell or a neuron, right?
They're all doing different things at different rates.
So the temperature signal can go out
and then each one of those can interpret the temperature signal
as one unified and consistent theme of their environment.
So temperatures vary from person to person.
Some people are 98.6, some people run a little colder, et cetera.
but you have a low point and you have a high point.
Know your temperature minimum.
How are you gonna figure out this temperature minimum?
The temperature minimum can be determined
by taking the last three to five wake up times.
So let's say you wake up 7 a.m., 8 a.m.,
3 a.m. happens.
Take those, add them together, average them by adding them up
and dividing by the number of days,
that'll give you the average.
If you're one of these people that wakes up at 3 a.m.
and then goes back to sleep and sleeps till 10,
your wake up time was 10 a.m.
If you use an alarm clock,
your wake up time is still when you get up, okay?
I know alarm clocks have been kind of demonized,
but in my world, being late and missing appointments
is also demonized.
So I use an alarm clock.
Many people will wake up at exactly the same time each day.
There tends to be some variation for people.
Some people, it's gonna vary depending on life circumstances,
but average that for three to seven days or so.
So take that wake up time.
You can then get an average
or sort of typical temperature minimum.
Okay, so now you know how to get your temperature minimum.
Your temperature minimum is your absolute reference point
for shifting your circadian clock,
whether or not it's for jet lag or shift work
or some other purpose.
Here's the deal.
If you expose your eyes to bright light
in the four hours,
maybe five or six, but in the four hours
after your temperature minimum,
your circadian clock will shift
so that you will tend to get up earlier
and go to sleep earlier in the subsequent days.
Okay, it's what's called a phase advance,
if you'd like to read up on this further.
You advance your clock, okay?
However, if you view bright light
in the four to six hours before your temperature minimum,
you will tend to phase delay your clock.
You will tend to wake up later and go to sleep later.
Okay, I'm gonna repeat this because there's so much confusion out there
and people talk about circadian time and all this.
Find your temperature minimum.
I tend to wake up at about 6 a.m.
Sometimes 6.30, sometimes 7.
It depends a lot on what I was doing the night before
as I'm guessing it does for you.
But that means that my temperature minimum
is probably somewhere right around 4.30 a.m.
Which means that if I wake up at 4.3.
at 4.30 a.m. and I were to view bright light at 4.35 a.m. I'm going to advance my clock. I'm going to
want to go to bed earlier the subsequent night and wake up earlier the subsequent morning.
And as I shift my wake up time, my temperature minimum shifts too, right? Because each time we shift
our wake up time, our temperature minimum shifts, assuming that wake up time shifts more than, you know, 30 minutes or an hour.
Okay.
If I were to view bright light in the four to six hours
before 4.30 a.m., guess what?
The next night I'm gonna wanna stay up later
and I'm gonna wanna wake up later the subsequent morning.
Your temperature minimum is a reference point,
not a temperature reading.
Again, if you wanna measure your temperature minimum
and figure out what it is, 98 point whatever,
or 96 point whatever, that's fine.
You can do that, but that information won't help you.
What you need to know is what time
your body temperature is lowest.
And understand that in the four hours or so
just after that time, viewing light
will advance your clock to make you wanna get up earlier.
And the four hours before your temperature minimum,
viewing light will make you want to stay up later.
Now some people might be saying,
well, I wake up early and I wanna stay up late
and I'm sleepy all day and I'm a mess or I feel fine.
Look, let's talk about feeling fine.
Turns out the definition of insomnia
is when you're experiencing excessive sleepiness during the day.
Sleepiness and fatigue are different.
Okay, so in the world of sleep medicine,
fatigue is a physical exhaustion.
Sleepiness is falling asleep,
like falling asleep at your desk
or falling asleep during lectures
or there seems to be something special
about my lectures that makes people wanna fall asleep.
So if this cures your insomnia, fantastic.
However, in all seriousness,
sleepiness during the daytime,
unless it's a real time,
unless it's around your temperature peak
and only lasts about 90 minutes or so
is a sign of insomnia.
It's a sign of lack of sleep.
I wanna be very, very clear that if you know your temperature minimum,
you can shift your clock using light.
You can also shift your clock
by engaging in exercise in the four hours
after your temperature minimum
to wake up earlier on subsequent nights
or exercise before then to delay your clock.
Okay, so now you can start
see and understand the logic of this system.
And we'll talk about why this works
and the underlying biology,
but understanding that temperature is the effector
and understanding that you have this low point
and that reflects your most sleepy point,
essentially right before waking up.
And then temperature rises,
you can now start to shift that temperature
according to your travel needs.
Here's one way in which you might do that.
Let's say I am going to travel to Europe,
which is nine hours.
ahead typically from California.
I would want to determine my temperature minimum,
which for me is about 4.30 a.m., maybe 5 a.m.,
and I would want to start getting up at about 5.30 a.m.
and getting some bright light exposure,
presumably from artificial sources,
because the sunlight isn't gonna be out at that time.
Maybe even exercising as well,
maybe even eating a meal at that time
if that's in your practice.
You would wanna start doing that two or three days before travel.
Because once you land in, or I land in Europe,
chances are just viewing the sunrise or sunset in Europe
is not going to allow me to shift my circadian clock.
Some people say get sunlight in your eyes when you land,
but that's not gonna work.
Because one of two things is likely to happen.
With a nine hour shift like that,
either I'm going to view sunlight at a time
that corresponds to the circadian dead zone,
the time in which my circadian clock can't be shifted,
or I'm gonna end up viewing sunlight at a time
that corresponds to the four to six hour window
before my temperature minimum.
So it's gonna shift me in exactly the opposite direction
that I wanna go.
So it can be very, very challenging for people to adjust to jet lag.
So you need to ask, am I traveling east
or am I traveling west?
Am I trying to advance my clock or delay?
delay my clock.
Remember, viewing light, exercise,
and eating in the four to six hours
before your temperature minimum will delay your clock.
Eating, viewing sunlight and exercising,
you don't have to do all three,
but some combination of those in the four to six hours
after your temperature minimum will advance your clock.
And this is a powerful mechanism
by which you can shift your clock anywhere
from one to three hours per day, which is remarkable.
That means your temperature minimum
is gonna shift out as much as three hours
which can make it such that you can travel all the way to Europe.
And as long as you've prepared for a day or so
by doing what I described back home
and then doing it when you arrive,
you can potentially accomplish the entire shift
within anywhere from 24 to 36 hours.
And this is really important to emphasize
that once you arrive in your new location,
and here I'm talking about traveling eastward, California, to Europe,
Once you arrive in your new location,
you have to keep track of what your temperature minimum was back home
and how it's being shifted during your trip.
Now it's much easier to do than you think.
One of the unfortunate consequences of the smartphone
is that you can't do something goofy like wearing two watches,
one watch that corresponds to the time back home
and another one that corresponds to the local time.
Typically it updates automatically based on Wi-Fi, et cetera.
but if you can keep track of the time back home,
then you can easily shift your clock going forward.
I'm hoping this makes sense.
I really wanna emphasize that you don't have
to be precise down to the minute.
Some of you may be asking, well, what about,
you know, you've got this temperature minimum
and if I view light one minute before it,
then I'm gonna delay my clock
and one minute after it, I'm gonna advance my clock.
It doesn't quite work like that, okay?
But it's very important to understand
that light is the primary way in which we can shift
our clock.
And now you should also be able to understand things
like the circadian dead zone from about 9.30, 10 a.m.
all the way until six hours before your temperature minimum,
you're not gonna shift your clock.
Nothing that you do in that time in terms of light viewing behavior,
feeding, et cetera, is gonna shift your clock.
And so a lot of people are landing in Europe,
getting sunlight in their eyes,
and throwing their clock out of whack
or not shifting their clock at all.
This brings me to the other thing that's highly recommended,
and I've mentioned this before,
but you want to eat on the local meal schedule.
If it's in your practice to fast, fast, that's fine.
