Huberman Lab - Essentials: Benefits of Sauna & Deliberate Heat Exposure
Episode Date: March 12, 2026In this Huberman Lab Essentials episode, I discuss the mechanisms through which deliberate heat exposure enhances both physical and mental health. I outline specific protocols for deliberate heat exp...osure, including recommended temperature ranges, frequency, timing, duration and sauna alternatives. In addition, I explain how to tailor your heat protocols to support your specific goals, such as increasing growth hormone, reducing cortisol or supporting cognitive health. Read the show notes at hubermanlab.com. Thank you to our sponsors AG1: https://drinkag1.com/huberman LMNT: https://drinklmnt.com/huberman Eight Sleep: https://eightsleep.com/huberman Timestamps (00:00:00) Heat Exposure (00:00:47) Shell vs Core Temperature; Heat Caution & Hyperthermia (00:02:24) Body & Brain Circuit to Heat Up & Cool Down (00:05:31) Sponsor: AG1 (00:06:55) Deliberate Heat Exposure & Health Benefits; Tool: Sauna Temperature Range, Duration, Frequency (00:112:09) Sauna Types, Alternatives to Sauna (00:13:50) Sauna Mechanism; Reduced Cortisol; Tool: Hot/Cold Contrast (00:17:38) Sponsor: LMNT (00:19:10) Heat Shock Protein Activation & Sauna (00:20:50) DNA Repair, FOXO3 & Sauna, Cognition & Health Benefits (00:24:21) Sauna & Increase Growth Hormone (00:30:18) Sponsor: Eight Sleep (00:31:36) Sauna Timing, Sleep & Growth Hormone, Tools: Fasting; Hydration (00:34:56) Improve Mood, Endorphins & Sauna; Dynorphins (00:40:04) Recap Sauna Protocols: Benefits, Frequency, Duration & Timing Disclaimer & Disclosures Learn more about your ad choices. Visit megaphone.fm/adchoices
Transcript
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Welcome to Huberman Lab Essentials,
where we revisit past episodes
for the most potent and actionable science-based tools
for mental health, physical health, and performance.
I'm Andrew Huberman and I'm a professor of neurobiology
and ophthalmology at Stanford School of Medicine.
Today we are talking about the science of heat.
Heat is a remarkable stimulus,
meaning when we are in a hot environment,
it has a profound effect on our biology.
So we're going to talk about the science
heat and heating both in terms of their mechanisms
and as I know many of you are interested in,
the tools related to the use of heat.
Things like sauna, how often to do sauna,
how long to be in the sauna,
how hot to be in the sauna for particular goals and outcomes.
We heat up two ways.
We heat up from the outside,
meaning the things that we come into contact with,
the clothing that we put on our body,
whether or not there's heat in the room
or whether or not it's cold outside,
or cold in a room, and we heat up from the inside.
At every point across your entire lifespan,
you have two distinct temperatures.
One is the temperature on your skin,
what scientists call your shell,
and the temperature of your core, your viscera,
meaning your organs, your nervous system,
and your spinal cord.
It is vitally important to understand
that you have those two temperatures
and that your brain is constantly sending out
signals to your body as to whether or not
It should heat up or cool down
depending on the temperature of the shell.
So anytime we're talking about heat,
meaning deliberate heat exposure, things like sauna,
it's very important to understand
not just the stimulus how hot something is,
how long you're in a sauna, et cetera,
but the effect that has on your shell and on your core.
If you can understand that,
you can design protocols that are literally perfect
for your goals.
A brief warning now and another brief warning later,
any time you're talking
about heating up your body,
you need to be very cautious because unlike cooling down
where you have a fairly broad range of cold temperatures
that you can go into before it's damaging to tissue,
well, you don't get to heat up the brain and body very much
before you start getting into the realm of neuron damage.
And neurons in the central nervous system,
the brain and spinal cord, once they're damage,
they don't come back.
So hypothermia is a serious thing to avoid.
There's a very basic circuit,
meaning neurons that exist in the skin,
in the brain and in the body that communicate with one another
that allow you to heat up if you need to
and cool down if you need to.
Once you understand this circuit and the way it's structured,
then you are gonna be in a great position
to use the tools related to heating.
So here's how this circuit is structured.
You have this shell, which is basically skin,
and within the skin you have neurons, nerve cells.
Those nerve cells have channels or receptors on them.
They're called trip channels.
