THE ED MYLETT SHOW - Elite Brain Training - w/ Dr. Andrew Huberman
Episode Date: August 11, 2020Program Your Mind to Win! If you’ve ever wanted to increase your CONFIDENCE, experience more HAPPINESS, and fall in love with PROGRESS, this interview is exactly what you need! I teach... A LOT about developing habits and rituals that serve you, sustaining momentum, stacking small wins, and expressing gratitude. My goal is to FIRE YOU UP and keep you on track through the day, month, and year but these things I teach are NOT just theories I randomly came up with! They are BACKED BY SCIENCE and when implemented, will have a HUGE impact on the quality of your life. That’s why I am SO enthusiastic about my next guest, Dr. Andrew Huberman! Dr. Huberman is an American neuroscientist and tenured professor in the Department of Neurobiology at the Stanford University School of Medicine. As a well-respected and influential thought leader, he has made numerous contributions to the fields of brain development, and he is here NOW on The Ed Mylett Show breaking down the BRAIN SCIENCE behind the #MAXOUT movement! Motivational messages are great for a quick spurt of energy but it’s SCIENCE and your ability to understand and optimize how your brain works that bring ultimate lasting change without the guesswork! Does our brain really have a choice in how we perceive the world around us or are we pre-conditioned to think, feel, and behave a certain way? Is there a way to actually train your brain to follow through with the commitments you make to yourself? Is it possible to train your brain to prevent burn out and execute with URGENCY and FOCUS? Dr. Huberman is answering ALL of these questions and so much more! We dive deep into how to establish a growth mindset and BLAST THROUGH LIMITATIONS your brain has told you before were not possible. You’ll learn PRACTICAL and EASY tips you can implement RIGHT NOW to increase your mental AND physical health, and reduce stress and anxiety. Are you ready to tap into the powers of your brain? Happiness does not need to be delayed. And I’m not just talking theory... I’m talking SCIENCE!
Transcript
Discussion (0)
This is the Edmmerlidge Show.
Welcome back to Max Out Everybody.
My guest today is Dr. Andrew Huberman.
And he's a neuroscientist, his lab is at Stanford.
Today's going to be one of the more interesting shows for me
that we've ever done before because I'm fascinated with this man's work. And he's
unique because although he's a brilliant person, he's a neuroscientist. He speaks
in terms that people like me can understand. And so he's got a very unique
ability to understand information and articulate it in a very understandable
and digestible fashion. His lab, and Andrew even correct me if I say this wrong,
but his lab mainly studies two things,
which is really vision, literally vision,
the workings of the retina,
and then secondly, really different states of mind.
And is that about accurate, Andrew, would you say?
That's exactly accurate.
Okay, good.
And so today we're going to stay on the ladder.
We're going to talk today predominantly about states of mind,
growth states, peak performance states.
And so I'm really honored to welcome Dr. Andrew Huberman
to the show today, welcome to Max Albroth.
Thanks so great to be here.
It's an honor and a privilege to be here.
So looking forward to our discussion.
I am as well.
And we could go so many different places and we will.
If you're in your car listening to this around the treadmill, it's one of these you're going to
listen to twice or go over to YouTube and watch it or vice versa because there's going to be so
many nuggets in here. Let's start out the concept of, first off, what's a neuroscientist do and
what do they study just for the edification of our audience? Sure. What's a great question,
you know, that the term neuroscientist only really emerged
in the last 10 years or so. When I started my training, which was about 25 years ago, I'm 44 now,
so I got into this pretty young. There were fields like neurochemistry and there was psychology.
There was even a degree at some universities called psychobiology, which was really the merge
of psychology and biology. But fortunately,
I rid of that name because that was really off-putting. You know, a neuroscientist is somebody
that's interested in understanding the workings of the nervous system. And the nervous system
is the brain, so all the neural tissue encased in the skull, although there are two little pieces
of the brain that are outside the skull that we'll talk about as well.
The spinal cord, which is the other part of the central nervous system, and then we call the peripheral nervous system.
So all the connections between the brain and spinal cord with the organs of the body and from the organs of the body back again.
So a neuroscientist wants to understand how the nervous system works, what it does. And that really encompasses everything.
So memory, experience, perception,
states of mind, like fear or stress or sleep or awe.
Every organ in your body is governed by the nervous system.
Your digestion is controlled by the nervous system.
Your heartbeat is controlled by the nervous system.
Your immune system is controlled by the nervous system.
So a neuroscientist is sort of a catch-all
for somebody that's interested in understanding
how nerve cells, neurons, and some of the other cells
in the nervous system, how those work together
to control all the functions of the brain and body.
And I'm a research neuroscientist, so I'm not a physician,
I'm not a clinician.
There are some clinicians and MDs in our field. So what I always say physician, I'm not a clinician. There are some clinicians
and MDs in our field. So what I always say is, I'm not a medical doctor, I don't prescribe
anything. I'm a research professor, I profess lots of things. And my daily life consists
of taking the nervous systems mainly of mice because that's a traditional research model
where we can do really invasive things like lesion brain areas, activate brain areas, bit will and humans. My lab works on mice and humans to
try and understand what are the physical structures in the brain, what brain areas, which cells,
which molecules, how do they connect, how does that lead to behavior in states of mind, etc.
And we also want to understand how that actually impacts
like what everyday people would think of as depression
or happiness or motivation or drive.
And so my life is typical for a neuroscientist
in the sense that we do experiments on humans and mice.
It's unusual for a neuroscientist in the sense
that my lab does work on a lot of things.
And I also, we can talk about this,
we don't just do experiments in my lab.
Right now, for instance, we have a study going on
with 125 human subjects.
They're out in the world wearing devices
where we're monitoring their brain and body
24 hours a day.
We're monitoring their body position 24 hours a day.
And we are collecting data, neural data on them.
So we do experiments in the lab and outside the lab. It's a long answer,
but you know, the neuroscientists upstairs from me, he studies gut brain interactions.
One, two doors down for me, studies neural plasticity, two doors down from that.
There's a woman studying navigation systems in the brain, kind of GPS systems in the brain.
So you walk around my department or another neuroscience department, any other major
Place in the country or out around the world and people are just really obsessed with trying to figure out how this nervous system
Thing works from a different kind of narrower perspective. So you're leading down the road
I wanted to go which I knew this would flow like this. So take this nervous system and it's processing feelings, thoughts, sensations, meanings, these
other things. And I'm sort of well known for saying listen it's not the events of your life that
matter it's the meaning you attach to those events. Yet one of the things that the nervous system
is sort of done is it's we've all sort of agreed to some consensus of what things are. So we've agreed to what certain
colors are. We've agreed to certain words mean language. There's a general societal
belief about certain things. So if that's true, but I've also heard you say your thoughts
are a choice. So if it's this involuntary process that's happening where we've all sort
of agreed to this and we're almost pre-programmed through a series of evolution to believe certain things.
How is it also that we choose our thoughts?
Great question.
It's the question that neuroscientists think about.
And just as a bit of a disclaimer, there's going to be a little bit abstract, but I promise
to get concrete and I'll do my best to be as succinct as possible.
So, synchness is not the quality that's typically
associated with academics.
What I will promise, however, is I'll try and use
as few acronyms as possible.
And I'll only name things if I think it's gonna be important
for people to go look up more as opposed to just
reigning terminology down on people
because that's not useful.
So, you're absolutely right. The nervous system is responsible for sensation, perception, feelings, thoughts,
actions, and memories. All of that. Let's talk about what's non-negotiable.
What's non-negotiable are the sensations. I have receptors in my eye, you have
receptors in your eye, we have receptors in our skin and our tongue
in our ears, et cetera, that take physical events
in the universe of which there are many
and can only sense some of those.
So for instance, I'm not a pitviper.
I can't see in the infrared, a pitviper can.
I can see in the infrared if I snap on infrared goggles, but if I don't do that, my eye can't see in the infrared a pipviper can. I can see in the infrared if I snap on infrared goggles,
but if I don't do that, my eye can't sense those.
So I can't sense magnetic fields.
There are people that claim that they can sense magnetic fields.
If they can, it's an unusual quality.
It hasn't been shown very robustly in the lab.