But when you eat, you want to eat within the local schedule
for alertness.
Okay, that means if you arrive and everyone's eating breakfast
and you can't stomach the idea of breakfast
in your new location because your appetite isn't there,
that means the clock in your liver,
you have a clock in your liver, biological clock,
has not caught up to the new time zone.
You can force yourself to eat, if you like,
or you can skip that meal,
but what you don't wanna do is stay on your home meal schedule,
waking up in the middle of the night and eating.
That is really gonna throw things off
because a lot of the clocks in the periphery,
like from the liver, the peripheral body
will send information back to the brain,
and then the brain is getting really conflicted signals.
So the temperature minimum is really your anchor point
for shifting your clock best.
I don't know why this information really hasn't made it
into the popular sphere quite so much.
There's all sorts of stuff about taking things like melatonin,
using binaural beats, a lot of kind of like more sophisticated,
complicated, and potentially problematic ways
of trying to shift the clock.
Let's talk about melatonin, but first I just wanna pause
and shift gears a little bit
because I talked about traveling eastward,
but we haven't talked about traveling westward.
So I wanna do that now.
Let's say you're traveling from New York to California
or from Europe to California.
The challenge there tends to be,
how can you stay up late enough?
Now, some people are able to do this
because as I mentioned earlier,
the autonomic nervous system is asymmetrically wired
such that it's easier to stay up late later
than we would naturally want to
than it is to go to sleep earlier.
So let's say you land and it's 4 p.m. and you're just dying.
You're in California, you came from Europe,
it's 4 p.m. and you're,
you really, really want to go to sleep.
That's where the use of things like caffeine, exercise,
and sunlight can shift you, right?
If it's after your temperature peak,
then viewing sunlight around 6 PM or 8 PM
or artificial light, if there's in sunlight,
will help shift you later, right?
It's gonna delay your clock
and you're gonna be able to stay up later.
The worst thing you can do is take a nap
that was intended to last 20 minutes or an hour.
I do this routinely.
and then wake up four hours later,
or you wake up at and it's midnight
and you can't fall back asleep,
you really want to avoid doing that.
So provided it's not excessive amounts,
stimulants like caffeine in coffee or tea
can really help you push past that afternoon barrier
and get you to sleep more like on the local schedule
and eating on the local schedule as well.
A number of people have asked about the use of melatonin
to induce sleepiness.
All right, well, let's think about what melatonin is.
Melatonin is this hormone that's released from the pineal gland,
which is this gland.
A couple notes about the pineal,
because I've been getting a lot of questions about this.
I'm probably gonna draw some fire for this,
but I'd be happy to have a thoughtful, considerate debate
with some peer-reviewed papers in front of us.
The pineal does make this hallucinogenic molecule,
they call DMT, but in such minuscule amounts
that it is not responsible for the hallucinations,
see in sleep and dreaming.
Sorry folks.
It's also not responsible for the hallucinations
you might see through other approaches to DMT.
It's just not.
That's not where the DMT comes from.
It's infinitesimally small amounts.
There are a lot of kind of wacky claims out there
about calcification of the pineal and fluoride
and this kind of thing.
Look, the pineal sits in an area of the brain
near the fourth ventricle
where the scurcule,
the skull is not terribly far away,
although there's some overlying neural tissue.
And with age, there's some aggregation
of some of the meninges and other things around there
that stick to the skull.
Young brains don't look like old brains,
but there's no calcification of the pineal, all right?
So you can forget about calcification
of the pineal is a problem.
I don't know where that whole thing got started,
but that's not an issue.
Your pineal will churn out melatonin,
in a whole life.
Melatonin induces sleepiness.
Melatonin during development is also responsible
for timing the secretion of certain hormones
that are vitally important for puberty.
Does melatonin control the onset of puberty?
Not directly, but indirectly.
Melatonin inhibits something called
Gannatotropin releasing hormone,
which is a hormone that's released from your hypothalamus,
also roughly above the roof of your mouth and your brain.
Gannatotropin releasing hormone is really interesting
because it stimulates the release of another hormone
called lutenizing hormone, which in females causes
estrogen to be released within the ovaries.
It's involved in reproductive cycles,
and in males, stimulates testosterone
from the Certoli cells of the testes.
Melatonin is inhibitory to GNRH,
gonadrobin releasing hormone,
and therefore is inhibitory to LH, lutenizing hormone,
and therefore is inhibitory to testosterone and estrogen.
It's just no,
two ways about it.
There is an immense amount of data on the fact
that high levels of melatonin in seasonally breeding animals
takes the ovaries from nice and robust ovaries
that are capable of deploying eggs and this kind of thing
and literally shrinking them
and making these animals infertile.
These are very high levels of melatonin
in seasonal breeders in winter.
Melatonin in males of seasonal breeders
takes the testes and shrinks them.
Long ago when I was at UC Berkeley as a master student,
I was working on neurodocrinology,
and we were working on this hamster species
of seasonal breeders, and basically when days are long,
which inhibits melatonin,
these little Siberian hamsters, as they're called,
have testes about the size of sort of typical table grapes,
although that's a weird way to put it.
When days get shorter and the melatonin signal gets longer
because light inhibits melatonin,
days get shorter,
Melaton gets longer, those same hamsters would have testes
that would involute to the size of about a grain of rice.
Now this does not happen in humans in short days,
but nonetheless, the melatonin signal really does have
a ton of effects on the hormone system.
Now, does that mean that if you've been taking melatonin,
you've really screwed up your hormones?
Not necessarily.
Does it mean if a kid has been taking melatonin
that's really screwing up their puberty,
not necessarily, and here's why.
Melatonin operates on a concentration,
level. So in a child that's very, very small that has high levels of melatonin, it actually can inhibit
GnRH, LH, testosterone, or estrogen depending on the sex of the child. But as that child grows through
other mechanisms like growth hormone release, et cetera, that same amount of melatonin released from the pineal
is now diluted over a much larger body. So the concentration actually goes way, way down.
Okay. But here's the problem with supplementing melatonin. As I mentioned in the previous episode,
Concentrations of melatonin in many commercial supplements
have been shown to be anywhere from 85% to 400%
of what's listed on the bottle.
So when you take melatonin, where a child takes melatonin,
oftentimes they are taking supra-physiological levels of melatonin,
which at least by my read and the literature says
that it could have dramatic effects on timing
and course of things like puberty.
So it's not so much that the,
journals have come out saying, oh, taking that melatonin inhibits puberty, it's that no single
study has been done with the superphysiological levels of melatonin that are present in a lot of
these supplements in developing children. So melatonin is used widely for inducing sleepiness
when you want to fall asleep in the new location that you've arrived. You can't fall asleep.
You take melatonin and it helps you fall asleep. It does not help you stay asleep. In addition to that,
Melatonin has been kind of touted as the best way
to shift your circadian clock.
I'm happy to go on record saying,
look, if you need melatonin,
you can work with a doctor or somebody who really understands
circadian and sleep biology, go for it,
if that's your thing.
But I, as always on this podcast and elsewhere,
I have a bias toward behavioral things
that you can titrate and control,
like exposure to light, exercise, temperature, et cetera,
that have much bigger margins for safety
and certainly don't have these other
endocrine effects that we've been thinking about
and talking about.
So if you wanna take melatonin the afternoon
in order to fall asleep or in the evening,
be my guess, that's up to you.
Again, you're responsible for your health, not me.
But for many people, melatonin is not going to be the best solution.
The best solution is going to be to use light
and temperature and exercise on either side
of the temperature minimum to shift your clock
both before your trip and when you land
in your new location and your clock starts to shift.
Okay, so now you know my opinions about melatonin.
Feel free to filter them through your own opinions and experiences with melatonin.
And now you also understand what your temperature minimum is and how it represents an important landmark,
either side of which you can use light temperature and exercise to shift your clock.
Just to remind you a little bit about temperature, if you want to shift your clock,
typically you would do that by you could take a hot shower and then that will,
have a cooling effect after the hot shower.