There are some other ones as well,
which basically sense,
changes in heat.
So if I were to put a hot object on your hand or your arm,
or for instance, if I were to put a hot object
on your hand or arm and then remove that hot object,
those neurons would respond to that.
They would send electrical signals into your spinal cord.
And that's where the next station of this circuit resides.
In your spinal cord, you've got a little cluster of neurons
that exists at the top part of your spinal cord
called the dorsal horn.
The name again doesn't matter.
And those neurons specifically relate
heat information up to another area of your brain.
Now here's where we get into some fancy names.
It's the lateral parabracial area.
You don't need to know lateral parabracial area,
but it's a relay station.
The lateral parabricial area sends electrical signals to the POA.
And I would like you to know POA.
The POA stands for pre-optic area.
Neurons in the pre-optic area basically reside over the roof of your mouth.
These are neurons within the hypothalamus.
and neurons in the pre-optic area have the ability
to send signals out to the rest of your brain and body
to get you to heat up and actually to change your behavior.
So there are all these different mechanisms
by which we dump heat.
Some of those are purely physiological,
below our conscious control, things like sweating,
which you can't just make yourself sweat on demand.
Maybe you can through a set of stressful thoughts,
but you can't just make yourself sweat.
That is autonomic.
It's below your conscious control.
Things like vasodilation, the dilation of your veins
in particular and capillaries in particular.
And of course, there are these behavioral,
somewhat voluntary aspects of dumping heat.
And the lethargy, the kind of tiredness
that we feel on a really hot day,
that's also controlled by this circuit that I just described.
The impulse to get yourself out of a very hot environment
is the consequence of the POA communication
with your amygdala.
And the amygdala then in turn activating
your adrenal glands, which sit right above your kidneys,
the release of adrenaline,
and this feeling of agitation like you want to move.
Usually you want to move out of whatever hot environment
you happen to be in.
So now you know the circuit.
Again, it's simple.
It goes from skin to spinal cord,
one brain area to another brain area
that's the key one in this discussion,
which is the POA, the pre-optic area.
If you can conceptualize that circuit
or if you can even just understand
what I just said, even at a top contour level,
you're going to be in a great position to understand
the rest of the information and the tools that follow.
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The use of deliberate heat exposure
can be a very powerful way
to improve health and longevity.
There's a wonderful study on this
that was published in 2018
that includes a lot of data
from a lot of participants
in a lot of different conditions.
For instance, people that only did sauna once
versus two to three times a week
versus four to seven times a week and so on
and compares all those.
The title of the study is sauna bathing
is associated with reduced cardiovascular mortality
and improves risk prediction in many
men and women, a prospective cohort study.
This is one of several papers that clearly demonstrate
that regular use of sauna or other forms
of deliberate heat exposure can reduce mortality
to cardiovascular events, but also to other events,
things like stroke and other things that basically can kill us.
What I like so much about this and the related studies
is that they involve a lot of participants.
So for instance, in this particular paper,
which was published in BMC Medicine,
they looked at a sample of 1,688 participants
who had a mean age of 63,
but there was a range of ages around 63,
and of whom 51.4% were women, the rest were men.
So it's a pretty nicely varied study
in terms of the populations that they looked at.
Basically what they found was the more often
that people do sauna, the better their health is
and the lower the likelihood they will die
from some sort of cardiovascular event.
Now,
What do we mean by sauna?
We need to define some of the parameters around sauna.
And I promise to provide you some alternative ways
to access some of the health benefits
that were observed in this and related studies
without the need to have a sauna.
Because I do realize that a lot of people don't have access to sauna.
First off, the temperature ranges that were used in this study
and pretty much all the studies that I'm going to talk about
unless I say otherwise are between 80 degrees Celsius,
meaning 176 degrees Fahrenheit,
and 100 degrees Celsius, meaning 212 degrees Fahrenheit.
So somewhere in that range.
How hot should you make the sauna or the environment
that you get into should you decide to use these tools?
Well, that will depend on your tolerance for heat,
how heat adapted you are.
Yes, some people are better at sweating than others.
And over time, we all get better at sweating.
Meaning if you go into the sauna more frequently,
you become a better sweater.
Not sweater you wear, but the verb sweater.
You get better at sweat.
sweating at dumping heat through the loss of water.
So it's going to depend.
I recommend starting on the lower end of the temperature scale.
And if that's too hot for you,
that you even lower the temperature further.
