Huberman Lab - Essentials: Supercharge Exercise Performance & Recovery with Cooling
Episode Date: March 20, 2025In this Huberman Lab Essentials episode, I discuss the critical role of temperature regulation in optimizing athletic and physical performance. I explain why overheating can hinder performance and en...durance and how techniques like palmar cooling can help extend physical effort by aiding temperature regulation. I also highlight how specific body areas, such as the palms and face, are key targets for regulating temperature, allowing heat to dissipate efficiently. Lastly, I discuss how temperature can support training recovery while cautioning that extreme cold, such as ice baths immediately after training, can block adaptations. Read the episode show notes at hubermanlab.com. Huberman Lab Essentials are short episodes focused on essential science and protocol takeaways from past full-length Huberman Lab episodes. Watch or listen to the full-length episode at hubermanlab.com. Thank you to our sponsors AG1: https://drinkag1.com/huberman Eight Sleep: https://eightsleep.com/huberman Function: https://functionhealth.com/huberman Timestamps 00:00:00 Huberman Lab Essentials; Physical Performance & Skills, Temperature 00:03:03 Sponsor: AG1 00:04:07 Temperature Homeostasis, Vasoconstriction & Vasodilation 00:06:42 Elevated Heat & Performance Barrier 00:08:26 Regulating Temperature, Glabrous Skin, “AVAs” 00:12:20 Sponsor: Eight Sleep 00:13:49 Strength Training & Heat Effects, Tool: Palmar Cooling 00:17:21 Endurance, Temperature & Willpower 00:20:54 Tool: Resistance Training, Running, Palmar Cooling & Water Temperature 00:24:23 Sponsor: Function 00:26:09 Ice Bath & Blocking Training Adaptations; Tool: Glabrous Skin & Recovery 00:29:31 NSAIDs (Tylenol) & Training 00:31:56 Recap & Key Takeaways Disclaimer & Disclosures Learn more about your ad choices. Visit megaphone.fm/adchoices
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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.
This podcast is separate from my teaching and research roles at Stanford.
It is, however, part of my desire and effort to bring you zero cost to consumer information about science and science-related tools to the general public.
We just closed out the episodes on hormones.
Now we are going to talk about how to optimize physical performance and skill learning.
There are so many variables to physical performance.
And we can manage physical performance and skill learning from a variety of contexts.
I made just a short list of some of the things that come to mind that can powerfully impact
physical performance and skill learning.
Some of them are what I would consider foundational.
They allow you to show up with your current ability.
and if you were to disrupt those,
you would perform less well.
So things like getting a good night's sleep,
things like being properly hydrated,
things like being well nourished.
There are supplements, there are drugs,
there are different ways to breathe,
there are so many tools related to mindset visualization.
It's just a vast space, but it's not infinite.
And there are a few things in the list of things
that can impact and even optimize physical performance,
and skill learning that have an outsized effect that any of you can use.
So today we are going to focus on what I believe to be one of the most powerful tools
to improve physical performance and skill learning and recovery.
We'll talk about why that's important.
And that's temperature.
Believe it or not, temperature is the most powerful variable for improving physical performance
and for recovery.
There are two aspects to temperature, of course.
There's heat and there's cold.
We are mainly going to focus on cold as a way to buffer heat.
We're going to talk about cold from the standpoint of thermal physiology.
This is a literature that's rich in scientific information that goes back very deep into the last
century where physiologists and neuroscientists figured out that there are different compartments
in your body that heat.
heat and cool you differently
and that you can leverage those
in order to double, even triple or quadruple your work output,
both strength, repetitions, and endurance.
So this is not weak sauces, they say.
This is the stuff that can really shift the needle quite a bit.
And it's not just about performing well once,
it's about being able to perform well
and recover from that performance
so that you do even better when you're not incorporating these tools.
On days where, for instance, you can't access,
cold or an ice pack or an ice bath or things of that sort.
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Let's start by talking about temperature.
How does temperature impact the body and its ability to perform, including learn new skills?
So everyone probably remembers or is at least heard of the word homeostasis, all right?
that the body wants to remain in a particular range of temperatures,
that it doesn't like to be too hot or too cold.
Heating up too much is just plain bad.
It's not just bad for physical performance,
it's bad for all tissue health.
Cells stop functioning, they stop being able to generate energy,
they stop being able to digest things,
you stop being able to think,
and eventually those cells start dying off entirely.
Now, you don't wanna become hypothermic either.
You can die from hypothermia,
just like you can die from hypothermia.
However, that you have a lot more range
to be cold than you do to be too warm.
And in general, the idea is to keep the body and brain
in a particular range,
but anytime we do anything, our body temperature can shift.