And if you were to get into a cold shower
or an ice bath, if you have access to one,
afterward there's going to be a thermogenic effect
of your body increasing temperature.
And if you just think about your natural rhythm
back home when everything's stable,
you have a nadir, a low point in,
which is your temperature minimum,
and then you have a peak.
And you think about when you're doing this
hot or cold shower in that rhythm,
now you should be able to understand
and how you're shifting your rhythm.
That temperature rhythm is the one that's going to move.
Give you an example.
If I were to wake up in the morning
and let's say I wake up at 6 a.m.,
my temperature I know is rising.
I've passed my temperature minimum.
If I were to get into a hot shower
that would then lower my body temperature
when I got out, that is not normally what's happening
first thing in the morning.
And therefore my clock would very likely
get phase delayed.
It's gonna delay the increase
in temperature.
Whereas if I got to a cold shower,
something I don't personally like to do,
but I've done from time to time
or an ice bath, that's going to then have a rebound increase
in body temperature and is going to phase advance my clock.
That peak in the afternoon is gonna come
about an hour earlier.
I'm gonna wanna go to bed earlier later that night.
So you can start to play these games
with timing and hot and cold with meals,
whether or not you eat or you don't eat,
and with light exposure, whether or not you view light.
So now you can start to see why
understanding the core mechanics of a system
can really give you the most flexibility
because I could spend the next 25 years of my life
answering every question about every nuanced pattern of travel.
Well, we're going to Sydney, then we're going there,
what should I do?
But that's on you.
You need to figure out your temperature minimum
and your temperature peak, if you like,
and then use these parameters to,
it gives you flexibility.
And that really underscores the most important thing
is that when you understand mechanism,
it's not about being neurotically attached
to a specific protocol, it's the opposite.
It gives you power to not be neurotically attached
to a specific protocol.
It can give you great confidence and flexibility
in being able to shift your body rhythms however you want.
And when things get out of whack,
you can tuck them right back into place.
One thing that's common is that people need to do a quick trip.
It's not always that you're gonna go to, you know,
on vacation for two weeks or, you know,
work someplace else for weeks on end.
If your trip is 48 hours or less,
stay on your home schedule.
This can be tough and it may require scheduling meetings
according to your home schedule,
but if you can somehow manage that,
the best thing to do would be to stay on your home schedule.
Your clock is not going to shift more than a couple hours,
even if you do everything correctly in one day.
Okay, so if I were to travel, say to Europe,
I've actually done this, I did a 24 hour trip
to Basel, Switzerland, gave a talk and came back.
People thought it was crazy, but I had a little bit of travel fatigue,
because remember there's fatigue from the actual travel experience.
The novelty of it, the air is never great on the planes.
This was even true before there were mask requirements
and things like that.
There's the travel fatigue, but you don't throw your clock off.
If you stay 48 hours, then you start to shift a little bit.
72, that's when you start running into trouble.
The transit time is also important,
but I would say if it's three days or less,
stay on your home schedule as much as you can.
And because sunlight isn't under your control,
unless there's something about you, I don't know,
that's when traveling with some sort of bright light,
like the light pad that I have down there
that I showed earlier, for those of you're listening
just on audio, it's just, it looks like an eight and a half
by 11 pad, it's actually not designed for wake up.
It's actually designed, it's a drawing pad.
And it emits about a thousand luxe of light.
And so if you,
want to travel with something like that,
you can use that in your hotel room
to wake up when you like.
Some people will use night shades,
you know, not the night shades that you eat
or that some people say you're not supposed to eat,
I don't know anything about that,
but the eye covers to keep light out.
Those can be very useful on planes
and in hotels and so on.
So you can use light and dark
and you can travel with your light and dark devices
so that you can stay on your home schedule
and get most of your light
when it would be your normal wake up time back home.
And what's kind of nice is if you know
when your circadian dead zone is back home,
which is generally for most people around 10 a.m. to about 3 p.m.
So basically the rising phase of your temperature,
then you can also feel free to be outside
without having to wear sunglasses or you don't have to worry
about light exposure.
But if you know,
that window before your temperature minimum,
that four to six hour window,
that's the time when if you're viewing a lot of light
in your new location,
you are going to shift your clock pretty considerably.
And then you can come back home and have a terrible time.
At the end of graduate school,
I went to Australia, the remarkable country,
incredible people, incredible wildlife.
An amazing time, I came back
and it was the first time in my life
where I couldn't sleep on a regular schedule.
I was sleeping in like hour long increments
throughout the day.
It was a nightmare.
And it was a nightmare.
and it took me weeks to get back on Target.
And the way I was able to do that
was exercising consistently at the same time
every 24 hours, turning my home into essentially a cave
at night, even covering up the windows,
and then getting as much bright light in my eyes
as I possibly could during the day, no sunglasses, et cetera.
So it can take some real work if your clock
gets thrown out of whack.
There's a phenomenon called ICU psychosis
where people that are in the intensive care unit,
in hospitals actually lose their mind.
They become psychotic, hallucinations, et cetera.
And it's because of altered circadian cycles.
We know this because they're exposed to these lights
and these sounds, people coming in and checking on them.
They leave the hospital or in some cases,
there have been experiments where people are placed
near a window where they get some natural light
and these psychotic symptoms disappear.
Presuming there weren't psychotic symptoms beforehand
before they entered the hospital.
So it's pretty dramatic what,
light can do to the psyche and to the body.
So let's talk a little bit about a different form of jet lag
that requires no planes, no trains, no automobiles,
and that's shift work.
Shift work is becoming increasingly common.
Many of us are shift working even though we don't have to.
We're doing work in the middle of the night.
We are working on our computers at odd hours,
sleeping during the day, a lot of people who are under
shelter and place type stuff,
are doing more of this.
Kids with the drifting school schedules.
Here's a deal with shift work.
If there's one rule of thumb for shift work,
it's that if at all possible,
you want to stay on the same schedule
for at least 14 days, including weekends.
Now that should immediately cue the non-shift workers
to the importance of not getting too far off track
on the weekend even if you're not a shift worker.
So sleeping in on seven,
Sunday is not a good idea.
The most important thing about shift work
is to stay consistent with your schedule.
Now I had a conversation on an Instagram live
with Samar Hatar, who's a neuroscientist
at the National Institutes of Mental Health.
He's actually the head of the chronobiology unit there.
And he was really emphasizing this point
because shift work where people are doing
the so-called swing shift where they're working four days
on one shift and four days on another
is extremely detrimental to,
to a number of health parameters.
It gets the cortisol release from the adrenals
really out of whack.
And there are these cortisol spikes at various hours of the day.
It messes up learning.
It really disrupts the dopamine system and well-being.
It is a serious, serious problem.
So if you can negotiate with your employer
to stay on the same shift for two weeks at a time,
that's going to be immensely beneficial
and will help you offset a lot of the negative effects
of shift work.
Now, I don't,
don't presume that all of you are gonna be able to do that.
Some of you just don't have that level of control.
And of course, I wanna acknowledge that shift workers are essential, right?
Of course, first responders, firefighters, police officers, paramedic, et cetera,
but also pilots, people, night nurses, people working on the hospital wards,
people picking up trash.
These night shifts are critical to our functioning as a society,
as I'm sure all of you can appreciate.
If you're going to work a shift where,
let's say you start at 4 p.m. and you end at 2 p.m.,
excuse me, then there's some important questions that arise.
For instance, should you see light during your shift?
Well, this is a matter of personal choice,
but ideally you wanna view as much light as possible
and is safely possible when you need to be alert.
So that would mean from 4 p.m. to 2 a.m.
And then you would want to sleep.
So using light as a correlate of alertness
and using darkness as a correlate of sleepiness,
what this means is see as much light as you safely can
during the phase of your day when you wanna be awake.
So it's the same thing I said way back the beginning
of this podcast episode.
And see as little light as safely possible
and allows you to function during the time
when you want to be asleep.