Turtles, on the other hand,
navigate extremely long distances by virtue
of magnetic fields.
They are magnetosensing organisms. So the things that we can pull out of the universe and into our nervous system
to work with, those are fixed entities. Now a colorblind person, one in 80 males, is red-green colorblind.
They can't see red as the way you and I can. My dog is red green colored wine. So there are some unusual cases,
but in the absence of any technology,
the sensations that we can detect are fixed,
they are non-negotiable as much as gravity is non-negotiable.
We have to develop technologies to overcome them
if we want to see into the infrared
or see ultraviolet light, et cetera.
Okay, now perceptions, feelings, thoughts,
those are where it gets negotiable.
Because for instance, I can decide that the color of your shirt has meaning to me, like we're both
wearing a black shirt and therefore we must have met in a previous lifetime and pretty soon I'd
start to sound like a crazy person. Because the definition of psychosis or crazy is assigning meaning to something
for which there's none, right? So we have to agree as groups or groups of individuals and
society, what sorts of meanings matter? And that's where it gets very subjective. You know, we have,
we place value on the fact that somebody who commits a crime before the age 18 versus after 18, we
call them an adult. But developmental trajectories are from birth to death, and there isn't some
cliff that, you know, biological events as an adult. So we could go really deep down this
rabbit hole or not, and I'm, but what we know is that sensations are non-negotiable. What we know
is that societies and the way that we function as families and couples
and in the workplace, they obey certain principles or rules of engagement that on average are
adaptive for a given culture. So we meet, we say hello, we agree on these cultural things that because on
average, they're adaptive. Whereas if we met and we decide first we were going to fight, first of all we both know you're going to
win that, we're going to physically fight. And second of all it's just not
adaptive for the evolution of cultures, most cultures. There are circumstances
where that's appropriate. So what's important for us to understand is that the
human brain is very, very good at all
these things.
Sensation perception, feeling thought and action.
It's also very good at two other things.
One is interoception, paying attention to what's going on inside me and extra reception,
paying attention to what's going on in the outside world, and balancing the weight of one
or the other in order to move adaptively through life.
Now, and I'll just throw this out as one more kind of conceptual thing, but as I promised,
I would make it more concrete as opposed to abstract. When we say it's adaptive, what we mean is
that this neural machinery in our heads, literally, I've opened up a lot of skulls, I've held a
lot of brains in my life, I teach neuroanatomy to medical students. Now for 10 years, I promise you, it's just meat in there, meat and some fluid.
And so the neurons of the brain take sensations. And the only thing neurons can do, the only
language they can speak is to be electrically active at certain times and in certain sequences,
like the keys on a piano. And it's this amazing thing like it's still
inspires wondering me when I think about it that you do this, I do this and we agree on some common
rules of engagement that are adaptive and it's what led us out of caves, hunter gatherer cultures,
technologies, the car, the plane, the the iPhone, it's amazing.
And we are, I think the important thing to remember
is that we are still in our evolution as a species.
We are still trying to work out whether or not
10 hours a day with the smartphone is good or bad for us.
We're still trying to figure out
whether or not traveling to other planets
is good or bad for us.
What should we do about this COVID thing?
We are still trying to work this out. And. What should we do about this COVID thing? We're still trying
to work this out. And the language that we do to work that out is neural language. Yes.
And so I apologize if I made things more abstract than before, but you didn't. We just have
to agree on some rules of a game, just like if we're going to play chess, we need to set
up some constraints. And so those are the constraints in broad terms. How do those so good?
So no, it's perfect because I want to move it into like
where we are in culture and also performance,
just what you just said.
And so I know what I teach,
but I don't know that I always know why it works the way it does.
So these, this nervous system, I'd like you to speak to,
maybe it makes no impact.
I have an assumption that it does.
Previous experience in life
and does the importance of something in one's life
change one's sensory acuity to it.
So what I mean by that is
there's this great debate right now
about racial and social issues.
And so I've wondered,
I've wondered if someone has not had an experience
with something that they literally perceived
century-wise less of it.
And if they've got a history of some sort of a situation with a racial issue or sexual
abuse or something like that, that they see or feel more of it because it's important
to them, it perhaps that's why there are certain things in society we can't come to a consensus
on because importance in previous experience may change the way in
which we gather this information. And on the other flip side of that, is that also then true to
program yourself to win? That when something is important enough to you, you begin to see,
feel, and hear things that will lead you towards those particular goals that you wouldn't see if it wasn't important in terms of your sensory acuity or your nervous system
picking up on it, or are they not correlated in any way? Can you speak to both of those?
Sure. Again, a great set of questions. So, a moment ago, I mentioned that we have this
interoception, which is really just paying attention what's going on internally.
Like, I could stop now and think about how my stomach feels or my breathing or really go internal
or I can be externally focused.
That's what the nervous system is doing.
The nervous system has some very basic jobs.
It learns things, we're born into this world, and the organization of the nervous system
when we come into this world is not a completely black slate.
It's designed to learn, it's a learning machine.
The brain is amazing,
because it's the only organ that wires up itself,
which is incredible.
So it's a self-learning, self-building machine.
And for the early part of life,
the goal of the brain is twofold.
One is to maintain all the housekeeping
stuff, keep the heart reading, keep digestion going, keep breathing going, at a minimum
to keep the organism alive, to keep us alive. And then it wants to learn things that are
specific to its environment and learn the rules of the sensations, objects fall down, not up.
Right?
Mom walks in the room, she leaves the room, she comes back on average, or doesn't, or on, you know,
learning these rules, contingencies, and then passing those off to reflexive parts of the nervous system.
So just like a baby never has to think about taking a breath or governing its heartbeat with conscious thought.
The nervous system wants to learn things and then push that to reflexive action.
It's a lot of work to do what's called serial processing.
Yes.
Not serial like yeet, but like serial as in series.
I know you know this, but just for those, you know, maybe second language, English
second language or something.
So, serial processing is hard for the nervous system.
It's about thinking if A, then B, then B, then C. Oh wait, was it C? Yes, A, B, then C. It's work. And it requires areas
of the brain that are very metabolically costly to engage. It's why thinking hard kind of hurts.
There's some strain associated with it. So the more we experience something, the more
our reactions to it are going to become reflexive. For better or for worse, if it's a bad event, the nervous system, or it creates a
sensation that's uncomfortable, the nervous system will create an association whereby we naturally
start to avoid that thing, whether or not it's good for us or bad for us. If it's something that we
like, we get rewarded and we want with a chemical, typically dopamine
or serotonin, and we want to move toward that thing again.
And that illustrates the other key feature of the nervous system that I think will help
simplify some of this kind of overwhelming number of things that the brain can do and
how it can do it, which is we have in our brain a few chemical systems that are called
neuromodulators.
They're not responsible for the communication
between neurons.
What they do is they modulate or change the likelihood
that certain brain circuits will engage
in other ones won't.
And they fall into very specific categories.
The most famous of these is the neuromodulator dopamine.
Dopamine is released anytime we experience something
we really, really like, but under very specific conditions, anytime we are moving towards something
and we think we're on the right path, dopamine is released. And this is nature's way of telling whatever
neurons are active during that movement down that path. So this could be exercise, it could be
a relationship breakthrough, it could be a be exercise, it could be a relationship
breakthrough, it could be a business breakthrough, it could be learning some little piece of a puzzle
that you're excited to learn. You've been straining on. It tells you more of that, more of those
neural symphonies or neurons being active in the way they just were. Whatever you were doing,
just there, more of that. So it sends you down this path. And dopamine is very misunderstood. People
think dopamine is about getting the reward.
Dopamine is about sending you to pour the reward.
Think of it like a jet propulsion system.
Whoa.
Right, it's not just the finish line.
It's a jet propulsion system.
And every animal needed that.
And I know that's,
I'm gonna give it back to you.
I just gotta say something.
I think it's one of the most significant things
ever said on the show, honestly,
and it explains my own life experience
or my relationships.
I want you to hear what he just said, everybody,
that you're getting more dopamine on average
in the pursuit of your dream and your goal
than you actually do with the attainment of it.
And that maybe there's a little key here
to dopamine sort of a happiness drug, right?