So for instance, if you were to stand next to a campfire
where you were outside on a hot day,
various things would happen to dump heat from your body.
Now, what are those things?
Well, there are a huge category of them.
But the simplest way to think about this process
is that when we get cold, we tend to vasoconstrict.
Our blood vessels tend to constrict
and we tend to push energy toward the core of our body
to preserve our core organs.
So our periphery, our hands and our feet and our toes
and our legs become colder.
And our core, therefore, can
maintain blood to that area and we are insulating our core.
Conversely, when we heat up, our blood vessels vasodilate.
They expand a bit and more blood flows to our periphery and more blood can move throughout
the body generally and we will perspire.
We will sweat.
Water will actually get pulled out of the blood to some extent, moved up through sweat glands
and will be brought to the skin surface so that it can be dumped.
We are dumping heat.
So it's very important that if you want to understand how you can leverage temperature for
physical performance, you have to understand that you have vasoconstriction to conserve heat,
vasodilation to dump heat, that you have sweating to dump heat and you have conservation
of fluids in order to preserve heat.
That's the most important thing in terms of understanding the mechanisms of maintaining
and dumping heat.
And now the most important thing to understand is that if you, you know, if you're not, you know,
you get too hot, your ability to contract your muscles stops.
Okay, I'm gonna repeat this because it's vitally important.
ATP is involved in the process of generating muscle contractions.
The range of temperatures within which ATP can function and muscles can contract is very narrow.
Somewhere around 39 or 40 degrees Celsius, it drops off and you will not be able to generate more contractions.
Now, that's pretty hot, but it can,
that temperature can be generated locally really fast.
Put simply, if you get too hot, you stop exercising.
You may not even realize it, but your will to exercise further,
your ability to push harder is entirely dependent
on the heat of the muscle, both locally and your whole system.
If you can keep temperature in range, however,
in a proper range, you will be able to do more work.
You will be able to create greater output.
You'll be able to lift more.
more weight, more sets, more reps, and you'll be able to run further.
Now there are data that I'm going to talk about in a little bit that are absolutely striking
that underscore that statement.
There are data from my colleague Craig Heller's lab in the Department of Biology at Stanford.
Many, if not all, the NFL teams are now using this technology as well as military uses it
and not just for sports performance but also firefighters, construction workers, other professions
where elevated heat becomes a barrier to performance.
And you can leverage this to really improve your workouts.
So how do you dump heat in order to perform longer safely?
Well, in order to understand that,
you have to understand that the body has three main compartments
for regulating temperature.
Okay, we don't just have a center and a periphery.
We have three main compartments.
And there's one compartment in particular
that all of you, or most all of you, I have to assume, have.
and if you can understand how that works,
you can do tremendous things for your performance
and for your recovery.
One is your core, we already talked about that,
your core organs, your heart, your lungs,
your pancreas, your liver, the core of your body.
The other is your periphery,
which are obviously your arms and your legs
and your feet and your hands.
But then there's a third component,
which is there are three locations on your body
that are far better,
at passing heat out of the body
and bringing cool into the body such that you can heat up
or cool your body everywhere very quickly.
Those three areas are your face,
the palms of your hands and the bottoms of your feet.
Now the skin on your hands and on the bottoms of your feet
and to some extent on your face are called glabrous skin.
That's G-L-A-B-O-R-U-U-S,
glabrous skin.
And what's special about those areas of your body
and the glabrous skin is that the arrangement of vascularure
of blood vessels, capillaries, and arteries
that serve those regions is very different
than it is elsewhere in your body.
In these three regions of your hands, your face,
and the bottoms of your feet,
we have what are called AVAs.
AVAs are a very special pattern of vases.
of vascular.
A-V-A's are arterio-venous astimosis.
A-R-T-R-I-O,
arterio-venous, V-E-N-O-U-S,
Arterio-V-A-N-A-A-N-A-A-S-T-O-M-O-S-E-E-S-E.
Okay, you want to know
about arterio-venous astimosis.
Trust me.
A-V-A's are direct connections
between the small artery,
and the small veins.
They bypass the capillaries to some extent.
They are little short vessel segments.
They have a big, large inner diameter,
and they have this very thick muscular wall.
And they get input from what are called adrenergic neurons.
They get input from neurons that release noropenephrine
and epinephrine, which allows them to contract or dilate.
Now there's some rules of physics
that talk about how the radius of a pipe,
And small changes in the radius of a pipe
leads to massive increases in the rate
and amount of stuff that can flow through that pipe.
Okay, that's a rule of physics that says essentially
that the radius is proportional to the amount
of stuff that can flow through something to the fourth power.