Now, how long were people exposing themselves
to these hot environments?
Anywhere from five to 20 minutes per session.
In this particular study,
they compared the effects of people that did sauna once a week,
two or three times per week,
or four to seven times per week.
What they observed was that people who went
of the sauna two or three times per week
were 27% less likely to die of a cardiovascular vent
than people that went into the sauna just once a week.
And today we're mainly going to talk about exposures
between 10 and 20 minutes at temperatures between,
again, 8 degrees and 100 degrees Celsius, 176 degrees Fahrenheit
or 212 degrees Fahrenheit.
And in fact, the benefits were even greater
for people that were going into the sauna
four to seven times per week.
Those people were 50% less likely to die
of a cardiovascular event compared to people
that went into the sauna just once a week.
What's particularly nice about this study
and the related study is that they looked
at a number of potentially confounding variables.
Things like whether or not people smoked,
things like whether or not people were overweight,
whether or not they tended to exercise or not exercise,
and they were able to separate out those variables.
So the percentages that I described earlier,
those effects really do seem to be the consequence
of the sauna exposure
and not some other effect that's correlated with son
like going to the gym where people are working out seven times a week
and then also happen to get into the sauna or quitting smoking right about the same
time they adopt a sauna protocol these sorts of things and now there have been
additional analyses of the use of sauna for improving health or I should say
for offsetting mortality that have found that it's not just reductions in
cardiovascular events but so-called all-cause mortality this is kind of medical
geek speak we're saying how likely are you or
somebody to die from a cardiovascular event,
but maybe also from some other event,
some other health related event,
like cancer or something of that sort.
And in every case, regular exposure to sauna,
starting at about two or three times per week,
all the way up to seven times per week,
greatly improves, meaning statistically significant improvements
in longevity in the sense that people are less likely
to die of cardiovascular events and other things that kill us.
You don't have to use a sauna in order to get these benefits.
It is simply a matter of making sure
that your shell and your core heat up properly.
Not too much, not too little, but you heat those up.
So the question is, how are you heating up your environment?
And I realize that there are dry saunas,
there are steam saunas, there are infrared saunas,
there are hot tubs, and there are simply rooms
that you crank up the heat, okay?
There are also ways in which you can increase
your shell and your core temperature
by moving around a lot and doing that,
wearing a lot of clothing.
There's nothing special about any one of these approaches or protocols.
It's just so happens that sauna is one of the more convenient ways
to do this.
And certainly for the studies that I've talked about,
not just the ones I referenced before,
but all the studies that I researched looking at this episode,
it makes sense why they would use sauna
because it's very hard, for instance,
to create conditions
where if you have five people go out jogging,
wearing heavy sweaters and hats,
wool hats on the middle of summer,
it's very hard to set up those conditions
in a way that's controlled for everybody.
Whereas it's pretty straightforward to have a sauna
where you have one or several people
just get into that one uniformly hot environment.
That's a much easier study to run.
You could, however, immerse yourself in a hot tub
or hot water bath up to your neck.
That's another way to approach it.
If you didn't have access to either of those,
you could also,
put on a hoodie or a wool hat and a hoodie
or you could do like the wrestlers do
and you could actually buy one of these plastic suits.
They're literally called plastics that wrestlers
or other athletes that wish to drop water weight will wear
and then go jogging that.
All of those will increase your shell
and your core body temperature, right?
Especially if you do it on a hot day,
but of course be careful, hydrate and don't overheat
and don't become excessively hyperthermic
because you can get heat stroke
and you can potentially die.
So what happens when you get into a hot environment?
What are the mechanisms that allow
for the various health effects of that?
So blood flow increases, plasma volume of your blood increases,
and stroke volume, the volume of blood that is mobilized
with each beat of your heart also increases
and your heart rate increases
to anywhere between 100 to 150 beats per minute.
That general constellation of effects
looks a lot like cardiovascular exercise.
And in fact, for all intents and purposes,
It really is cardiovascular exercise,
except that there isn't the mobilization
and the loading of joints and limbs and things of that sort.
And of course, there are additional benefits
of cardiovascular exercise that relate to impact on the ground,
improvements in bone density, et cetera, et cetera.
But basically your heart starts beating,
more blood starts circulating.
Your vascular changes shape, literally,
to accommodate those increases in heart rate
and blood volume.
And you're basically getting a cardiovascular workout,
in that hot environment, even if you're just sitting down.