So if you're finishing out that 2 a.m. shift,
that's when,
you would want to avoid bright light exposure,
you'd wanna go home, you'd really wanna avoid watching TV if possible.
If you need that in order to fall asleep,
that would be a case where something like dimming the screen
plus blue blockers, if that's in your practice,
or you wanna do that would be helpful
and then going to sleep and then you'll probably wake up
late in the afternoon or early afternoon.
Some of you might say, wait, Huberman,
I thought you don't like blue blockers.
I never said I don't like blue blockers.
I don't like people wearing blue blockers
at the time of day when they wanna be
alert. And I don't like people asserting that blue blockers can prevent circadian shifts simply
because people are wearing them. The brightness of light is what's important. It's not about the blue.
So if you want to wear them, wear them or just dim the lights or turn the lights off.
So let's say you go to sleep at, you get home after this 4 p.m. to 2 a.m. shift. You maybe eat
something. You go to sleep and you wake up and it's noon or 1 p.m.
should you get light in your eyes?
Well, your first assumption based on what I've said previously might be
that you're in the circadian dead zone,
that you can't because it's noon or 1 p.m.
But you're not in the circadian dead zone
because you're somebody who goes to sleep
early in the morning at 2 a.m.
So it's not like the circadian dead zone
is a strict time of day.
It's an internal biological clock.
So what do you need to know?
You guessed it.
You need to know your temperature minimum.
You need to know,
whether or not your temperature is increasing or decreasing.
And now we can make this whole thing even simpler
and just say if your temperature is decreasing,
avoid light.
If your temperature is increasing, get light.
It's that simple.
Okay, if your temperature is decreasing, avoid light.
If your temperature is increasing, get light.
The shift worker who works from 4 p.m. until 2 a.m.,
has a temperature rhythm that's very different
than mine where I wake up around 6 a.m. 5 a.m.
and I go to sleep around 11 p.m.
Okay, we both have a 24 hour-ish circadian cycle,
except mine is more aligned to the rise
and setting of the sun and theirs is not.
Right?
So you have to know your internal temperature rhythm
and no, you don't have to walk around
with a thermometer wherever taking your temperature.
Although it would be great,
if some of the devices that are out there,
people are counting their steps.
I think it'd be great if people had a circadian body temperature measurement.
I'm not involved in any of this device development,
but I think it's a real call to arms, pun intended,
to have a wristband that would measure temperature
and would tell you your temperature minimum
when you travel or whatnot.
I don't know, maybe some of these devices already do that.
But if they don't, they should.
It's absolutely absurd to me why we wouldn't have
this simple measurement.
Very easy to get that kind of information.
You don't even need the exact temperature
or read, all you need to know is the high and low point.
So let's say you're a shift worker who really is nocturnal.
You're flipped.
Well, you want to stay on that nocturnal schedule.
Now that can be very hard on families and social life of all kinds.
But the person who is working, say, from 8 p.m., like sundown to sunrise,
this raises a question.
Should they be looking at the sunrise and should they be watching the sunset,
waking up with the sunset, going to sleep with a sunrise,
and think, well, is that light gonna throw them off?
Ah, probably not.
It's just actually gonna invert what sunrise and sunset are.
When they're waking up in the morning,
if they look at the, you know, they get some sunlight in their eyes.
They look at the sun and get some bright light
from devices or overhead lights in their apartment or home.
Well, that's gonna tend to wake them up
if it's in the evening, right?
So it's, you know, I don't know if I stayed that clearly,
If in the evening the sun is setting
and they're looking at that setting sun,
that is the morning sun for that person.
And it will wake them up for their night shift.
So temperature rising.
Then toward morning, what's happening?
Okay, well they're closing out their work shift.
You're going home.
The sun is rising.
Do you look at the rising sun?
Well, based on what you now know,
your eyes are very sensitive to resetting
of circadian clocks.
What will it do at that time?
If this were a classroom,
I would either cold call on somebody
or I'd wait for the,
person in the audience inevitably exists.
So temperature is for that person,
they've been up for a while, temperature is falling,
not rising.
For me it would be rising,
but because I'm not diurnal.
I'm awake during the day.
For that person, the temperature is falling.
And so they view light while temperature is falling.
What's it going to do?
It's going to phase delay them.
It's going to make it harder for them to get to sleep the following night.
So you would say that person should,
watch the setting sun to help them wake up
because they're gonna work the night shift,
but you probably have sunglasses on
or avoid viewing bright light before they go to sleep.
So it's the same thing.
They're just on an inverted as a typical person
who's diurnal, but they're on an inverted schedule.
So I'm really trying hard here to make this all really clear.
There are kind of two patterns of requests in the world
I'm noticing as I've kind of ventured into this landscape
social media and podcasts.
There are people who wanna know every detail
wanna quantify everything because they wanna get exactly right.
These are like the graduate students
and students that don't wanna make a mistake.
And to quote my graduate advisor,
provided the mistakes are not dangerous, certainly not lethal.
You kinda wanna make a few little mistakes
so that you can adjust, right?
You don't wanna endanger yourself,
but it's actually, you're not gonna get things perfect.
That's called learning.
Learning is when you realize,
I've viewed son this time,
and then I stayed up and it really messed me up.
I'll never do that again.
The other category of people seem to want the one size fits all,
kind of like, give me this pill or give me this protocol.
And those things generally work,
but they don't afford people flexibility.
And if there's anything like that,
it's this temperature minimum thing
that I've been just hammering on again and again and again today
because it's something that you own
and that you can really use as a key landmark for shifting
your clock. I suppose there's a third category, which is people who are accept that biological systems
are actually much more forgiving than the way they're sometimes described. And I'm going to use this
as an opportunity to editorialize a little bit. You know, there's so much made of sleep debt.
Look, there isn't an IRS equivalent for sleep. They're not going to come around and try and
collect all the sleep that you didn't get. No one really knows what the consequences are going to be
for you and for me and for the next person
for the sleep you didn't get.
You can't really recover the sleep you missed out on,
but you also don't wanna get neurotically attached
to a schedule because there's this thing called sleep anxiety
and then people have trouble falling asleep
and staying asleep.
So I wanna spend a moment on that
and go back to a theme that I've said many times before
because these tools work,
what I called NSDR non-sleep depressed.
So this would be hypnosis, I give you the link,
but I'll say it again, reveriehealth.com.
for clinically tested, research tested,
free hypnosis for anxiety, but also for sleep.
Those are very beneficial people.
NSDR protocols, non-sleep de-breast protocols
for things like Yoga Nidra.
I provide some links to those in the caption for episode two.
These things really work.
Last night I woke up, I went to bed about 10.30.
I woke up at three in the morning.
I knew I wasn't feeling rested.
I did a NSDR protocol.
I fell back asleep, I woke up at 6.30.
Okay, you need to teach your brain and your nervous system
how to turn off your thoughts and go to sleep.
And ideally you do that without medication
unless there's a real need,
you do that through these behavioral protocols.
They work because they are involved using the body
to shift the mind, not trying to just turn off your thoughts
in the middle of the night.
Now there are periods of life where things are stressful
and people are concerned and you will have some struggle
getting and staying asleep.
And there's, that really has to do more with anxiety,
which NSDR protocols also can help with.
As I always say, do them in the middle of the night
if you wake up and you wanna go back to sleep,
doing the middle of the day to teach your nervous system
out of calm down or do them first thing in the morning
if you didn't feel you got enough sleep.
In other words, do them whenever you have an opportunity
to do them because they really can help
you learn how to turn on the parasympathetic
slash calming arm of your autonomic nervous system.
There's no other way that I'm aware of
to teach your system to slow down
and turn off your thoughts and go back
to sleep, but these are powerful protocols
and there's a lot of research now
to support the fact that they can really help.
Meditation would be another example.
Meditation of certain kinds of meditation
involve focus and alertness.
Those are slightly different than meditations
that involve lack of focus and attention
to say internal states.