What you need to know,
even if you don't wanna know any of the underlying physics,
is that these AVAs allow more heat to leave the body
more quickly and more cool
to enter the body more quickly
than other venous arterial capillary beds throughout the body.
In other words, you can heat up best
at the face, the palms, and the bottoms of the feet,
and you can cool down best at the face,
the palms and the bottoms of the feet
than you can anywhere else on your body.
These three compartments of your body,
palms, bottoms of feet, and face
are your best leverage points
for manipulating temperature to
vastly improve physical performance.
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Now, one of the best ways to ensure a great night's sleep is to ensure that the temperature
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So what Craig and his colleagues did
really illustrates perfectly
what these body surfaces can do and why.
They were studying overheating in athletes
and in military and in construction workers
and trying to prevent it.
What they essentially found was that cooling the palms,
Palmer cooling, allowed people, athletes
and recreational athletes,
to run much further, to lift more weight,
and to do more sets and reps to a absolutely staggering degree.
Let's talk for a second a bit more about why we stop,
why we shut off effort when we get too hot.
When muscle heats up, enzymes start getting disrupted,
and ATP and muscles can't work so well
and those muscles can't contract.
The enzyme that's,
involved here is something called pyruvate kinase. And pyruvate kinase is essentially a rate
limiting step. It's a critical step that you can't bypass if you want muscles to contract
and it's very temperature sensitive. Therefore, if you can keep temperature lower, you can do more
work per unit time. You can do more pull-ups. What they essentially did is they brought someone
into their laboratory who could do 10 pull-ups on the first.
set and they were able to get 10 rest two or three minutes get another 10 rest two or three
minutes and if you've ever tried this what you find is that you start dropping to eight seven six
etc now the person might not necessarily feel like they're overheating but the muscle is heating up
then with their knowledge that these avas that these that these portals in the palms are a great
way to both heat the body but also to dump heat from the body they use
a device and I'll talk about what you can do at home,
but a device where they had people hold on
to what was essentially a cold tube.
Now this is crucial.
The tube can't be so cold that it causes vasoconstriction
because then the cold won't pass from the tube
to the hand and to the core.
But if it's the right temperature,
it's neither too hot nor too cold,
that cool from the cold tube passes into
the hand, these so-called polymer regions,
and then cools the core, and in theory,
by lowering body temperature, would allow the person
or the athlete to do more work.
And indeed, that's what they saw.
The actual data, the specific data showed
that subjects could do, at least the subjects they worked with,
on their first day with no cooling,
about 100 pull-ups across the time frame that they had.
Then they came back and did the
cooling. They did it the very next day, which if you've ever trained a muscle the very next day,
typically you wouldn't do as well in its training if it took any damage from the previous
sessions or you at least do as well, but you probably wouldn't do what they then observed,
which was they started cooling after every other set. The person would just hold the cold
tube, cool down the body after every other set, rest, everything else was kept the same,
and they found that they went to 180 pull-ups, which is incredible, it's a near doubling.
Now, you may be asking, what about endurance?
With endurance, similar increases have been shown.
And the way that they would do those tests
are a little bit different,
and they also point to a really important mechanism
of why we stop doing work at all
when we perceive that we are putting in too much effort.
So it gets right to the heart
of the relationship between temperature and muscle
and your willpower.
Those are directly related.
Your body heat and your work,
willpower are linked in a physiological way.
Okay, so let's talk about willpower and heat
and how heat shuts you down.
In other words, if you are cool,
if your body temperature is in a particular range,
not only can you go further, but you will go further
if you want to.
Said differently, if you heat up too much,
you will stop or you will die.
But there's a reflex that relates the body to the brain,
and the brain to the body that shuts off our effort
when we get too hot.
So what Craig and his colleagues and now others have done
is to do a test in the laboratory where rather than ask people
to run outside until they absolutely don't wanna run anymore,
you put them on a treadmill and you set the speed.
So they have to keep up with the treadmill
and at some point they quit.
And you take groups and you do those
in different temperature environments.
So some people are running in a nice chilly laboratory.
They get their heart rate up so they're getting
into a steady state cadence or rhythm
and their heart is beating it more or less a steady state.
People will continue at that temperature
and at that heart rate unless you start turning up
the temperature in the room.
And at some point they will stop
and they'll stop much earlier when it gets hot
because of something called cardiac drift.
Okay, so let's say I'm running
and I'm running at a steady cadence on this treadmill
and my heart rate is 85 beats per minute
or 100 beats per minute, doesn't matter.
Let's say 100 just for sake of example.