If you wanna call it, could it not possibly be true
that one of the keys of happiness in life
is the pursuit of something great, the pursuit of growth
and that that's the key, that you don't have to achieve
everything in order to give yourself the gift of happiness.
I didn't interrupt you, just that's so freaking significant because I think a lot of people sort of
cheat themselves from just the pursuit because they think, well,
I'll only be happy when I get there.
I'm not qualified.
I haven't read enough.
I don't know enough people.
I don't have enough context.
And they're they stand still and they're not happy.
And what they're missing is the science that tells us, actually, if you just begin to pursue this
and show some progress towards it,
that you're going to get that happiness you're seeking
and you think you will only get when you get there, correct?
Absolutely, absolutely.
And I'm so glad you bring this up
because there are some concepts from psychology
that we can start to weave into this.
I can give examples from evolutionary biology. An animal that's thirsty goes out looking for water
and when it finds that first drop of clean water, dopamine is released, but maybe that's not the
big lake that it needs, but that's going to tell it. It's on the right path and dopamine naturally
causes neuroplasticity of whatever brain circuits were active previously.
So it says, hey, whatever I did to get to this point, this milestone, not the finish line,
that is something that I might want to repeat reflexively in the future.
I might not want to have to work so hard to do that.
Now, the cool thing about dopamine, many cool things about dopamine, and then it has a dark
side.
And we should talk about the dark side because even if, and I'm not, and of course, the dark side can be associated with drugs
of abuse, like cocaine and things. But actually, there's a, there's a more, even more sinister
dark side that I think a lot of people fall into this trap. So the great things about dopamine
is it rewards us and it gives us energy. And when I say energy, I don't mean glycogen,
I don't mean glucose, I mean neural energy.
And the reason is effort of all kinds,
whether or not you're writing with a pen,
whether or not you're racing uphill with a weight vest,
or whether or not you're slogging it out
through any discomfort is generally associated
with the neuromodulator, a adrenaline,
also called epinephrine.
Okay, so adrenaline in the body is called adrenaline in the body.
It's released from the adrenals.
And then epinephrine in the brain is released from a couple places,
but there's one particular place for the ephysianados.
It's called the locus serulias.
It's in the brainstem.
It wakes us up.
It gives us a sense of urgency.
And it's about effort.
And it doesn't care if you're doing something out of love or out of hate out of revenge
It does not care. These are neurochemicals and they don't care about you or your life experience
But they are in your brain and they are the engines, okay?
now the cool thing is
It gets you going and it's the effort molecule, but the problem is
too much epinephrine or adrenaline, eventually triggers literally
a quitting circuit. There was a study published in 2019 which showed that for every bout of
effort a bit of adrenaline or epinephrine is released. And once that was accumulated enough
times, it's like spending money on an account,
a set of cells in the brain, they're called glial cells,
activate, and they turn off voluntary control.
This is the reason why if you're running,
you eventually might just say, that's it, I give up.
It's the despair moment, and it's a chemical moment.
Now what we could go deep into that,
but the important thing for now to understand is that dopamine allows the brain and the body to tolerate higher levels of epinephrine and to
continue in effort as well as pushing down that level of epinephrine. You've experienced this before
and if you've been working really, really hard and it's just or something's just terrible and you
feel like you can't continue and someone cracks a joke. Instantaneously, you have more levity, more energy. That couldn't have been liver,
glycogen, or anything kind of in the body. That was neural energy. That was dopamine. Likewise,
if you suddenly have the moment where you think you're out of breakthrough, not a false
we created belief like, oh, I'm performing well when I'm not performing well, but you
have a breakthrough. Like, oh my goodness, I, I'm performing well when I'm not performing well, but you have a breakthrough like oh my goodness
I think I'm on to something you feel that more energy and that's dopamine in action and the beauty of dopamine is it's very
subjective
There are chemicals that will release dopamine in the body, but
It is very subjective and so I always like to give the example
You know people always say a journey of a thousand miles starts with a single step
How do you eat the elephant one bite at a time?
But what's missing in those kind of those common phrases is that the key is to reward each bite
Subjectively or let's say you're full so to speak metaphorically speaking
You can't put it put it in more effort if you
Subjectively reward and you say,
I'm on the right path, effort is the path. And you start to tap into these systems, you
develop what my colleague at Stanford, Carol Dweck coined growth mindset, which is not
just the belief that you can be better, but growth mindset at its core is about driving dopamine release from the effort and strain process.
It's about enjoying friction.
And this is what people like you, what David Goggins is the famous and shining example of this.
And there are others as well, of course.
So dopamine is your best friend in mitigating or making sure that the effort process is not self-limiting.
And you have to regularly dose your behaviors and your thoughts with this dopamine association.
And people get very hung up on this. So like, wait, how do I know if I'm doing it right? Well,
it's a skill you have to learn in your mind because thoughts are spontaneous. They like pop up on a poorly filtered internet.
But thoughts can also be deliberate. I can decide to tell myself, look, I'm straining, but I'm
going to reward this. I'm going to tell myself I'm on the right path. And the brain and the body
don't know the difference. And this is not lying to yourself. This is not saying, oh, you know,
I'm really back on my heels. I'm performing poorly.
It's not telling yourself if you're performing well.
It's telling yourself that performing itself, the verb effort, the verb of performing
is what you want to reward.
Not the noun.
I got to jump in again.
I got to jump in again.
Gigantic.
Because one of the things that I teach the athletes I work with are the business people,
and I love understanding why even more. One of the things that I've noticed is people that
continue to make an effort are intentional about acknowledging that effort to themselves.
And you call it giving self-credit or celebrating. So this is really critical, guys,
you've heard me say this before, Andrew's telling you why it works. The bottom line is,
is that as you're making these effort deposits, it's being intentional
and aware that you're doing it.
Giving yourself credit for a real thing you're doing gives you this dopamine reward and
you continue to move forward.
I want to go like 11 hours with you, bro.
But I think I always want to pull out, like unpack, house this application to the performance
piece. And again, you athletes that are out there listening to this, that are doing this application to the performance piece.
And again, you athletes that are out there listening to this, that are doing this one more
that I teach.
When you do the one more, it's reminding yourself, I just did one more.
Maybe you didn't lift more weight today.
Maybe you didn't run faster.
Maybe you missed 35 plus, but that effort deposited in that intentional acknowledgement
of the effort reward is so critical
in confidence and happiness and progress as he's told you. Can I unpack another piece and ask
a question about that? Please, no, and I love your synthesis of it because, yes, please.
Okay. So you said something earlier, but I don't want to move past because you hear people talk
all the time about habits and rituals and, you know, and every, that's like this vogue thing to talk about, right?
But you said something earlier, but I want you to, if you would just explain again,
one of the things I've learned from your work is this concept that you said earlier,
but I, it was in the middle of so many gems, is that the brain would like to preserve energy
and I'll use it, say it my, and move to default reflexive mode.
So as many things as it can process
and just default to reflexive mode,
rather than effort mode with critical thinking
and adjustment, it will do.
So your brain is constantly trying to find ways
and situations and circumstances you're in
to default to what you do reflexively.
Okay, so would that not mean that Andrew,
that those things you do reflexively. Okay, so would that not mean then Andrew, that those things you do reflectively
called habits and rituals better serve you
or you'll default continuously
to the reflexive mode of drinking or laziness
or the video game or Instagram.
That's a reflective default mode.
Some people for stress, they encounter stress,
the brain reflects to a default reflexive mode
of whatever they do to cope with that stress. True?
Absolutely. You know, I think I'm not alone in
the noticing that occasionally I pick up my phone and I log into an app and I didn't make the conscious decision to do it.
I just do it reflexively.
I might even go into a sub window within that app. And the reason is that the brain and the nervous system are constantly seeking
rewards and novelty. And if we're not deliberate about how we're doing that, we will do it entirely
reflexively. And that's not necessarily a bad thing. I enjoy social media, I teach
neuroscience on Instagram, I enjoy doing that, and I enjoy the feedback most of it.
You know, I'm here.
Right.
So, but I think the brain and nervous system wants to make things reflective and habits
are very powerful because they are, they set us on trajectories.
Now some people, they are uncomfortable with the fact that effort is the first gate that you
have to go through in order to build this pathway that involves neuropinepherin or adrenaline
and epinephrine.