I'm gonna pause there and then I wanna talk about kids
and the elderly.
In other words, how do we control sleep
and circadian rhythms and wake
in babies, adolescence, teens, and aged folks.
All right, before we talk about sleep and kids,
I wanna tell a little story, it's not a joke.
Many of you will be relieved that.
I'm not gonna try and tell another joke this episode,
which is the relationship between light,
skin and pellage color,
dopamine, and reproduction, mating.
So many seasonally breeding animals,
Siberian hamsters, which I mentioned earlier,
rabbits, fox, other animals change their color of their coat.
In the winter they tend to be a lighter color,
sometimes pure white, sometimes with flex of black or brown.
And in the summer, their pellage changes to a color
of brown or red, some other vastly different color.
that shift is controlled by light and by melatonin.
This has an interesting correlate in humans.
So humans obviously have different skin tones
just genetically because the amount of melanin
in one skin depending on genetic background.
But of course, sunlight will increase the amount
of melanin in the skin regardless, right?
This is sun tan, sunburn, et cetera, bronzing, whatever.
The whole system is wired so that shifts in skin color
and shifts in these cells within the eye and melatonin
are actually very closely linked.
So here's the story.
Many years ago, meaning about 10 years ago, 15 years ago,
let's see, it was 20 years ago, forgive me,
a guy named Iggy Provencio who was running his own lab
at Uniformed Armed Services,
this is a standard biological laboratory,
discovered that there was an opson in the eye,
in the cells of the eye that connect to the rest of the brain
called melanopsin.
Melanopsin, as many of you now know, is the opson.
It's like a pigment.
It absorbs light.
It is the option that converts light into electrical signals
that then set the circadian clock.
Iggy discovered melanopsin,
because it was similar in form to what was in frog melanophores.
It was actually in the skin of frogs
that allowed those frogs to go from pale white
when it was dark for most of the 24 hour cycle
to pigmented green or brown for a frog.
So there's this relationship between the cells in our eye
and the pigment cells of our skin.
And we also know that in long days,
there's more breeding.
How does that work?
Well, that's actually from dopamine triggering increases
in testosterone mainly in males and estrogen mainly in females,
although of course there's testosterone and estrogen
in both sexes.
So we have this kind of pathway where it's light increases
in melanin, dopamine and reproduction on the one hand,
and lack of light, melatonin,
decreases in the darkness of skin,
less melanin in the skin,
or in the case of an animal with fur,
white fur, and no reproduction on the other hand.
And humans don't actually shift their breeding patterns
tremendously from long days and short days,
although there are some data that there's some shifts.
We also don't radically change our skin color,
depending on how much sunlight exposure we have.
But the simple way to put this is when days are long,
there's a lot more dopamine and we feel really good
and there's a lot more breeding and breeding like behavior.
When days are short, there's a lot less dopamine
and a lot less breeding behavior
because these pathways are very highly conserved.
Now, what's interesting is that as we've moved into a modern society
where much of our waking days,
we are looking at screens,
which is fine because we're getting a lot of light that way,
although not as much as sunlight.
But also at night, we're getting a lot of light from screens.
What's happened is all these pathways,
melanin in the skin, turnover of skin cells, dopamine,
all of this stuff has become completely disrupted.
Now that's not to say that we should go back to a time
in which we didn't use artificial lights.
But I think the important thing to realize
is that feeling good with getting a lot of light,
the relationship to dopamine and melanin in the skin
and the good feelings of getting light also on our skin,
provided you're not getting burned
or you're not getting excessive UV exposure.
Those are not just coincidences.
Those are hardwired biological mechanisms
that exist in everybody, regardless of how light
or dark your skin is to begin with.
There's another point which is important,
which is that the dopamine system,
which is this,
feel-good molecule is very closely related
to the testosterone and estrogen and reproductive cycles.
Remember, melatonin inhibits gonadotropin releasing hormone,
luteinizing hormone, and the production of these hormones.
And melatonin is the effector.
It is the hormone of darkness.
So I just threw a lot of biology at you
and I'm not saying you're like a Siberian hamster,
at least not in ways that I'm aware of.
I'm not saying that your pellage color is going to change.
Actually, the reason people go gray
is because when you're really stressed,
did you know this?
When you're really stressed,
there's an increase in the nerve fibers
that release adrenaline to the hair follicle
and that activates peroxide groups in the hair follicle
that cause the hair to actually go gray or white.
So actually stress does make your hair gray or white.
Aging does it too.
That was a brief aside,
but for those of you, they're interested
in the relationship between
light and skin tone and all that kind of stuff.
I thought you might find it interesting
that these cells in your eye are a lot like
the skin cells in frogs or in animals
that shift their entire color
and sometimes metamorphosize.
There's some species that literally change shape
and the reproductive organs.
In fact, if that wasn't weird enough,
when I was in graduate school at Berkeley,
there was another graduate student studying
a species of hermaphroditic mole,
right, those little things that dig.
hermaphrodate mole that would change from having ovaries
to testes and back again depending on day life.
Super cool, super different and wild biological mechanism.
If you're wondering how those animals reproduce,
they actually adjust the numbers of males and females
depending on the density of males and females.
So if they're too many males, some of the males turn their testes
into ovaries and if they're too many females,
they turn their ovaries in to testes.
to test these.
They actually are true hermaphroditic animals
as opposed to pseudohermaphroditic animals.
Okay, let's get back on track.
Let's talk about the animal that most of you care about,
which is the human animal.
New parents and babies.
All right, as I mentioned earlier, melatonin is not cyclic.
It's not cycling in babies.
It's more phasic.
It's being released at a kind of a constant level.
And babies tend to be smaller than adults, they are.
And so those concentrations of melatonin are very high.
As a baby grows, those concentrations per unit volume
are gonna go down.
Babies are not born with a typical sleep wake cycle.
And now all the parents saying,
tell me something I didn't know.
They also have, and I really wanna emphasize this,
they also have much more sensitive optics of the eye.
So a number of people have asked me,
you know, should I be exposing my baby to sunlight?
You don't wanna avoid sunlight,
but their eyes are very sensitive.
The optics of their eyes aren't quite developed,
so much so that you know when you look at a newborn baby
and they look a little glassy eye
and they're kind of looking through you
or even a young child,
a lot of people think that they're seeing you
the way that you're seeing them.
Hate to break it to you,
but if you ever can just Google
visual image of a one month old,
the optics of their eyes are so poor
that you're a cloudy image.
They're not seeing your fine detail.
As the optics get better,
then they will see you with more and more clarity.
But a lot of that is clearing of the lens
and some of the other aqueous features of the newborn eye.
They don't see very well.
But they also don't have such great ways
of adjusting to bright light.
And so babies have a natural version to bright light.
So you really wanna avoid trying to use sunlight
or really bright light in the same way
that you would for an adult
on a young baby or child.
As children get older, however,
melatonin does start to become slightly more cyclic,
slightly more cycled, and their body temperature rhythms
also start to fall into a more regular,
not quite 24 hour rhythm.
They're more of these ultradian rhythms.
So in an episode, I think it was one or two of the podcast
or maybe both, we talked about these 90 minute,
so called ultradian rhythms,
where every 90 minutes, babies,
are going through a cycle of body temperature
and some other hormonal features.
I mean, that so much is changing in their system.
So what to do if a child isn't sleeping?
You can use phases of darkness and phases of light,
but they're gonna have to be shortened
in order to try and encourage sleep
when you want the child to sleep.
It's not that they're just not gonna fall
into an adult light regime of a temperature minimum
and a temperature maximum.
Their temperature minimums and maximums
are fluctuating much more quickly,
and it very very,
tremendously.
Actually, there's an interesting literature
of whether or not they have siblings,
whether or not they're twins,
whether or not they're in a nursery environment,
whether or not they're alone.
Hopefully the baby's not alone,
but you know what I mean,
that they're sleeping alone in a room
while you're in the other room.