Another set of positive effects related to being
in these hot environments are hormone effects,
shifts in the output of hormones, both from your adrenals
and possibly from the testes and ovaries
and even within the brain.
One of the more striking examples of that
comes from a study that was published in 2021.
The title of the study is endocrine effects
of repeated hot thermal stress and cold water
immersion in young adult men.
And indeed, the study was in this case just done on men.
I'll just briefly describe the protocol they used.
They had these men attend four sauna sessions of 12 minutes each.
So again, well within that range of five to 20 minutes, 12 minutes.
The temperature of those saunas was 90 to 91 degrees Celsius.
That's 194 degrees Fahrenheit.
And they did that four times.
Afterwards, they had a six minute cool down break
during which they did get into some cool,
or cold water of about 10 degrees,
which is 10 degrees Celsius is 50 degrees Fahrenheit.
And then they measured hormones at various times
throughout this study before, during, and after.
The major effect of this study is a significant decrease
in cortisol output in these subjects.
I think this is really interesting and important
because many people suffer from acute,
meaning immediate and long-term stress
and are looking for ways to control their stress.
Controlling your cortisol is tricky.
Many people,
are overworked, they're overstressed.
For one reason or another,
they're subjected to many too many stressors
or their level of stress resilience
isn't high enough to keep their cortisol levels
clamped at a healthy level.
So the protocol I described of 12 minute exposures
to 90 degree environment, that's again 90 degrees Celsius,
followed by a six minute cool down break
in cool water, 50 degrees or so.
That's pretty cold.
I can imagine that you could also just take
a cool shower or a cold shower
afterwards, that had a very significant effect
on lowering cortisol.
So there you have a tool,
it's not a completely zero cost tool
because you need to heat the water,
you need to have access to hot and cold water,
at least hot and cold contrast of some sort,
but it's fairly minimal cost for most people,
especially if you start getting creative about
maybe taking a 12 minute jog wearing a lot of clothing.
If it's hot out, then getting into a cool shower,
you might not get the same extreme
or significant reduction in cortisol
that was observed here with these very specific protocols.
but it's likely that you would get a similar result overall.
So if you're seeking to use sauna to reduce stress,
I think this is a very interesting and potentially useful research-backed protocol.
And again, we will provide a link to the paper if you'd like to read more about the data.
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One of the more dramatic and important effects
of going into a hot environment for some period of time
is the activation of so-called heat shock
proteins, H-SPs.
Heat shock proteins are a protective mechanism
in your brain and body to rescue proteins
that would otherwise misfold.
What do I mean by this?
Well, most of you are familiar with the fact
that if you have protein in the kitchen,
like a steak or a piece of chicken or a piece of fish,
and you heat it up, it changes its texture, right?
Raw meat is different than cooked meat.
Heat changes the quality of proteins,
not just in terms of how they taste,
but the way in which they,
they are configured.
Changes it right down at the molecular level.
When your body goes through changes in temperature
in response to hot environments or cold environments,
heat shock proteins are deployed to go and rescue
and prevent the changes in proteins
that would be detrimental to your health.
So at least in the short term,
activating heat shock proteins is a good thing.
You don't want heat shock proteins to be activated
for long periods of time because that gets to be problematic
for other reasons.
But these heat shock proteins, of which there are many varieties,
basically have the job of traveling in your brain and body
and making sure that cells that contain proteins
that are misfolding because they got heated up too much,
don't misfold.
And they also serve a protective mechanism,
making sure that proteins within the cells
of your brain and body don't fold in the wrong ways.
Again, I'm describing this in very general terms,
but it's well established in animal models and in humans
that sauna exposure of the sort that I described earlier,
activates these heat shock proteins.
There have been interesting studies done in humans
examining some of the downstream molecular pathways
of deliberate heat exposure
that point to the mechanisms by which deliberate heat exposure
can help protect against different forms of mortality,
improve health overall, and possibly,
and I wanna highlight possibly, possibly extend life.
One such mechanism involves a genetic program
involving a molecule called FOX-03.
Fox-O-3 is a very very,
very interesting molecule because it's involved
in DNA repair pathways.
DNA repair is part of the process of remaining healthy.
You know, we'd all like to think that we're born
and based on the genes we have,
we are healthy, healthy, healthy, then eventually we age
and then we die.