And I sometimes people would jump on me about using neuropinepherin and epinephrine interchangeably.
I know they're not the same thing, but today we're just going to broadly describe the
systems in the brain and body, not get too down in the weeds.
But the idea is you've got effort, you can associate that with adrenaline up and effron.
You've got dopamine, which is your internal reward system.
And it can be externally rewarded.
So this is very important.
There are intrinsic rewards and extrinsic rewards.
There's a beautiful study that was done at Bing Nursery School at Stanford.
I had nothing to do with this study in the mid-70s where they took kids that liked to draw and they then rewarded some of those kids,
which is just a little star, like kids like the shiny star makes them special for drawing.
Then they took away the star next day or the next day and the kids that liked drawing just for
the intrinsic pleasure of it, they drew less.
So, these reward systems can attach to external things or internal things.
I have a good buddy.
He's friends and co-founders of this company made for that you talked to Blake Micosky
about.
His name is Pat Gosses, he's a former Navy SEAL.
And he and I were giving a talk once to a bunch of people. And we were talking about reward processes in the brain and how SEALs do it and what neuroscience thinks,
and someone asked us a really good question, they said,
how do I continue to tap into this dopamine system?
And our answer was, be very careful with extrinsic rewards.
Make sure that your dopamine system is attached more to the effort process than it ever is to any
external reward. And it's because of a very important principle of dopamine rewards. It's what
neuroscientists call dopamine reward prediction error. It is the reward prediction error is the
reason why people that work, work, work, work, work in pursuit of a goal and then reach that goal
become miserable and don't know what to do with
themselves. Reward prediction error says you always need the dopamine at the final stage to exceed
all the the little bits of dopamine you got and root to that reward or you will actually be
disappointed. You'll experience a sort of postpartum depression of sorts. So the key is learn to attach reward to the effort process.
You know, I'm not David Goggan's psychologist and but I do know David and he's come out to my
lab before we've had some conversations. I don't know what his process is except as he's described it.
But I have the sense based on what I know about neuroscience and knowing a little bit about history and having read his book that he's learned to attach some sort of internal reward mechanism to the pursuit and friction
process. It's not about feeling good about some external milestone. It's about learning how to tap
into this this engine that we have. And I actually do believe that in knowing some people
from the special operations community,
that this is actually one of the things
that they are selected for is not just grit or resilience.
It's actually this ability to reward oneself internally
in their mind as a way to buffer the effort process.
It gives them more gas, more of an engine.
And it's not just special operations, people that make it through cancer treatment, people
that raise a special needs child or make it through a tough stage of, you know, economics
in their life.
Many people are probably in that situation right now.
It's about learning how to take that strain, the feeling that you're being something, or
some force or some life force is trying to push you back on your heels and learning how to use self-reward not
delusional thinking but self-reward as a means to get more energy to continue
to plough forward. It's a real thing. Well so good. By the way, it's interesting
you say that when I interviewed David, we've become real good friends, we've
done a lot of things together, since then, he says something I interviewed him
that's along those lines and it surprised me. I sort of stared at him for a
minute. We're talking the endurance races that he gets.
And he goes, and I don't care if I went, and I just stared at him. He goes, I'm more concerned
with the fact that I'm making the effort and that I finish. And I thought, wow, that's exactly
along the lines. One of the, it was actually the thing that stood out to me when we were having
that conversation. And if you just sit in a nutshell.
Yeah, that's the real growth mindset.
You know, a lot of people, a hashtag growth mindset is one of the most popular hashtags
in social media, but most people don't actually know what it means.
And again, this is Carol Dweck's discovery, not mine.
It was discovered in a group of kids that were doing math problems or other kinds of puzzles
that they knew they couldn't get right, but they enjoyed doing them and they performed exceedingly
well on lots of sorts of tests of that sort when there is the right answer, of course.
And so what they do is they somehow they're wired for effort.
They're wired for the puzzle, not for the solution.
And when I say puzzle, I don't mean the noun puzzle.
I mean, the verb for being puzzled,
it for them feels good.
And so we need to think, if we're talking about
the nervous system and we wanna make it actionable
for high performance, whether or not it's in business
or sport or otherwise, we wanna think in terms of processes,
not events and verbs, not nouns.
So growth mindset as a verb, as an action item, you know, reward as a
verb, not just as, oh, you're going to just pat yourself on the back. Like, it's no, it's what you
internalize. It's a process. That's how the neural circuits that underlie reward get stronger.
And the beauty of the brain is that you have this thing of neuroplasticity, which is its ability to change itself throughout the whole lifespan.
And the more you practice this, the better you get at it.
And it does not mean you're walking around talking delusional about how great life is when everything is terrible.
It means you might even be very stoic.
You might be, hopefully, you're very rational, but you have the energy to continue to push forward.
hopefully you're very rational, but you have the energy to continue to push forward. Whereas other people are going to be dropping out because everybody shows up gritty and
resilient and they watch their inspirational, aspirational story.
One of the big motivations for me being here today and in general of my lab is to try
and make these concepts from psychology and personal development and high achievement
to make them what we call operational.
Meaning give them definitions that people can grab onto and apply and not just have to watch,
you know, 50, you know, everyone loves the rocking movie. I mean, it's super, it makes you feel really
good. It makes you feel like anything's possible, but you don't always have access to that.
By the way, it's amazing that you just said that because I was just flexing, guy brother, I love
when energy's prevalent even on zoom.
While you were talking, I was thinking about David and I talking again.
We're both as kids, these crazy Rocky fans.
We both watch Rocky one and two literally thousands of times.
And what we both struck by in the movie is exactly what you're describing.
It wasn't Rocky winning.
It's this time where Apollo Creed knocks him down.
He puts his arms up and he thinks he's won the fight.
I get emotional even saying it.
And it's a movie and slides a buddy of mine.
And I know he's an actor, you know?
And he turned back and Apollo Creed looks at Rocky
and he starts to get back up again
and creeds just like what?
And the inspirational aspect of that,
Rocky wasn't winning, was the effort deposit,
was the pursuit, right? And so,
the guys, if you've ever heard about this before, like this is scientific proof that you've
got to be giving yourself the reward for the effort deposit. Now, one of these things about
neuroplasticity that I want to talk about about changing, like I think there's a lot of people
listening to this brother go, look man, I just not had any winning streaks. You know, I've not learned to win.
One of the reasons that what Andrew saying is so important
is I think we're conditioned as young people
that the dopamine only comes when we hit the home run,
when we bring home the A.
That's when mom and dad are proud of us.
That's when we got the dopamine hit.
And there was not a lot in the raising of children.
And those of you that have children
should be thinking through this.
If what Andrew's saying is true, how critical it is that you begin to show rewards for
effort with your children rather than just the recital rather than just the performance.
I think of Tiger Woods, the greatest winner in the history of golf.
What does he usually say?
I'm just trusting the process.
Even when he was going through swing changes, he got the hit from the process.
He doesn't even talk about winning even though he's been the greatest changes. He got the hit from the process. He doesn't even talk about winning,
even though he's been the greatest winner.
What does he always say?
I want to put myself in a position on Sunday
on the back nine where I've got a shot.
That's what he says.
So if you're looking for this.
He's a great example.
Sorry, I didn't mean to interrupt.
Oh, no, go ahead, please.
You know, Tiger was at Stanford, right?
I think you're interested in a, please.
You said, because I grew up in this area,
I used to go watch him, watch him drive. And I'm
not a golf player, but I was super impressive. What's interesting? And I think this, we could
validate this. I don't want to put out things that aren't true. But what I heard was that,
you know, there was discussion about him collecting an honorary degree and he actually declined
it. I heard this. You know, and that's really interesting. It speaks exactly to what you're saying.
So the reward process, again, I know I said this earlier,
but the reward process is critical.
We need to reward our efforts,
but we need to make sure that our internal rewards,
the ones that are milestones and put us on our path,
the ones that are associated with effort,
are greater than the external rewards
that we ever give ourselves.
This isn't, this could be about going out and buying yourself,
you know, I bought myself, the truck I always wanted when I got 10 year, you know, I did.