There are a couple of things that seem to help,
which is getting the overall environment
into a 24-hour schedule.
So having the room slightly colder,
obviously you want babies to be nice and cozy,
slightly colder when you would like them to be asleep,
slightly warmer for the times you would
like them to be awake.
Babies tend to be run pretty hot anyway.
And obviously you want to be very careful
about avoiding all extremes of temperature, cold or hot.
So if they're going through these 90 minute cycles,
you're going to have to adjust to those 90 minute cycles as well.
So then people say, well, that's not gonna help me at all
because how do I deal with the fact
that I need to be up every 90 minutes at night?
There are a couple tools that can be helpful.
The first one is going to be,
to try and understand the relationship
between calm and deep sleep.
So the autonomic nervous system can put us into states of panic
where that's kind of seesaw of autonomic alertness
goes all the way to panic,
or it can be alertness or can be alert and calm, right?
So there's a range there, it's a continuum.
It can also be that you're in deep sleep,
so the other end of the seesaw is way up,
or you're in light sleep, or you're kind of sleepy,
or you're just feeling kind of relaxed.
Perhaps the most important thing
if you're having to map to a baby schedule
in order to make sure that they're getting changings
and nursing, et cetera, the appropriate times
is to try and maintain as,
if you can't sleep or you can't sleep continuously,
to try and maintain your autonomic nervous system
in a place where you're not going into heightened states
of alertness when you would ideally,
be sleeping.
Now, I realize that this could be translated to,
try and stay calm while you're sleep deprived,
which is very hard for people to do.
But this is where the non-sleep deep rest protocol surface again
and can potentially be very beneficial
for people to be able to recover, not necessarily sleep,
but for them to maintain a certain amount of autonomic regulation.
So what would this look like?
This would look like if baby goes down,
maybe it's only gonna go down for 45 minutes.
If you can capture sleep,
capture sleep.
There are some data showing what's called polyphasic sleep.
If you can sleep in 45 minute increments or batches,
even if it's spread throughout the day
with periods of wakefulness in between,
as miserable as that sound,
there are actually some adults that have deliberately employed
that who don't have children for sake of work productivity.
And it does tend to reduce the total overall amount
of sleep that you need.
It is a very hard schedule for most people to maintain,
but if you have a baby, the baby may be throwing you
into that kind of schedule anyway.
So if you can get 45 minutes sleep while they sleep,
Great.
If you can get another 45 minutes after waking
and then they go back down to sleep, great.
So as many phases of sleep as you can get,
but if you can't sleep,
the data on non-sleep deep rest type protocols
does show that at least from a neurochemical level,
wanna be clear what that means,
reset of things like dopamine levels
in the basal ganglia measured by things like positron emission tomography,
et cetera.
Those things tend to reset themselves pretty well
if you can access these deep rest states.
So that means not being,
being alert throughout the entire time
that the baby's sleeping,
trying to mirror the baby's sleep cycle,
which can be brutal for certain people,
and especially if you're trying to prepare meals
and do all these things.
So I do recognize that there are a lot of constraints
on parenting, not just mapping on your baby's sleep schedule.
As children approach ages one, two, three, four,
that's when certainly the optics of the eyes have improved,
but you don't wanna damage the eyes, of course,
with very bright light.
They are much more sensitive,
even until they're,
they're kind of 10, 11 years old.
And we'll talk about vision in children in a moment,
but trying to get longer and longer batches of sleep
through, hopefully not through the use
of administering melatonin to the kids,
because that's what I talked about before,
why that could potentially be detrimental.
Talk about that with your doctor,
but more so trying to get longer blocks of sleep
that map onto these ultradian cycles.
So it would be better off to get a three hour,
like two 90 minute cycles,
then a four hour batch of sleep
because waking up in the middle of those ultradian cycles
can just be brutal for parent and kid.
So if one can't get a full six or 10
or some kids should even be sleeping 12 hours
when they're growing quickly,
trying to get batches of sleep,
even if they're fractured throughout the 24 hour cycle
that are matched more to these 90 minute cycles,
meaning maybe one ultradian cycle of 90 minutes
or two back to back,
or three back to back to back,
that's going to be better than waking up
in the middle of an ultradian cycle.
It's just gonna set any number of other things
in a better direction than were you to try to say
just enforce or force a full eight or 10 hours of sleep.
That's at least what the literature shows.
Some kids sleep great through the night
starting at a very young age.
Others don't.
I typically hear from people who are struggling tremendously.
They're losing their mind understandably
because they're not sleeping,
their kid's not sleeping, or their kid is sleeping
for such brief period.
So in other words, try and access deep calm
if you can't sleep, try and access sleep
if you can sleep even if it's fractured.
And then you say, well, what about all the sunlight viewing
and the exercise stuff?
When sleep is really, really dismantled,
meaning it's happening in various times of day or night,
that's especially, at those times,
it's gonna be especially important for the parent
to get morning and evening sunlight
because your circadian clock is going into a tailspin,
and it basically,
basically wants to anchor to something,
so you wanna give it two anchors,
morning and evening light.
Okay, so this is rather different
than what I described for shift work.
This is when things are really chaotic
and you're just not able to sleep.
Similar circumstances can arise
if you're taking care of a very sick loved one.
You're up all night.
Try and stay calm using NSDR protocols.
I know it's harder to do then to say,
but those protocols are there, they're free.
There's research to support them.
Try and get sleep whenever you can,
but also try to try to sleep,
to get morning sunlight and evening sunlight
in your eyes if you can and if you can't get that,
use artificial light.
Okay.
What about later life?
So kids now, adolescence, teens,
it is true that teens have a tendency to wake up later
and go to sleep later.
In part, just because they're sleeping a lot more.
They're churning out gonadotropin releasing hormone
and lutenizing hormone.
Their whole bodies are changing.
I don't know whether or not people realize this,
but the fastest rate of aging,
that any of us will ever undergo is puberty.
That is the fastest rate of aging.
And so there's a huge number of biological processes
that are happening during puberty.
Probably devote a whole episode to puberty.
It's a fascinating aspect to the life course,
but it is an accelerated period of aging.
And the circadian clock mechanism sometimes are very intact
and sometimes they're a little dismantled
and going through some change,
but prioritize the duration
of sleep for adolescents and teens.
Now if that means they're sleeping until 2 p.m.
and then waking up and then they're up all night,
the up all night part can become a problem,
especially with all the devices,
texting in their rooms or playing video games.
Morning and evening sunlight would be ideal,
but some kids are just gonna sleep through the morning sunlight.
However, if you were to measure their temperature,
what you would find is that their temperature minimum
would come later in the morning.
It's not going to be 8 a.m.
It's gonna be maybe even 10 a.m.
if they're sleeping until 11.
or 12 or it might be 8 a.m.
if they're sleeping until 10.
Remember, temperature minimum is two hours
before your average waking time typically.
So in teens, it maximizes the total amount of sleep.
Try and get regular sunlight either in the morning
or in the evening or both,
but if they're sleeping through the morning sunrise,
that's probably not as much of an issue.
Waking them up and depriving them of sleep
is probably worse because their team in,
their temperature minimum is actually falling later.
So their circadian dead zone is later,
et cetera.
So I think with adolescents and teens,
it makes sense to kind of give them a little bit more rope
in terms of allowing them some leeway
to adjust their own schedule.
Some schools are even starting classes later
on the basis of some very good biology
to support this late shifted rhythm
and this extended sleep phase.
There are data from Dr. Jamie Zitzer,
Department of Psychiatry and Behavioral Sciences
and others at Stanford showing that turning on the lights
in the room of a teen before they wake up
helps them get more sleep the subsequent night.
It also tricks them into going to sleep a little bit earlier,
but it gives them about 45 minutes more of deep sleep.
And that's been shown statistically.
Total sleep time increases as well.
If they're hiding under the covers, that's not gonna work,
but their eyes don't have to be open.
I know a few parents now that are coming in
with a flashlight and flashing their kids over their eyelids
before they wake up in hopes of gain this to work.