But from the time we're born until the time we die,
there's a constant repair of our proteins and our cells
and a modification of the genes that are being expressed.
You know, puberty being the most dramatic example, right?
You see a kid before puberty,
And after beauty, looks like a different kid,
sounds like a different kid, thinks like a different kid.
In fact, basically is a different human being.
It's not just the hormones, it's that hormones themselves
have the capacity to turn on and turn off certain genes,
literally converting certain tissues and cells
in the brain and body to do entirely different things.
And DNA, the stuff of genes, gets damaged in that process.
Fox O3 sits upstream in a pathway related to DNA repair
and again, clearing of these senescent cells.
Sona exposure, in particular sauna exposure,
two to three times or ideally four to seven times per week
in that 80 to 100 degree Celsius range
has been shown to upregulate levels of FOX-O-3.
Fox O3 in turn upregulates pathways related to DNA repair
and clearing out of these senescent or dead cells,
which is known to be important for various aspects
of maintaining cognition and other aspects of maintaining
maintaining health.
So these are the likely biological mechanisms
for the improvements in lifespan,
or rather I should say,
these are the biological mechanisms
that apparently offset some of the cardiovascular risk
and other forms of mortality that were described earlier.
One especially interesting thing about FOX-O-3,
there are individuals out there
that have either additional copies of FOX-O-3
or who have versions of Fox O3,
or who have versions of Fox O-3,
Fox O3 that are hyperactive, so to speak,
those people tend to be 2.7 times more likely
to live to 100 years of age or longer.
So these are people that were just naturally,
unfortunately for them, endowed with more Fox O3,
more clearance of senesin cells, more DNA repair, et cetera.
Deliberate heat exposure is one way
that you can increase FOXO3 activity.
There is no sauna protocol designed specifically
to reduce cortisol,
all or specifically to increase FOX-O-3 or specifically to activate heat shock proteins,
any deliberate heat exposure is likely to impact all of those mechanisms.
Again, I encourage you to use this guide of 80 to 100 degrees Celsius as your kind of bookends
for what you can tolerate and where you want to start and eventually transition to in terms
of deliberate heat exposure.
And I would encourage you to use that five to 20 minutes per session.
for the sauna as your rough guide
of how long to remain in the sauna.
Now I'd like to talk about the use of sauna
to increase growth hormone.
Growth hormone impacts metabolism
and growth of cells and tissues of the body.
It is responsible for tissue repair as well.
And the growth spurt that everyone experiences
during puberty is the consequence of growth hormone.
What I'm about to describe is a study
that found dramatic, really dramatic, I should say,
increases in growth hormone,
but I also want to emphasize that these increases
in growth hormone were not of the sort
that are observed in puberty or in infants
becoming adolescents or adolescents growing into teenagers.
Those levels of growth hormone
that are associated with those massive transformations,
excuse me, of body morphology of shape
are far greater than the sorts that I'm talking about here.
And yet as all of us age,
when we go from adolescents to teenage years
and then into young adulthood,
But then starting in our early 30s or so,
the amount of growth hormone that we secrete
is greatly diminished.
Normally we would release growth hormone every night
after we go to sleep, in particular
in the early part of the night
when our sleep is comprised mostly of slow wave sleep.
As we age, less growth hormone is released
during that slow wave sleep.
Certain forms of deliberate heat exposure
using sauna can stimulate very large increases
in growth hormone output,
which for people in their 30s, 40s,
and beyond,
could be very useful and may also be useful
for people who are just trying to stimulate
the release of more growth hormone in order to, for instance,
recover from exercise or stimulate fat loss
or muscle growth or repair of a particular injury.
The title of this paper is Endocrine Effects
of Repeated Sona Baving.
And this is a paper that was published in 1986,
which is some years ago, but nonetheless serves as a basis
for a lot of other studies that followed.
They used an 80 degree Celsius environment,
so that's 176 degrees Fahrenheit.
They had subjects do this son
for 30 minutes, four times per day.
So that's two hours total in one day.
30 minutes in the sauna, a period of cool down rest,
30 minutes in the sauna again, cool down rest,
a third and a fourth time, okay?
So two hours total in this 80 degree Celsius environment.
So that's a lot, but what they observed
was really quite significant.
And I should mention they had both male
and female subjects in this study.
And the entire study lasted a week.
They did this two hours of sauna exposure on day one,
day three and day seven of that week.
And they measured a lot of different hormones.