But, but really, we have to be careful with external rewards because if you want to continue
to perform well, you have to foster this internal reward mechanism.
That's what's going to allow you to continue to perform well.
And so, no external reward.
That may now have become my favorite thing we've said on the show, too.
Because this external thing, the reward,
is an element of the social media world that I do think has some danger to it.
I just want to stay on one point.
I know I interrupt you again. I'm sorry.
Because we're on Zoom, guys, so we...
There's a tendency to do this a little bit more.
But the question comes up.
Can I learn to win?
And I've looked for evidence that somebody, a being,
can actually be reprogrammed to win.
And I think I kind of found it in something you talked about,
which was, would you mind sharing with them
the story of the two mice in the tube?
And how one of the, I'll just let you tell it,
but if you ever, if you're listening to
going, can I ever learn to win?
Can I change my current way I am?
Because the neuroplasticity is a fact.
It's a complicated word, but for just for the sake of your belief, everybody, this story
I think will give you some hope.
Ironically, I'm using the story in a different way than you've told it before, but I think
you know where I'm going.
Tell them about these two mice in the tube and how one was changed by just winning once.
So there's a classic experiment in behavioral biology called the tube test where you take two mice, you put them in a tube, and they try and push each other out.
They fight for that tube.
And one mouse inevitably pushes out the other mouse. The one that stays in the
tube is the winner. The one that got pushed out is called the loser. What's interesting
is that if you take those sing mice and give them new competitors, the one that won has
a much higher than chance probability of being a winner, the subsequent battle. It's called
a battle. The loser has a much higher probability of losing.
Now that's the first experiment,
and you go, okay, well winners become winners,
losers become losers,
but it's actually far more interesting than that.
Because if you take the loser
and you put them against even a known winner
and you push the loser from behind,
the loser becomes the winner
and the winner becomes the loser.
And even if the effort that the loser that became the winner
Exerted wasn't their own right you've got a human pushing with a stick on this little mouse
so
The important thing is the third experiment which only arrived a few years ago
This is an experiment that was published in the journal science
Science and nature are our super bowl and NBA championships of science. Very 99%
rejection rates, very stringent, thoroughly peer reviewed, not just any publications. A laboratory
not mine, unfortunately, did the experiment where they monitored the brains of these mice
while they were doing engaging in this tube test battle. And they found that there was one brain area, it's a subregion of the prefrontal cortex,
not the whole prefrontal cortex, that's more active in the winter and less active in the
loser.
So much so that if you chemically or electrically activate this brain area in the loser,
that loser becomes the winner.
If you quiet this brain area in the winner or an animal that's about to win, it suddenly becomes the winner. If you quiet this brain area in the winner,
or an animal that's about to win,
it suddenly becomes the loser.
So you say, what in the world
is this brain area doing to the body
and to the psychology of these mice?
Now, we don't know the psychology of the mice,
but they did do some important controls.
And it's not testosterone.
Although there's a testosterone increase
associated with winning, it is not testosterone
in the moment.
It's not cortisol. It's not any of the other normal things that you might think to look to. It's not muscle strength.
It turns out that
stimulation of this brain area that causes winning is associated with increased anxiety,
effort and adrenaline, and
anxiety, effort and adrenaline, and all it does is it converts that anxiety into more steps forward per unit time. Literally just steps forward. So if you take
this brain area and you quiet it for a given level of stress, the animal backs up
a little bit more or pauses a little bit more. If you stimulate this brain area
for the same amount of stress, the animal advances a little bit more as opposed to pauses or backs up. And
the thing that's really key to take away from this for everyone's individual lives and
goals is that if you really think about it, you always have only three options. You can
either be stationary, you can back up, you can retreat, or you can
go forward. And you want to do it, you want to move forward in an adaptive way. You don't
want to walk off a cliff or do something stupid financially or physically, but anxiety and
stress and what we call autonomic arousal were designed to move us. They create a sense
of agitation and discomfort for a reason, but it wasn't just designed to move us. They create a sense of agitation and discomfort for a reason.
But it wasn't just designed to move us to run and hide. It was also designed to move us
forward. And a lot of people take the agitation, the fear, the anxiety about starting something new,
and they try and work with that and push down on it. There's just so much in our culture that's about trying to get homeostasis,
the word that I really despise,
that homeostasis and trying to get back to this place of calm
or flow so that they can move forward
and what they don't appreciate,
what people haven't been told
because the science is very new,
is that all forms of adaptive behavior
in the animal kingdom and in humans,
whether or not it's with the mind or the body or both involve a fairly high level of stress and anxiety that was designed
to move us forward.
And it doesn't have to be just competition and battle.
This could be writing your book.
This could be finding and the mate that you that you want to find a life mate.
It could be any number of different things that you're gonna pursue.
There's always anxiety associated with that.
And trying to bypass that could actually represent
the failure of our species.
I actually worry that if humans keep seeking
for these comfort zones at the outset of effort,
we could actually devolve as opposed to evolve.
And if we, I't want to get geopolitical
But if we look at countries right now that are hard charging toward higher status in the world like China
they are they embody this in their
Like in their social psychology
The United States and I'm a patriot so I'm gonna just speak from the heart here, was founded on the idea that
we do this as a culture, as individuals, and it's not about being ruthless or being unethical,
it's about taking the notion that it's not supposed to feel good at the beginning, folks.
It doesn't feel good for any animal, it's not supposed to feel good for you and me.
And I will balance this with something about restoration and recovery of this process,
but it's so vital.
And I think it's why the movie Rocky,
why Cancer Survivors, why the Rosa Parks story,
why David Goggins, why these stories of folks,
such a deep sense of inspiration in us,
is because it's as tapping into something
as vital and primitive, primitively important,
as thirst for hunger
or the desire to mate.
It's at the core of how we got to where we are,
and it's at the core of how we're gonna move forward.
And they're up for, give me for getting a little soap boxy,
but I do believe in this,
that these are fundamentals of biology,
and we need to respect them if we're gonna evolve.
The validation's unbelievable.
No, I've always thought, you know,
you watch an athlete do something heroic, and it brings you to tears almost and I've always felt like
there's this part of us intuitively that seeks it and also that knows we have the capacity to
likewise in our own way and we seek that. What a beautiful sense. Is that part of the brain
that thalmas are a myon a completely different path than the brain? No, so the prefrontal cortex is
just a kind of frontal real estate. We have a lot more of it than mice do.
It's the area the brain that actually causes humans a lot of neurotic discomfort
because it's so good at thinking and multitracking.
Just a little fun tidbit.
We can multitrack.
We can multitask.
Anyone says that you can't multitask has never picked up a neuroscience textbook.
There's something called covert attention.
We can split our attention between two things very easily.
I can look at you, for instance,
and I can monitor the periphery of the room
at the same time if I want to do.
I can also bring my full attention
to just our conversation, which is what I'm doing.
So we can split our attention.
We can multitask.
What we need to do is when we want to get better
at something, we need to bring our full attention to that thing.
And we need to start to engage to this internal reward process.
I just want to briefly say about internal versus external rewards.
The car you've always wanted, the watch you've always wanted, the piece of jewelry you've
always wanted, the reward is still internal.
You don't take that watch and cram it in your ear and dopamine gets released.
The dopamine release is always internal.
The key is to learn how to attach some internal process
of thinking and self-reward to the release of dopamine.
And the brain wants to do that.
It wants to learn how to do that.
But as long as we're backing away from anxiety, stress,
and trying to get super calm
at the front end of the, the, you know, the pursuit, then there's no way you can get
there. You're in a pause mode or treat mode. You are the losing mouse. You want to be the
winning mouse. You want to take more steps forward per unit time. That's all it is.
So good. All right. I got to go through some random things I get to ask you about in my
audience gets to listen. Okay. So not rapid fire, but like I. All right, I got to go through some random things I get to ask you about and my audience gets to listen, okay?
So not rapid fire, but like I got a few things I want to ask about their efficiency.
Do they work?
Can we improve when we use these things?
What do you think of acetylcholine?
Acetylcholine is the neuromodulator associated with attention.
It is a vital to the neuroplasticity process.
Neuroplasticity is just being the brain changing adaptively.