Well, just making the room hotter
is going to increase my heart rate further,
even though I'm at the same output.
And the brain does a computation.
It somehow figures out that there's a heat component
that's increasing heart rate
and there's an effort component from running
that's driving heart rate.
And if the heat component and the,
and the heart rate output from the effort
get to hit a certain threshold, I stop.
Increasing temperature increases the rate of quitting
in part, not entirely, but in part because of this thing
called cardiac drift.
Heat increases heart rate, effort increases heart rate.
At a steady effort, you'll have a steady heart rate.
If you increase the heat in the environment
that you're engaging in that steady heart rate,
your heart rate will now go up due to cardiac
and you will quit.
Okay.
So Heller and colleagues have done experiments
where they do palmer cooling under these environments.
And that's wonderful because not only does it enable people
to go further and faster for much longer,
that's been shown statistically significant every time,
but it also protects the brain and body
against hyperthermia overheating coma,
nerve injury, nerve death,
and actual.
death. Okay, so you can see why this is such a valuable tool. So how can you start to incorporate
this? Well, first of all, I always get asked how cold should the water be? Should it be ice
water? Should it be very cold water? The answer is no. If you want to experience some of this
effect without a device, one thing you could do would be for instance to do, I don't know,
I'll use the gym or the treadmill as an example. You could do your maximum number of pull-ups,
stop and then you could actually put your hands into or on the surface of a sink that is presumably
stopped up with cool water. So not ice water, not freezing cold, but cool water. Slightly cooler
than body temperature before you started training would be a good place to start. You do that
for 10 to 30 seconds, then you could go back and do your next set. You would repeat the cooling.
You would want to extend the amount of cooling somewhat,
so you might want to do that for 30 seconds to a minute.
This is not going to be perfect.
You're going to have to play with how cold to make it
in order to get the optimal effect.
But you ought to see an effect nonetheless.
The same is true if you're running and you're fatiging.
Obviously, you don't want to become hyperthermic.
Cooling the hands or the bottoms of your feet or the face
would be the ideal way to dump heat
in order to be able to generate more output.
Now, the face is something
that we haven't talked a lot about. Everything I've told you up until now also says that if you
are somebody who tends to get cold when you are outside, say in the winter or even in the fall,
you tend to run cold, warming your face is going to be the most important thing that you can do.
Now you understand the principle and the locations at which to deliver heat and cold. So let's say
that you are out for a run and you want to incorporate this cooling mechanism. I talked to Craig about
this. I said, what would be the kind of poor person's approach to this point? He said, well,
you could take a frozen juice can if you have one of those or a very cold can of soda and
you would want to pass it back and forth between your two hands. The reason the passing back
and forth is really important is because you, again, you don't want to be so cold that you
constrict those venous portals that will allow cold to go into the body. Now, there are certainly
people that are working on bike handles and that can actually cool the hands. Here's what you don't
want to do. You don't want to cool the core if you want to cool the body, right? If it's a very hot
day and you're going to train, getting into an ice bath first, sure, it will cool you down,
but that's not going to be as effective as cooling the palms, the bottoms of the feet and the face.
The one that I've tried, because in anticipation of this episode,
was the dips where then I would cool my hands.
I actually decided to cool the bottoms of my feet as well
because it just feels good and it's particularly hot out lately.
So no shoes or socks on, put my feet into the bottoms of my feet
just kind of hovering about a centimeter or two below the surface
of a bucket of water that was just slightly,
it felt cool, slightly cooler than body temperature or so.
It just basically what came out of the spigot
after I let it run for a little bit.
And indeed, I saw a 60% increase in the number of dips
I can do in a single session.
So it's actually a quite significant effect.
And you don't have to be perfectly precise in order to do it.
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So up until now, we've been talking about
how to use cold during a workout
in order to improve performance.
Now I wanna talk about the use of temperature,
in particular cold to improve the speed
and the depth of recovery.
Recovery is obviously vital, right?
During a weight training session or during an endurance session,
that's just the stimulus for getting better the next time.
And if you don't recover, you not only won't get better,
but you'll get worse.
There's a lot of interest in the use of cold in order to improve recovery in the short term.
We see this and probably the best example of this would be fighters in combat sports between
rounds or athletes during in between quarters or half time.
That's one form of recovery.
The ability to go back into the sport very soon on an order of minutes, anywhere from like one
minute in between rounds in typical combat sports or several minutes and a half.
halftime, et cetera.
And then of course there's recovery that occurs
from session to session.
So outside of the game or the match
or the exercise session.
And many people are now relying on things like cryotherapy,
which requires a lot of expensive equipment,
big liquid nitrogen driven machine.