I'll just cut to the chase and tell you
the effects on growth hormone.
In subjects that did this two hour a day,
80 degree Celsius protocol,
experienced 16 fold increases in growth hormone.
So they measured growth hormone before the sauna
and after the sauna and growth hormone levels
went up 16 fold, which is obviously an enormous
and it turns out statistically significant effect.
One important caveat here.
Remember earlier when I talked about people
who did sauna once a week versus two to three times a week
versus four to seven times a week
and the more often people did sauna,
the less likely they were to die of cardiovascular events
or other things of that sort?
Well, in this case, the effects of sauna exposure
on growth hormone actually went down
the more often that people did this deliberate heat exposure.
So as I mentioned, they did this two hour a day
divided into 30 minute sessions,
protocol on day one, day three, and day seven of a week.
And what they found was on day one,
there was a 16-fold increase in growth hormone.
On day three, however, there was still a significant effect
on growth hormone as compared to before sauna,
but that effect was basically cut by two-thirds.
Okay, so now instead of getting a 16-fold increase,
it was more like a three or four-fold increase,
which is still a huge increase,
but not as great as the increase observed.
on day one.
And then on day seven, there tended to be a two,
maybe a threefold increase,
but not as great as the one observed on day one.
The fact that that result diminished over time
either means that the circuit was not as efficient
in communicating that shift in temperature
or that that shift in temperature was of less impact
because the downstream effectors were not engaged
to the same extent because it wasn't as much of a shock.
And I think the latter explanation is far more likely.
This is very much akin to a way
a weight training or cardiovascular exercise
where if you run up a hill very fast, for instance,
and your lungs are burning and you're heaving and breathing hard,
on the first day, that's a very painful thing.
But if you do it every day or every other day,
provide you allow yourself to recover,
pretty soon you're running up that hill
and you're not breathing as hard.
There isn't much burning in your muscles, et cetera, et cetera.
Your body adapts.
So if you're going to use deliberate heat exposure
in order to try and trigger massive increases
in growth hormone, you're going to need to be careful
about not doing it more than, let's say,
once a week. Now, I'm extrapolating from this study, maybe once every 10 days would be even better.
But if you start getting heat adapted, it's very unlikely that you're going to get these massive
increases in growth hormone. So I don't mean to be discouraging of using deliberate heat exposure
to access growth hormone increases. But if that's your specific goal or your main goal,
then I think it's reasonable to say that you don't want to do deliberate heat exposure,
at least not of the sort that I described here, more than once a week. Or maybe even once
every 10 days and that you would want to time that
to other events in your life, maybe hard workouts,
or if you're trying to push through a fat loss barrier,
or simply in order to access growth hormone
at peak levels, maybe three times per month
or four times per month.
If you start doing deliberate heat exposure more often,
you'll still get increases in growth hormone,
but they are not going to be nearly as large
as the increases in growth hormone
that you're going to experience
if you shock your system with deliberate heat exposure
every once in a while.
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exposure for that matter is going to be important. Why? Well, if you were to make the surface of your body
be cold, at least in the immediate period after that,
your body temperature will increase.
And that can make it hard for some people to fall asleep.
Now, if you're very, very tired
because you've been working hard or training hard
or both throughout the day,
might not throw off your sleep so much.
I've gone through bouts where I'm just so, so busy
from morning till night that the only time I can get
into the ice bath or the cold shower is late in the evening
and I have no trouble sleeping after that.
If you're going to use deliberate heat exposure,
you'd be wise to do it later in the day,
because when you get into a warm environment,
Sure, the surface of your body, the shell heats up,
the core of your body heats up,
but then it also activates cooling mechanisms
through the pre-optic area.
And when you get out of that hot environment,
sauna or otherwise, your body will continue to cool down.
And so many people find that if they do sauna
in the later half of the day or even just before sleep
and then take a warmish shower afterwards,
then they find it easier to fall asleep
and that makes sense because their body temperature is dropping.
is dropping.
And in fact, if your goal is to really promote
the maximum amount of growth hormone release,
that's also going to be the best time of day to do it,
especially if you haven't eaten in the two hours before sleep.
So if you're really going for growth hormone release,
you're really trying to optimize sleep
and the two things are actually linked
because of the release of growth hormone
that happens from the pituitary in the early night's sleep,
well then you would be wise to do your sauna maybe once
or maybe twice a week in the evening
or at night time than taking a warm or cool shower,
just briefly, just enough to kind of rinse off
all the sweat from the sauna and then get ready for sleep.