Some have told me this is working.
That's not part of a standard study.
But it does seem to work because,
now you should know why,
because if light's getting through the eyelids
and it's say 8 a.m. and the kid is still asleep
and they're gonna wake up at 10,
you're giving them light just after or around
their temperature minimum,
which is going to make them wanna go to sleep earlier.
And in the case of teens, for some reason we don't quite understand,
sleep longer, about 45 minutes longer,
spend more time in deep sleep.
Adults can do this too if you can persuade someone
or put your lights on timer,
for lights to go on before you wake up,
that's really gonna help you wake up earlier.
Okay, so if you're starting to hear some themes
are really resounding over and over again,
that should be reassuring to you, right?
These are core mechanisms.
There are, fortunately there aren't a thousand different mechanisms.
Now, in the elderly,
there's a real tendency to wanna go to sleep very early
and wake up very early.
And people should talk
to their physician, there is some evidence
that melatonin levels and patterns of melatonin secretion
can become a little chaotic in elderly folks.
What do I mean by elderly?
Well, it's gonna differ.
Rates of aging differ, right?
You see some 65 year olds that are struggling to move
and seem much older than some 65 year olds
that are still hustling around and have tons of energy.
There's a lot of variation.
Some of its genetic, some of its lifestyle factors,
you know, it really,
really varies.
Certainly lifestyle factors can play an important role
in rates of aging.
I think that the most prominent results
from sleep and circadian rhythms in the elderly are,
they need to get as much natural light,
even if it's through windows.
I realize that some elderly folks can't get outside as easily.
It's not safe for them to do it.
They can't move around as easily.
Exercise can come in various forms
for people that can't get outside
get a ton of sunlight by jogging or cycling,
they're not able to do that.
Light through a window in that case, open window ideally,
but for temperature reasons, et cetera,
sometimes the window has to be closed.
Getting people near that window
and away from artificial light early in the day
and away from artificial lights
during the night phase can have a tremendous effect.
And in the elderly, that's when melatonin might be a viable option.
And this should be discussed with a physician, of course,
but you're way past the puberty time.
point. In most cases, people who are in their 70s and 80s and 90s are not churning out a lot
of GNRH and luteinizing hormone to begin with. And that's where struggles with falling asleep
and staying asleep, all the same parameters and things we've described before still apply,
light, exercise, temperature, et cetera. But that's where melatonin might be of greatest benefit.
And again, I'm not pushing melatonin here, but I think for elderly folks who are having trouble
falling and staying asleep, that might be worthwhile.
There are, and I should just also mention that regular schedule for folks that are elderly and
as much natural light as safely possible, that those are going to be the really the key levers
for adjusting sleep in circadian schedules. I've mentioned before in previous podcasts,
other supplements besides melatonin. And some of those supplements are quite good for sleep.
I, you know, I'm not a supplement pusher. I am somebody who takes supplements. I
believe in them. Some have worked for me. Some have not worked as well. But I certainly believe in getting
the behaviors right, whether or not it's NSDR protocols, viewing natural light, exercise, it's hot baths
or cold showers or what have you. Behavioral protocols first. There are some supplements that
I've mentioned previous podcasts, but I've seemed to get a lot of questions about. So I just want to
take a couple of minutes and just talk about some of the supplements that can be beneficial for
helping turning off thinking, accessing deeper sleep,
and even being able to compact your sleep schedule
into a shorter period of hours,
meaning getting by well with less sleep.
People take a lot of sleeping pills.
I'm not gonna tell people not to take sleeping pills.
They can be very problematic, habit forming.
High side effect incidents in many cases.
Some people can handle them just fine.
Again, not physician, don't prescribe anything.
Or professor,
So I profess a lot of things, some of which are my opinion.
Although if you look at the scientific literature,
there's some impressive data around some non-prescription drug
type supplements that have fairly high safety margins
that you might consider,
but you should talk to your doctor always
before adding or taking anything out of your health regimes, right?
Your health is not my responsibility,
it's your responsibility, so be a stringent filter.
Along those lines, one of the most powerful and useful tools
that I've mentioned here on many times
and I plan to mention many, many more times,
is the website Examine.com,
which I have no affiliation with,
but is a wonderful site that links you to quality,
peer reviewed studies,
relate to just about any supplement,
including some safety warnings.
We'll also tell you what subjects,
whether or not it was rats, cats, elderly folks, or kids
that a given study was done on,
which is important, can be kind of hard to pull
from sites where people are just advertising supplements, right?
They usually don't tell you what the study was
and who were these rats.
Who were these kids, et cetera?
There are three supplements that, at least for me,
have had a tremendously positive effect on my sleep
that some of you might consider.
I would say if you're doing everything properly,
behaviorally and you're still having issues,
then supplements might be a good thing for you.
Or if you are traveling and you want a little bit of extra help
in buffering your sleep wakefulness protocols,
Some people like to go just to the supplements.
They're like, what should I take?
I have people in my life that are like,
just tell me what to take.
You know, I'm more of, here's what you might wanna do
or not do, but, and then think about
what you might wanna take or not take,
but personal preference and it's free country,
so you can do what you like.
Magnesium.
So magnesium has been shown to increase the depth of sleep
and has been shown to decrease the amount
time that it takes to access sleep, to fall asleep.
Comes in various forms.
I've talked a bunch of times about magnesium three in eight,
T-H-R-E-O-N-A-T-E, three-nate,
which seems to be the more bioavailable form of magnesium.
And magnesium three-nate, it seems,
is shuttled preferentially to the brain,
which is where you want it.
And there are certain transporters.
It actually engages the GABA pathway,
which tends to turn off certain areas of the forebrain,
allows you to fall asleep.
There is a study if you would like to explore it,
since people serious about supplementation
might wanna explore the study,
which is atis at all, A-T-E-S,
dose-dependent absorption profile
of different magnesium compounds.
Looks to me like a quality peer-reviewed paper.
I can put the link in the caption,
and it explores all the different forms of magnesium.
It does seem like magnesium glycinate,
can be similar to magnesium three and eight
in terms of which tissues it shuttled to.
Magnesium mallate, M-A-L-A-T-E,
is preferentially shuttled to the muscle, it appears,
as opposed to the brain.
So it's gonna be more of a muscle repair type thing
or restoring magnesium stores in the periphery
as opposed to the brain.
Magnesium citrate has another name
that I won't mention ingest
because magnesium citrate's main effect,
at least on me and the people I know,
seems to be a laxative effect,
as opposed to a cognitive effect.
There's also a,
There's also some evidence that magnesium three in eight
can be neuroprotective.
Those data come from quality labs,
mostly rodent studies, not human studies,
what's kind of interesting.
And again, the safety margins for these things
tend to be pretty high,
but anytime you're gonna take something new,
you should approach it with caution,
especially since magnesium could be involved
in heart rhythm and things of that sort.
The other supplement that has been very beneficial
for me is Thienine.
So this is T-H-E-A-N-I-N-E.
Thionine, T-N-E.
T-H-E-A-N-I-N-E.
Thionine activates certain GABA pathways,
which are involved in turning off,
top-down processing and thinking,
making it easier to fall asleep.
And theanine 100 milligrams to 300 milligrams
has a calming effect.
Thienine is now showing up in a number of different energy drinks
and even some coffees as a way to try and get people
to ingest more of a given type of coffee
because the idea is they would take away
the jitters and the anxiety,
allowing people to drink more coffee.
I'm talking about taking magnesium and theanine
30 to 60 minutes before bedtime,
not during the day to quell anxiety,
but rather 30 to 60 minutes before bedtime,
with or without food for me has made a difference.
And the combination of those two things has really helped.
Thienine for sleepwalkers can be a problem.
It does increase the intensity of your dreams,
it gives you very vivid dreams.
So for sleepwalkers or people that get night terror,
stay away from the anine is my advice.
Magnesium the anine might be something to explore
for those of you that don't have those issues
with the emphasis on might.