Those aren't so common for most people
are accessible for most people.
But a lot of people are using cold baths
or ice baths or cold showers.
And again, that's not going
optimize recovery. In fact, it's going to have an additional effect that is going to potentially
block the training stimulus. When you get into an ice bath, you are indeed blocking some of
the inflammation that occurs because of the training session. But in doing so, you also are blocking
pathways such as mtore, mammalian targetarapamycin, which are involved in the adaptation for
a muscle to become stronger or bigger. Put simply, covering the body in cold,
or immersing the body in cold after training
can short circuit or prevent the hypertrophy
or muscle growth response.
It has other effects that can be positive, right?
It can induce thermogenesis, et cetera.
It can reduce inflammation,
but it can prevent some of the positive effects of exercise.
Now it hasn't been examined so much for endurance work,
but let's say you come back from around of endurance work,
a run or a bike or a swim,
getting into a cool bath,
or cooling the palms, the bottoms of the feet or the face, in my opinion, based on the science,
would be better than completely immersing the body in the ice bath. If you can cool the body
back to its resting temperature for a per, and by resting temperature, I mean within the range
that you would see at any time of waking day but not in exercise, if you can do that, the sooner
you can do that after a workout, the sooner that the muscle will recover, that the tendons will recover
and that the person you can get back into more endurance training,
more weight training, et cetera.
So cold actually can be a very powerful tool for recovery,
but to maximize return to baseline levels of temperature,
just simply cooling the entire body
by jumping into an ice bath or a cold shower
is not the best way to go.
You really want to rely on one of these three glabrous skin portals
of the palms, the bottoms of the feet or the face.
One of the more commonly used compounds
that's sold over the counter are non-average,
non-steroid anti-inflammatories,
so things like Advil and other trade names
and the proxin sodium, things of that sort.
Almost all of those drop body temperature
to some extent.
And that's why it's often recommended
that people take them when they have a fever.
Now, a number of athletes, especially endurance athletes,
will rely on these non-steroid anti-inflammatory drugs,
specifically to keep body temperature lower
during long ballots of exertion.
This is a little bit of a pharmacologic
version of dumping heat instead of using Palmer cooling
or face ice pack cooling, they're relying on pharmacology
to drop their core body temperature.
That has certain obvious advantages.
Lower temperature allows you to go further harder
with more intensity.
However, they do have effects on the liver
and they can also have effects on the kidneys
and during long ballots of exercise or even short ballots of exercise,
water balance and salt balance are also going to be
vital to maintain in order to perform well,
generate the best muscle contraction,
stay mentally alert and also to stay alive.
You probably want to think carefully
about whether or not you want to use
non-steroid anti-inflammatories before any training session
just for the performance augmentation effect.
Unless you're working carefully with a coach,
I personally am more a fan of cooling of the palms,
cooling of the bottoms of my feet, right,
by placing them into a bucket
or into a cool bath after training
or cooling the face after training
or sometimes even during training.
It just seems like there's more of a margin
to play with the variables to heat up the water,
cool it down a little bit to include one palm or the other palm.
There's just all sorts of good parameter space,
as we call it in science that you can play with
and work with to find what works for you.
Whereas when you pop a pill, sure, you can adjust the dose
and you can adjust it next time,
But once it's in you, it's in you,
and there's gonna be some period of time
before you can modulate it.
So it doesn't give you a lot of opportunity
to play scientist, which is what I like to do
because what I've always trying to do
is trying to dial in the best protocols possible
based on the mechanisms and data.
And if you can do that moment to moment,
that places you in a position of power.
Once again, we've covered a lot of material.
By now, after seeing this episode
or listening to this episode,
you should understand a lot
about how your body heats and cools itself
and the value,
of that for physical performance.
I hope you'll also appreciate that you have tools at your disposal to vastly improve
your physical performance.
I've given you specific protocols and some direction, but I've also left it slightly vague
because, as I mentioned earlier, I don't know all the environmental conditions.
I don't know how hot your yoga studio is or how cool your gym happens to be or your body temperature
or time of day.
Remember, your temperature will vary according to time of day.
Going forward, we're going to talk more about temperature.
and other ways to improve physical performance
and skill learning.
We're going to talk about specific ways
to accelerate fat loss, to improve muscle growth,
to improve suppleness and flexibility.
These approaches and mechanisms are anchored deeply
in neuroscience and physiology in the relationship
between our peripheral organs, which include our skin,
and our brain and all the organs in between.
And last but not least, I wanna thank you
for your time and attention.
I realize this is a lot of information.
I hope you'll find some of it to be actionable
and useful for you and for people that you know.
And as always, thank you for your interest in science.