And to do that not necessarily fasted,
but to try and keep your levels of glucose and insulin
somewhat low in your bloodstream.
The reason I say that is that having elevated blood glucose
and or insulin tends to blunt or reduce growth hormone release.
And that's true for any number of different stimuli,
including exercise and including sauna.
If you really wanna crank out the most amount
of growth hormone,
response to sauna, do it fasted or at least not having ingested any food in the two or three
hours before. You don't have to be deep into a fast. I think for 90% of people, 90% of the time,
just getting into the sauna once or twice or three times a week is going to be beneficial for
the number of reasons that I described earlier. And you don't want to obsess too much about the
exact conditions you need in order to get the greatest effect out of that sauna treatment. Now,
regardless of what time of day you do sauna
or how frequently you do it,
you're going to want to hydrate after going in the sauna.
When you go in the sauna, you lose water.
And when you lose water, you need to replace it.
Why? Well, you need water for all your cells,
but you also need electrolytes.
So make sure that you're replacing the water
that you lose in the sauna.
Now, there's no exact formula of how much water to drink
and whether or not you need electrolytes in that water or not.
It's going to depend on how much you sweat,
meaning how heat adapted you are.
It's going to depend on how much salt you tend to,
Screet in your sweat, huge amount of variation.
But in general, one way to approach this
would be to make sure that you drink at least 16 ounces of water
for every 10 minutes that you happen to be in the sauna.
You could do that before and during and after,
you could do it during and after,
or you could do it after.
Now, there are other reasons to do deliberate heat exposure
that have improvements in mood and mental health.
In fact, the data related to sauna
and other forms of deliberate heat exposure
improving mood are very impressive,
both at the mechanistic level
and in terms of the long-term consequences
that people experience.
First of all, we need to ask,
how is it that deliberate heat exposure
can improve our mood and well-being?
Well, it turns out that it improves mood and well-being,
but it also improves our capacity to feel good
in response to things that would ordinarily make us feel somewhat good.
Now, this is not a situation where you're going to be walking
around grinning ear to ear,
in response to nothing at all simply because you went in a sauna.
What I'm talking about is the upregulation of pathways,
meaning chemical pathways in your brain and body,
that allow you to experience pleasure in all its fullness.
Many of you have probably heard of endorphins.
Endorphins are a category of molecules
that are made naturally in your brain and body
and that are released in response to different forms of stressors.
That's right, in response to stressors.
So if ever you've gone out on a long run
and at some point that run, you feel like
you're aching and your joints hurt,
or maybe you have shin splints and you push through that,
part of the reason that you experience a lack of pain
at some point, usually,
or you experience a euphoria during or after that exercise,
is the exercise induced effects on endorphin release.
Or rather, to be more specific,
I should say the exercise induced consequences
on the stress system, which in turn trigger the release of endorphine.
In other words, when we experience
short-term or acute stress,
the endorphin system is activated.
Now the endorphin system is not just about feeling good,
believe it or not, it's also about feeling bad.
And there are two general categories of endorphins.
The first are the ones that you normally hear about,
endorphins, things that bind for instance
to receptors like the mu-opioid receptor.
We make endorphins that naturally act as pain relievers
and that make us feel mildly euphoric.
We also make endorphins such as dinorphine, that's
D-Y-N-O-R-P-H-I-N-D-N-O-R-P-H-N-O-R-P-H-N-O-N-B-H-N-E-N-O-R-N-B-E-N-R-E-N-R-E-N-R-E-N-B-E-N-R-E-N-E-R-N-B-E-R-N-B-E-L-E-R-E-L-E-R-E-L-E-M-E-L-E-R-B-E. And I should mention, you get into an
uncomfortably hot situation,
uncomfortable,
oh gosh, this is sounding terrible,
and a deliberately hot environment
that you are using to try and trigger
some sort of biological or psychological benefit,
I should say, the discomfort that you feel,
the desire to get out of that environment
is in part the consequence of the release of dinorphine.
It's also the consequence of the activation
of that sympathetic nervous system.