We typically, we mean adaptively in response to experience brain injuries, neuroplasticity too,
but I think adaptive plasticity. A cedocalling is released from multiple places in the brain,
and there's a little place in the base of the brain called nucleus basalis, which means base,
that releases the cedocalling when we are paying a lot of attention to something
and we subjectively tell ourselves it's super important.
Like, I need to do this in order to eat tomorrow or I need to do this for whatever reason,
whatever meaning you attach to it.
That Cedocolean marks those neurons for getting stronger later so that they reflexively engage.
You could, in theory, increase levels of acetylcholine
in your brain and get more neural plasticity.
There's a very famous Nobel Prize winning neuroscientists
who choose Nicaret specifically for this purpose
because Nicaret stimulates the nicotinic acetylcholine receptors.
I don't recommend smoking, some people smoke to accomplish this.
It's a double-edged sword, though,
because you want to increase in Cedocalling primarily
through thoughts and behaviors, and bringing focus,
and I can explain how to do that.
You actually want to bring more visual focus
if you're cited, or auditory focus,
if you're non-sited, blind individual,
but you want to bring more visual focus to what you're doing,
which will bring more Cedocoline to the particular synapses that bring connections that you want to change.
And that doesn't require ingesting anything.
Now if you ramp up the levels of acetylcholine in the system using a supplement like alpha
GC or a choline donor or some sort, there's some breakdown in the gut, but there are increases in
acetylcholine and activation of these nicotinic receptors that can enhance the
plasticity process. That's a real thing. And you know, the neutropic space is
kind of an emerging space about smart drugs and things like that. I think
learning to, I always say start with behaviors and thoughts because those are
in your power. That's where the real power is.
Then nutrition, there are ways to increase the cedocolene, typically
meat and nuts in particular can increase the cedocolene. It doesn't mean you need three
revised because then you'll just pass out from fatigue, too much blood in your gut. But
then supplementation can be a positive force in this. Then if there's a clinical need or if it's in your,
I'm not a doctor, so you know, drugs, right?
There are prescription drugs that can do this and people do that for treatment of
clinical disorders and Alzheimer's in particular to bring more focus and memory.
So acetacol is really the molecule of focus and you want to have focus
when you are trying to engage plasticity or learn anything you need alertness.
And you need focus.
You need urgency and focus together.
And if you're too stressed, you won't be able to focus.
You need to bring that urgency level up, but then you just dial it in.
And if you want to get better at focusing, do what the experts do.
Put a little crosshatch on a piece of paper across the room and gradually extend the amount
of time that you can focus your visual attention on it.
And as you get up to higher and higher levels, you can bring that same level of visual focus to any kind of other thing that you're doing.
That's how I'm like spans visual focus. I thought you were going to say, I thought you meant, so I thought you meant visualization of something specific that you want. Visualization tends to be very hard to keep in mind for some people.
Some people are very good at visualization. There's a guy in the 80s named Roger Shepherd,
also at Stanford, sounds like I'm shamelessly playing. We have a lot of good people. What can I say?
My colleagues are amazing. I'm always humbled by them. Who did studies of mental visualization?
And some people are very good at mental visualization other people really struggle to stay focused in the visualization so
Start with the visual system
There are only two pieces of your brain outside your skull and those are your eyes
These are literally two pieces of central nervous system and if you don't believe me come to my neuro anatomy class
I'll show you they are connected to the brain they guide the
The alertness of the brain or the sleepiness of the brain.
There's a reason why your eyes flutter and close when you're getting sleepy, folks,
is because open eyes is alertness.
It tends to, you know, and visual focus brings cognitive focus.
And look at any sports event and look at the eyes of like Michael Jordan in this recent
documentary on Netflix.
He's just totally dialed in visually, right? Now he can
expand his gaze when he needs to to pass the ball, but visual focused drives cognitive
focus. So good. Okay. So staying on that topic, you're going down my list here. Blue and yellow
light, would you talk about that a minute when you're talking about, you know, getting
eyes closed and getting to sleep, the impacts, I mean, this is awesome right here, everybody.
The real impact of blue and yellow light and its origins too.
Yeah, so let's start with the don'ts. So here's why you don't want to view lights of
any color, blue or otherwise, that are too bright between the hours of 11 p.m. and 4 a.m.
The reason is there's a study published by my good friend,
Samar Hatara, who's head of the Chrono Biology Unit
at the National Institute of Mental Health.
So he's a heavy hitter.
He found that blue light and bright lights of all kinds
in the middle of the night, if you look at them too often,
there's this neuron in your eye that signals
to a brain area called the Havenula,
HAB, EN, ULA, that literally suppresses the amount of dopamine in the brain and gives
depressive-like symptoms and impairments in learning and memory for about two days that
follow.
Now, if you look at some light once in a while in the middle of the night, you go to the
bathroom, nobody will deal.
But if you're up in the middle of the night and looking at lights of any color, not just
blue light, and those lights are bright enough, you're going to suppress your dopamine
levels and it can lead to bad places. So on average, try not to do that. If you're a night shift
worker, you might want to use blue blockers. Blue blockers for some people can be helpful in just
reducing the overall brightness of light in the evening, but lowering the, you know, dimming
the lights in the evening and actually setting lights low in the evening, but lowering the, you know, dimming the lights in the evening
and actually setting lights low in your environment,
not having overhead lights, is good
because the cells that read this stuff out
are in the, and signal the brain
are in the lower half of the retina,
which we use the upper visual field.
So that I suggest to almost everybody.
The flip side of that is during the daytime,
in particular within the first hour of waking,
you wanna get as much bright light stimulation of the eyes as you possibly can.
You don't want to ever be painful, okay?
So if it's painful, you're injuring the retina, and you don't want that.
But bright light, ideally you get outside.
Through window, you're only going to get about 1000, what's called about 1000 lux, which
is a measure of intensity of light outside.
It's about 50,000 even on a cloudy day in Boston and winter.
You're getting more light through those clouds outside than you are with a bright light inside.
And it's very important because early in the day your brain needs to wake up.
Your whole system, your biolaching is to wake up and it does that by releasing cortisol in a bump early
in the day.
That's a good cortisol release.
And it sets a timer so that melatonin, which is the sleepy hormone, comes on about 16
hours later.
We know from a lot of studies that if you don't get that right lighted during the early
part of the day, you get a second cortisol bump at 9 p.m. and that second cortisol bump is very closely associated with anxiety,
depression, feelings of kind of low, low affect, leader. So the things I'm talking about right now
are slow. They're slow acting. They work over the course of days or weeks and so a lot of times
it's like people will stay up late watching a movie until two or three in the morning fine. Do
that. Enjoy life. Go out dancing.
Well, you know, now no one does that.
But when it's, when it's safe to do it or whatever your
protocol is, enjoy life.
But if you're chronically getting a lot of light in the
middle of the night and you're not getting a lot of
bright light in your eyes early in the day, you're wearing
dark sunglasses all day.
You're coming inside and you're not getting that bright
light stimulation from sunlight.
You're setting yourself up for low affect and
mental health issues and
worse
Perhaps or at least just as bad the
Habanula this brain area has connections to the pancreas you start disrupting blood sugar rhythms and
People start getting hungry in the middle of the night. It's it's associate with type 2 diabetes
There's a paper published in the journal Nature last year. So, these two pieces of brain were designed to see objects,
but their first job was to tell the rest of the brain and nervous system embody when to be alert,
when to be awake, how to run its digestive system, its immune system. Get that bright light
early in the day for just five, 10 minutes, just go outside
and get that bright light, drag your kids out there. You don't have to do it at sunrise.
You don't have to see the sun crossing the horizon, but there's so much data to support
these behaviors that I'm talking about, which are looking dozens, if not hundreds of
studies supporting this stuff. So totally cost free, right? None of this, none of this involves buying anything, but it does require some discipline.
Yeah, I got to tell you, um, I'm a hoover, buddy. I told you, and we're going to go longer, but I normally go because it's too good.
So can I keep you for a few more minutes here? Because it's, you bet, but my will go as long as, as
I had his work that impacted me was about a year ago, guys, I'm always looking for what's my little millimeter edge that could improve my wellness, my happiness, my performance.
And just I'm addicted to understanding me,
like many of you are that are listening to this.