And then I've talked about a compound
and last time I talked about the mechanisms of Apogenin
which is a derivative of chamomile, API, GEN,
which acts as a little bit of a hypnotic
by activating chloride channels, hyperpolarized neurons,
increases GABA in the brain.
This makes you feel a little sleepy.
And camomile, for those of you that
read your, what was it, Peter Rabbit snuck into Mr. McGregor's garden, ate the chamomile, fell
sleep, Mr. McGregor came back. Okay, anyone flashing back to elementary school? Okay, there's
a story about chamomail having these kind of sedative like effects. Apogenin is highly concentrated
camomile also has anti-estrogenic effects. So if you want to keep your estrogen up, you might
want to be cautious about apigenin. That's where things like examine.com become really useful
because you can go to examine, you put in apigenin and they'll tell you all the things that
It does and all the things that does can sometimes include things
that you had no idea, like reducing conversion
of certain androgens to estrogens,
which you might like or you might wanna avoid.
That's up to you and where you want your estrogen levels
depending on who you are and what your life circumstances
and goals are.
A few other things that can help the transition to sleep
are things like 5HTP L-Tryptophan.
I've talked about why I'm not a fan of those for me.
They tend to throw me into deep sleep,
and then I wake up and I can't fall back asleep.
So I don't like to tinker with my serotonin system.
I don't like to tinker with my dopamine system
for entirely other reasons,
but none of which are particularly concerning.
It's just that I find that if I increase my dopamine
by taking L-tyrosine in pill form,
then I crash really hard the next day.
Or if I take 5HTP or L-tripophan,
I fall deeply asleep and then I wake up.
But I did mention that there might be ways
to make sleep more compact.
And so this is actually a request to you,
I had a really interesting experience when I was a postdoc.
I went for the first time to an acupuncturist.
I know they're varying thoughts and opinions out there
about acupuncture.
I can't say that I benefited so much from the acupuncture.
There are now quality peer reviewed studies
showing it published in neuron, cell press journal,
excellent journal, showing that acupuncture can stimulate
some anti-inflammatory compounds,
depending on where the acupuncture is done.
This is a really good studies came out
Last year, I talked about this on Instagram,
I may talk about it again,
as well as certain acupuncture sites
that increase inflammation.
So you can get different types of effects.
You can't just say acupuncture is great across the board.
And I'm assuming that the acupuncturists know
which sites are good for increasing inflammation,
which ones are good for decreasing inflammation.
However, this acupuncturist that I went to
gave me these red pills.
He said these are minerals for sleep.
And it was remarkable,
I took the red pill.
Is that the thing now?
Take the red pill.
I don't know what that means,
because I'm not tuned in.
But these red pills look like little M&Ms.
I took a couple of them on his suggestion.
And I fell deeply asleep in four hours later,
woke up feeling incredibly rested,
more rested than I had ever felt in my entire life.
And I never required more than four hours sleep.
Unfortunately, acupuncturists moved away.
I never figured out what was in those red pills.
Didn't get a chance to do the mass spectroscopy.
And I still wonder.
He said they were minerals.
So somebody out there knows,
what these red pills are and what this compound is.
And it was incredible and I would love to know what those are.
So if you know, please don't go taking red pills at random
to try and recreate this non-experiment experience of mine.
But please do contact me if you find out
or if you're an acupuncturist
and you know what these mysterious red pills were
because they were pretty awesome.
Once again, I've thrown a tremendous amount
of information at you.
I hope you will figure out your temperature minimum
and start working with that to access
the sleep and wakeful cycles that you want to access.
I hope that you'll explore NSDR.
You might wanna explore supplementation,
if that's your thing.
You have now access to a lot of mechanism
about sleep and wakefulness.
But in keeping with the theme of this podcast
where we stay on topic for an entire month
or even slightly more,
we are not done with sleep and wakefulness.
I know this is very different than the typical podcast format where one week it's how to become superhuman and the next week it's how to develop growth mindset and it's kind of all over the place with episode to episode.
We are staying on track because I really believe that as we drill deeper and deeper into these mechanisms and you start hearing some of the same themes again and again, you're going to start to develop an intuition and an understanding of how these systems work in you and your particular life circumstances.
is and my goal is really to eventually become obsolete.
It's what my graduate advisor used to call the hit by a bus principle.
She had a somewhat morbid sense of humor and used to be,
well, if I get hit by a bus tomorrow,
what are you going to do without me blabbing at you here?
So I don't want to get hit by a bus.
I plan on living a very long time if I have anything to say about it.
But were I to get hit by a bus tomorrow,
what would you do for your sleep and wakefulness, right?
You can put a comment on YouTube, which I hope you'll do.
but if I were hit by a bus and killed,
then I wouldn't be able to answer your question.
So know your temperature minimum.
Understand light in the early part of the day is valuable.
Light when you wanna be awake,
provided it's not so bright, it's damaging,
it's great for you whether or not it comes from screens
or sunlight, but sunlight's better.
Avoid light in the four to six hours
before your temperature minimum
or else you're gonna delay your clock
unless you're traveling and that's what you wanna do.
Okay, use temperature, increase temperature to shift your clock.
to delay your clock.
Okay, map out your temperature and understand it.
You don't have to know degree by degree across the day,
know your minimum, know your maximum temperature
and your 24 hour cycle and you will feel great power
through that because then you'll know also about
these ultradian cycles, these 90 minute cycles
within which you can do focused work.
Don't expect the focus to come early,
expect the focus to come in the middle
and then kind of taper off.
Talked a little bit about kids,
a little bit about elderly, about parenting.
We are going to continue.
There's going to be more.
But now shift workers, travelers,
people that are jetlacking themselves at home,
you now have levers in place.
Information can be powerful,
but you have to implement it in ways,
obviously safe ways and reasonable ways.
But implementing this knowledge
in the ways that you trust are safe and reasonable for you
is going to be the way that you can develop
a bit of a laboratory about yourself.
I loathe the term biohacking.
Sorry, biohackers.
I don't believe in hacking anything.
I believe in understanding mechanism,
and applying the principles of mechanism
for which there are large bodies of quality peer review data
and even a whole center of mass
around certain biological principles,
like the effects of light and temperature minimums,
that will allow you to shift your biology
in the ways that you want to go,
that will allow you to shift your psychology
in the ways you want to go.
Next podcast episode,
we are going to talk more about a few things.
First of all, we're gonna answer more of your questions
because during office hours,
I didn't get to all your questions.
from the previous episode.
So I do read the comments and we're paying attention
and figuring out the most common questions.
We are gonna get to some of the harder topics.
Someone came at me, it's always fun when somebody does this.
They say, well, these are just the kind of basal low level questions.
What about the big stuff?
What about dreaming and lucid dreaming and consciousness?
Look, I'll talk about that stuff.
And I'm planning to do that, some of which in the next episode
in the following episode, maybe even.
But I wanna give you data.
I wanna give you things that are supported by data.
So I will try to speculate as little as possible
because this is a podcast about science
and science-based tools for everyday life.
This is not about me speculating.
Many people have speculated about the role
of sleep dreaming and consciousness.
Fascinating topics and a rather circular argument, frankly.
It's been going on for centuries.
Someday we'll get there.
Right now we're concentrating on these deep biological mechanisms
that make you who you are
and allow you to feel certain ways, good or bad,
allow you to function physically in certain ways,
good or bad and give you more of a sense of control.
That's my goal here.
Many people have quite graciously asked
how they can help support the podcast.
First of all, thank you.
We appreciate the question.
You can support the podcast by subscribing
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We would hope the feedback would be positive, but nonetheless, leave us feedback, ask questions.
We will use those questions to create future content for the podcast.
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And check out our sponsors that we mentioned at the beginning.
That's a really great way to help support us and our ability to bring you this information.
Thanks so much for your time and attention.
I really appreciate it.
See you next time on the Huberman Lab podcast.
and as always, thanks for your interest in science.