Remember, the preoptic area can communicate
with the amygdala and trigger that kind of fighter
flight mode. I want to get out of the sauna. This is really, really hot. But dinorphin is also
liberated from a certain number of neurons. Dynorphin binds to what's called the Kappa
receptor. The Kappa receptor binds dinorphin and triggers pathways in the brain and body
that lead to agitation, to stress, and believe it or not, to a general sense of pain. This is why
you want to get out of the hot sauna. And remember, if it's unsafe levels of hot, then you
should get out of that sauna or other hot environment.
But if you're working in a range
or you're exposing yourself to a range of heat
that's uncomfortable but safe to be in,
dinorphine will be liberated from these neurons
bind to the caper receptor.
And as a downstream consequence of that,
there will be an increase in the receptors
that bind the other endorphins,
the endorphins that make you feel soothed,
that make you feel happy,
and that make you feel mild euphoria.
It's fair to say that every time we get into
a hot environment that's uncomfortable
or a cold environment that's uncomfortable,
dynorphine is likely released and binding to the capo receptor.
But over time, that binding of dynorphine to the capo receptor leads to downstream changes
in the way that the feel good endorphins, things like endorphine binding to the muopioid
receptor, and there are still other feel good endorphins, so to speak.
That system becomes much more efficient such that people feel an elevation in their
baseline level of mood.
And when a good or happy event comes along,
they feel a heightened level of happiness or joy or awe
or improved mood in response to that.
So what does it mean?
It means that a little bit of discomfort
as a consequence of deliberate heat exposure,
while in the short term doesn't feel good by definition,
it is activating pathways that are allowing the feel good molecules
and neural circuitries that exist in your brain and body
to increase their efficiency, placing you in a better position
to be joyful in response to the events of life.
We're starting to see a,
a general picture that using the sorts of sauna protocols
that I've described throughout this episode, right,
five to 20 minutes or so done one to seven times per week
is associated with a general improvement
in cardiovascular health, a general improvement
in mental health.
And it really points to the fact that, yes,
sauna done acutely for three or four times a day,
30 minutes each session, separated by a cooling,
maybe getting into cold bath,
Sure, that can potently increase growth hormone,
but done on a more regular basis can reduce cortisol,
improve heart health, improve mental health.
And for that reason, and the fact that for most people,
it is conceivable to come up with a way
that you could get into deliberate heat exposure
for a minimum of cost, right?
It's a hot bath or if you had to resort to bundling up
and going for a jog, this sort of thing,
or if you have access to it, a sauna of some sort,
that we're really talking about a stimulus,
to initiate a large number of different biological cascades
that wick out to improve multiple aspects of brain and body health.
Each protocol that I've talked about today,
whether or it's five minutes or 20 minutes
or four times in a day or three times per week
or seven times per week is tickling or pushing
or stomping, if you will, on a given pathway
and really activating it to a milder to severe degree.
What I've tried to do today is to illustrate
the general mechanisms by which heat in particular
can activate certain biological pathways
so that you can devise protocols that are going to be optimal
for you and your needs.
So just to briefly recap,
if you want to get the greatest growth hormone increases,
do sauna or other deliberate heat exposure fairly seldom.
Probably no more than once per week, maybe even less.
And do it a lot that day,
just make sure that you break it up into multiple sessions.
In the study I described really,
they did four sessions, 30 minutes each.
But that was just once a week.
If you're interested in the cardiovascular benefits
and the potential longevity benefits of sauna,
well then it's clear that doing it three to four,
maybe even seven times per week
is going to be more beneficial
than doing it just one or three times per week.
And again, that range of 80 to 100 degrees Celsius
is going to be your guide.
And in terms of the mental health benefits,
it seems that getting a little bit uncomfortable
in that heat environment, sauna or otherwise,
provided it safe, is going to be the best way
to access those mental health effects
by way of increasing
dynorphin, which as you recall, will then increase the ability of endorphin to have its positive
effects on mood after you get out of the sauna or other deliberate heat exposure. And in terms of timing,
after a workout of any kind, morning or afternoon, or if you're not doing it after a workout,
certainly in the later part of the day, it's going to be most beneficial as it relates to sleep.
But of course, there's a caveat there, which I will mention again, which is that for those of you
that have no trouble sleeping because you're exhausted or you're just want to
of these phenomenal sleepers,
well then do it any time of day or night.
But for most people, doing it later in the day
is going to be more beneficial
because of the post sauna cooling effect
and the relationship between cooling by a degree
or more as a way to enter sleep.
Thank you for joining me today for my discussion
about the science of heat and heating for health.
And last but certainly not least,
thank you for your interest in science.