That's the most fascinating part of talking to Andrew
as I feel like I understand me more.
And whether that helps me perform better,
which it does, is a byproduct.
So one of the things that I learned from you, and then I've sort of become obsessed with
is breathing.
And how it's really impacted, one, my energy, my performance, my, I think my cognitive
abilities.
And I don't think, everyone says, yeah, I got to make sure you breathe.
I don't think most people truly understand how critical it is to understand your diaphragm
and understand breathing correctly and the impact and change that it can make for you.
Could you talk a little bit about that?
Sure.
Yeah, my lab's really actively involved now in studies of respiration and how it impacts
brain states.
I'd be remiss if I didn't tip my hat to my colleague, his name is David Spiegel.
He's our associate chair of psychiatry at Stanford, extremely smart and really creative, brilliant
guy.
One of the world's experts in clinical hypnosis.
And he and I are very interested in brain states and states of mind.
And you can't talk about states of mind without talking about respiration.
I'm stealing David's words now.
So David, forgive me.
But what he said, and I know to be true,
is that the neurons in the brain stem,
deep in the brain, that control, respiration, or breathing,
sit right at the boundary between conscious control
of the nervous system and unconscious control.
So we're always breathing,
but I can immediately take hold of my breathing
and breathe deliberately.
And that's because we have a very special connection involving a nerve called the phrenic
nerve, P-H-R-E-N-I-C, the phrenic nerve that runs from the brainstem to this muscle we
call the diaphragm.
Mammals, not other types of animals, have a diaphragm and it allows us to move our lungs deliberately, voluntarily
by decision.
And it's made of skeletal muscle, unlike your heart, your spleen, or other organs.
It's just like a bicep, a tricep, a quadricep, or a calf.
It can be, it can work involuntarily, rhythmically in the backdrop, or I can decide to take control
of my limbs, right?
I don't think about walking anymore because I know how or I can think about walking.
The beauty of the phranic nerve is that it sends signals,
not just to the diaphragm,
but it sends signals back to the brain
and informs the brain about the status of the body.
And so if I breathe slowly and rhythmically
and in particular through my nose,
my brain thinks that I'm calm.
If I'm breathing fast, my brain thinks that I should be alert.
Now, there's a little bit of important nuance to this, if you're going to get into this.
I know a lot of people are into kind of whim off breathing and all this kind of stuff,
and that's really cool. But there are kind of two ways to think about applying
respiration practices for your life. I believe everyone should have what I call a real time tool
that can allow them to adjust their level of alertness
You know there are times when we're feeling too amped up and we want to calm down and I
Worked hard to try and find a tool that didn't require running off and meditating or doing daily breath work
Because a lot of people just won't do that and the tool is anchored on
The discovery made by several labs
anchored on the discovery made by several labs. One in particular is a guy named Jack Feldman at UCLA discovered these neurons in the brainstem that control siging. These neurons are activated
anytime you inhale twice in an exhale. That's what we call a physiological or proper
sigh. Your dog does this before it lays down to take a nap. You do this anytime, carbon dioxide in your bloodstream gets too high.
A double inhale followed by an exhale does something really special.
You have all these little sacks of air in your lungs.
If we were to play out all these sacks, they would feel about a half a tennis court.
That's how much surface air you have in your lungs.
You have these little tiny sacks.
And as you breathe throughout the day, they collapse. They get flat like a balloon. The double
inhale is how you snap them open, which pulls carbon dioxide out of your blood
stream, and then when you exhale, you offload it. So put simply, if you want to
calm down fast in real time, inhale twice, followed by an exhale. So it's two or
three of those. Sometimes even one is the fastest way that I'm aware of to calm down.
And actually, you can do this between sets at the gym.
You can do this while running.
If you're feeling like you're too amped up, you can do this in a hard conversation.
Kind of sneak those two breaths and then along the exhale.
You can do it through the nose or through the mouth.
Most important thing is it's double inhale followed by an exhale.
So that's a real time tool.
It's not breath work.
It's designed to give you a lever to control your level of stress, which is a good thing
to do because you don't want stress through the roof.
So if you're ever feeling too stressed, I would say, don't try and control your mind with
your mind.
Don't try and don't tell someone or tell yourself to calm down.
Go to your physiology, double inhale, followed by an exhale.
The other thing that you can do
with respiration that's really powerful is if you're somebody who has anxiety or you find that you're
just burning too much energy, you're finishing your day's grinding or depleted. That's where a
what is sometimes called super oxygenation, but really should be called carbon dioxide offloading
breath practice should come into play. It's very simple.
You sit down, never do it in your water.
Don't do it like, you don't do driving.
We can sit down or lie down.
You inhale and exhale 25 times.
Be a little forceful about it.
Excuse me.
And after the 25th one, we're 30.
It doesn't matter so much.
Exhale all your air and hold your breath for 15 seconds.
And stay calm while you experience that heightened level
of activation.
What you're doing with those 25 or 30 breaths
is you're triggering the release of adrenaline
into your system.
You're creating a little mild form of stress.
You might say, well, why would you want to do that?
Well, when you exhale and you remain calm,
you're now teaching the brain to be calm
when you have a shot of adrenaline in your system.
You can accomplish the same thing through an ice bath
or a cold shower and learning to relax
in that kind of confrontational situation,
but there's nothing quite like breathing
because in here I'm quoting David Spiegel again,
he always says, it's not just about the state you're in, but whether or not you had anything to do with getting there,
right?
When you self-induced these states, you're teaching your brain how to drive and kind
of maneuver within these different states of mind.
It's different than like driving along and all of a sudden you're skidding on ice or you're
in a blanket of fog.
It's sort of like you're turning on and off the fog, you're learning how to drive in fog by turning on and off fog, where you're going
black ice and then onto a nice dry concrete. So it's a process that you can learn to play
with. Now, if you really want to get good at it and kind of push it, you can do these 25
breaths, exhale, hold your breath for five to 15 seconds, then inhale and hold. But you have
to be careful, if you have cardiopulmonary issues or hard issues, you definitely want
to talk to a doctor first because it does build up a lot of pressure in your system. But
that will ramp up the intensity more. And so what this is really doing is it's increasing
your threshold for what you consider stressful. It's it's self-induced stress inoculation.
So you can also sit in a nice bath and learn how to stay calm in a nice bath.
You can also get into an argument with your spouse and learn how to stay calm, but I don't
recommend that one.
So these are ways of teaching our nervous system using physiology, how to calm down and how
to tolerate discomfort from a place of calm and clarity, both of which are powerful.
So I'm not saying just do the physiological side.
I'm not saying just do the breath work.
I'm saying, if you're willing to invest
the time and energy, do both.
You want a couple of different things in your kit.
You want different caliber bullets, right?
For different, you need different weapons
for different things or if you prefer,
you need different paint brushes to paint different pictures
if you want a more, you know, docile example.
Brother, so damn good.
I almost want to move that to the front so no one missed it because it's so usable.
And you guys, or so that was more learning from me, but that's made a huge, huge impact
in my life is my taking control intentionally and my breathing.
And the two breaths and exhale is a new one for me.
So that thank you for that. So my last one after you finish like a really hard set,
in the gym and you want to recover from your next set, I always make the last rep of any set
that I don't do it while I'm lifting. I'll set the weight down, but that's not my last rep.
My last rep is a double inhale followed by an exhale because my goal is to bring my
You know, they talk about days about heart rate variability. You want a lot of variability in your heart rate throughout the day
You want in many ways you want to keep your nervous system tuned up for high levels of stress and low levels of stress
I just take the liberty of saying earlier
I said I don't like the word homeostasis the word that needs to get more
like the word homeostasis. The word that needs to get more air time is alostasis. Homeostasis is the idea that there's this perfect sweet spot that we're always trying to be a perfect
temperature, a perfect breathing cadence, a perfect state of mind, and it just ain't so.
The real physiologist will tell you it's alostasis. Alostasis is the ability to steer into
pressures. When you're running, you don't want your heart rate to be low if you're trying to increase cardiovascular fitness. When you're sick, you might want a mild fever.
We've become so attached to this idea of a perfect plane of existence that we're forgetting
that we need to be at max effort during that set, but then we want to be at max relaxation in between those sets so we can lean back into max effort sooner.
You kind of answered my last question there, but I want to still ask you, I'll give you a different one. Thank you, by the way, for I want to say this before the last question.
I want to thank you for the day because you change lives. And in a dialogue like this today, it's impossible for someone to spend the last hour or so with you and me along for the right as well. And their life
not got better. And that's why I do this, man. Like you're the reason I do this. And
I we're going to do more together. We talked about that off camera. I just have this sense
that this is the beginning of you and I doing more and more together. I enjoy you personally,
also brother. So thank you. Like I said, I would really, it's very gratifying to hear that these
things could be of value to people because I was walled up in my lab for 20 years in science and
you know, science is, look, you page for it. You already bought the taxpayers are pay for science,
right? Foundations as well, philanthropy as well. But science was designed
to be put into society and it's and it's opportunities like this that allow that to happen.
You know, I can, you know, read my own papers or my colleagues, we can read each other's
papers, but it's I'm very grateful to you for the opportunity to share and so thank you.
You were talking about, here's what you need about, I said it in the beginning and everyone's
thinking about this. You just listen to a neuroscientist for the last hour and ten minutes and he didn't lose you
And that's what makes you special, right?
You're talking about my friend David Sinclair who was on the show is another brilliant man
You both have something really beautiful and common which is you're the smartest guy in the room and you don't have any need to prove it
And you elevate other people by doing it. And that's just really special.
It's unique and it's special,
which is why there aren't thousands of guys
in your profession doing what we're doing right now.
Last question, it's kind of a science question,
but it's more like a human question.
There's a lot of people at the time
they're gonna see this or hear this.
If it's right now, it's during COVID
and high unemployment and stress and society.
And I just say overall, it feels to me recently,
like consciousness is a little down.
And then maybe someone will watch this two years from now
and we just find them at a tough time in their lives.
Right?
And so this is really a science question.
I'm probably catching up, Garb.
But maybe science applies.
Is there a hack, a thought, a message you might have
for somebody who says, like,
I just like to start changing either how I feel or my conditions currently.
Is there some recommendation whether it be, you know, change my physical state or something
along those lines that you might add that we've not covered today, anything?
Yeah.
Thanks for asking that.
I, you know, everyone goes through periods of challenge and it's so hard to know what the perfect tool is going to be.
But I do think that you want to attack the foundation first.
You want to build the foundation first,
I think is the better way to put it.
The reason you want to go at the foundation first
is because it has the capacity to change everything else.
And so here's what, this can be more of a synthesis than a specific new tool.
But the most important thing is to get into action and start implementing tools.
The ones that I talked about today, hopefully, but others as well.
One of the things I really enjoy about doing work with the military and special operations community
is they're very action oriented.
They do the stuff.
They don't always decide to stay with it.
If they find it doesn't work for them,
they move on to something else.
They keep searching, but they're very action oriented.
So we have to lead with action.
And I said the nervous systems, sensation, perception,
feeling, thoughts, and behaviors. That nervous system sensation perception, feeling thoughts and
behaviors. That's what it does. Memory and other stuff as well. But you can't sit around waiting to
feel ready or feel the perception shift. Behaviors are the way that you shift your perceptions
and the rest of it will follow. And so, because for some people that feels like a mountain and
they're way down at the bottom or even down in a pit, the key is to take very small behaviors like one minute
of sunlight or getting outside, even if there isn't sunlight, first thing in the morning,
reward that process. Tell yourself, great, I'm in control of my nervous system. We have
to remind ourselves sometimes that our nervous system is under our control. Now, the rational person will say, well, external circumstances haven't changed, ah,
but internal circumstances that the chemical level have, which have then placed you into a position
to lean into external circumstances with a bit more resources, just a bit more. People will
are desperately trying to find the inspiration, the source of love, the meaning to do it.
That's great, but there are times to just be action oriented
and to just build layer upon layer of action and action
and it starts with waking up and getting some sunlight.
Then it's about deeply embedding the reward process,
just rewarding the verb of having gotten up and moved
toward sunlight.
Then coming back inside, you have to learn to build up
these circuits and it takes a little bit of time,
but they do work, they work in every species,
and they absolutely work best in humans
because you have this power of subjectivity.
You can tell yourself, even though I'm not
obtaining the results I want just yet,
the action steps are putting me on the right path.
And so it's really a synthesis of what we've said before.
The other thing that I'll just add to it is that there's no way anyone can do these things
consistently without proper rest and rewards associated with the other reward system.
There's the dopamine system and adrenaline and all that we've talked about before, but
there's also the serotonin and oxytocin system.
Hard driving people that don't know how to obtain reward from things that are completely
contained within the confines of their skin with no action are also going to lose out.
And so this is the key thing.
If you want to be able to lean into effort, you have to also tap into the reward systems
that nature design
are fully contained within you.
This would be gratitude.
I always say gratitude is not complacency.
It's not going to make you a naval gaser.
It's not about saying you have enough.
It's about saying something you have is of value and you are grateful for it.
That allows you to then have a more positive outlook and lean into those dopamine pursuits
and rewards.
So gratitude for some people, it's prayer.
For some people, it's just the conscious thought
of one thing that you're breathing that you're alive.
I mean, really bring it down to a foundational level.
So learn how to access that reward system too,
because that was a mother nature
built reward system that was designed to make you feel good
about what you've got,
so that you can feel safe
so that you can continue to lean into more unsafe challenges. And so those systems are like
kind of like a seasaw dopamine and serotonin. And when I see people that have been hard driving
their whole life going after, they're pursuing, pursuing, pursuing, and they don't have
and built the capacity for gratitude or appreciation or relationships where you have, you know,
we shouldn't just pray before a meal or say grace before a meal or thank whoever whatever
I'm not here to instill any kind of, you know, philosophy on people, but we should also
when we're full, we should be grateful that we're full.
Like this is what allows us then to wake up the next day feeling more capable of leaning
into effort.
And these are, it sounds subjective, it sounds psychological. The search
phone inside always sounds a little softer, a little wishy-washy, but believe me,
the super high performers that I know, and I know you fall into this category yet,
they know how to work both these systems. They know that this is the system that's going to allow
them to pursue things forever, their entire
lifespan. And if we think it's just about dopamine, the watch, the car, the external stuff,
it's a fail. And it's also a fail to just be content with what you have. We were designed
to be in pursuit, but not all the time. So that's, that's what I'll offer.
I loved, loved, loved today, bro. I loved it and I'm grateful guys. This is Dr. Andrew
Huberman. This is going to blow up just so you know. So thank you, brother. So
some of you we can send them to find you. Yeah, well, so I teach neuroscience on
Instagram at Huberman Lab, H-U-B-E-R-M-A-N-L-A-B. I don't do it every day, but I
try and put out some tidbits about neuroscience,
many of which are actionable. I sometimes announce studies there where we look at people's physiology out
in the real world who are doing breathing stuff, and we actually pay you to do that. The subjects in
those days, I announce those on Instagram from time to time. We'll have more on that soon.
And in general, if people want wanna learn more about the science,
like really go down in the weeds of the papers
we published, they can look at HubermanLab.com,
but really the Instagram is where I'm updating things.
And I also, I wanna say thank you for having me on today.
I really enjoyed the conversation.
I realized I was doing most of the talking,
so forgive me, hopefully we'll get the opportunity
to sit down sometime and I can learn more about you and your practices and your your philosophies
because I'm always easier to learn. Thank you. I wish it would be reciprocal and equal but it won't be.
So you guys also can find me on Instagram as well and you know every day follow me there and
participate. When I make a post I make a post every day at 730 Pacific time 1030 Eastern and then
something commences called the two-minute drill. You've got two minutes. If you make a comment, I pick a winner every day. If you miss the first two minutes, just make a
comment on my five posts a week every day, at some point, doesn't matter what time. And comment
other people's comments. I pick people to get coached by me. They meet my guests, copy my book,
max out gears. I've had people fly on the jet with me, come see me speak. It's just really cool
stuff. It's called the max out two-minute drill bottom line, comment on my post on Instagram.
Okay, everybody, Andrew, thank you for today.
God bless everybody.
Continue to max out your life.
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