The Mindset Mentor - How to Rewire Your Brain w/ Dr. Andrew Huberman | The Expert Series
Episode Date: May 4, 2021Rob Dial kicks off this week's episode of the Expert Series with a hard-hitting and insightful conversation with American neuroscientist and tenured professor in the Department of Neurobiology at the ...Stanford University School of Medicine, Dr. Andrew D. Huberman!! Rob Dial @robdialjr Andrew Huberman @hubermanlabs Want to learn more about Mindset Mentor+? For nearly nine years, the Mindset Mentor Podcast has guided you through life's ups and downs. Now, you can dive even deeper with Mindset Mentor Plus. Turn every podcast lesson into real-world results with detailed worksheets, journaling prompts, and a supportive community of like-minded people. Enjoy monthly live Q&A sessions with me, and all this for less than a dollar a day. If you’re committed to real, lasting change, this is for you.Join here 👉 www.mindsetmentor.com My first book that I’ve ever written is now available. It’s called LEVEL UP and It’s a step-by-step guide to go from where you are now, to where you want to be as fast as possible.📚If you want to order yours today, you can just head over to robdial.com/bookHere are some useful links for you… If you want access to a multitude of life advice, self development tips, and exclusive content daily that will help you improve your life, then you can follow me around the web at these links here:Instagram TikTokFacebookYoutube
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slash best Wi-Fi with promo code dial. Welcome to today's episode of the Mindset Mentor Podcast.
I'm your host, Rob Dial.
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Today, I'm sitting down with Andrew Huberman.
And I was just telling you before we started how excited I am.
I actually interviewed Matthew McConaughey a few months ago.
And I told my girlfriend yesterday, she's a big Matthew McConaughey fan.
I'm like, I'm actually more excited to interview Andrew
than I am to interview, a big Matthew McConaughey fan. I'm like, I'm actually more excited to interview Andrew than I am to interview, was interview Matthew McConaughey
simply because of the fact that, I mean, Matthew McConaughey is great, but I don't geek out in
his stuff the same way that, you know, I was telling you I geek out on your podcast and the
stuff that you've been able to do and the way that you've been able to bridge the gap from science to
the average person. And so I'm super excited to dive in today and to talk about neuroplasticity
and how the brain works. Oh, well, thanks for having me. That's very gratifying to hear. I also think Matthew
McConaughey is great. But I'm thrilled to be here. Looking forward to it.
Yeah, for sure. So I want to just make it real simple for people because I want to talk about
neuroplasticity and how the brain changes. But as far as the brain from going zero to 25, 25 plus,
can you explain how that works as far as neuroplasticity
and then after 25, how it works for people as well? Yeah. So some of your audience may already
know this, but neuroplasticity is this incredible feature of the brain's ability to change in
response to experience. And we should probably broaden that definition to say the nervous system,
because the brain is obviously amazing, but that's just the part of the nervous system
that's housed in the skull.
You've also got all these connections
with the organs of the body,
the controlled breathing and heart rate.
Those can change too.
When you hear about things like muscle memory,
actually muscle has no memory.
It's the nerve connections that change
when you learn something and you relearn it.
So neuroplasticity-
Would that be connected with fascia at all?
Yeah, so fascia can, they receive,
fascia, which is stuff wrapping the muscles really tight,
they receive some neural innervation.
Okay.
The fascia kind of talks to the nerves,
not so much the other way around.
Okay.
But I'm sure now that I said that,
someone out there is going to, you know, correct me.
But, and they're probably right.
Most things in the body are bidirectional.
So like the heart is communicating to the brain
how fast it's beating.
The brain is also controlling heart rate.
The lungs are communicating with the brain,
brain are communicating with the lungs.
So the reason I am hesitant to say it's all one direction
is that typically when one looks a little bit more closely,
you see that it's a two-way conversation.
So anytime we talk about neuroplasticity,
we're talking about the nervous system changing in some way to make the nervous system function better or worse. So a think better, perform better, any of that,
that means something changed.
And you asked about the zero to 25 versus 25 and older.
It's a pretty well accepted principle of neuroscience
that the nervous system changes very easily
from the time we're born until about age 25.
It's not like on your 25th birthday,
you get the gift of no more plasticity.
It tapers off.
And for some people it'd be 27 and some people it'd be 24.
But from birth until 25, the entire nervous system,
because of the chemicals that are circulating,
because of a number of things, it just wants to change.
And so it changes through just passive experience.
So a child goes to their first movie
or watches their first movie
and it changes the way they view the world forever.
And you can unlearn things.
That's also neuroplasticity.
But all you need to do as a young person
is be exposed to something and it will change your brain.
Provided it's novel or it's interesting enough, or it makes you alert enough,
you'll change. Now, after age 25, you can still get neuroplasticity, but the mechanisms completely
change. The chemicals that are involved completely change. The ways to get neuroplasticity shift.
And there are a couple requirements. The first one is that it has to be self-directed. We love
the idea that we tell people to change and they're going to change. But the only change that comes
after age 25 is self-directed change. You can shape a child for better or for worse. You can
literally shape their brain and their nervous system. I mean, I would just watch the Tiger
Woods documentary. He was shaped as a child to become the best golfer. And he obviously contributed to that,
but you can't take an adult
and make them the best golfer in the world
unless they want to be the best golfer in the world.
So there's a little bit of a contractual thing
with the nervous system.
Is there a reason why that happens?
Like, so from, is it just because children are more malleable
is because there's, what's the actual reason for that?
Yeah, great question.
So when you're born until about age 25,
the connections between neurons, we call those synapses.
And it's a little bit of a tricky name
because we talk about as connections,
but they're actually spaces between the neurons.
They're like these little gaps
and the neurons spit chemicals back and forth
across those gaps.
Those synapses are the communication points between neurons.
And anytime you learn something or unlearn something,
anytime you acquire new language or motor skill,
the arrangement of those connections changes.
It's like new roads through a city kind of thing.
So when you turn roughly 25,
there's a significant change in the amount of space
between neurons,
and they literally don't have as much space to move around.
It's called extracellular space.
And it's not like cement gets poured in there.
But there are a bunch of things, for the aficionados,
these are like glycoproteins,
and they have all these fancy names,
perineuronal nets and that kind of thing.
If people want to learn more, they can look that up.
But you fill in that space,
and it literally makes it harder to move things around.
So the brain early on is,
it has some things that can't change,
like the areas that control heart rate or breathing.
You don't want those to change
because you want your heart rate functioning
in the background all the time.
But it's a little bit more like a Lego set.
You can move things around a particular foundation.
Now, after age 25,
it's more like you've got the model glued together and you can,
you know, steam away some glue and move things around, but it takes work.
Right.
And the work consists of focus. It requires intense focus. So a child, you can just put
them in front of an experience or put them in an experience and it'll shape their brain.
But as an older person, meaning 25 or older, you have to really concentrate
on what it is exactly you're trying to change.
And this again is referring to adaptive plasticity
because again, a head injury will change your brain,
but for the worst.
So today, if I'm talking about plasticity from here on,
unless we say otherwise,
we're talking about adaptive plasticity.
So there's less space for things to move around.
You need focus.
And there's also this interesting thing that you need focus
and then you also need deep rest afterwards
because that's actually when the changes occur,
the re-sculpting of the brain.
And the focus is key because the focus
on what you're trying to learn causes the release
of particular chemicals.
Let's talk about those if you like.
And those chemicals send a signal to the brain, ah, something needs to change. And if you think about it,
there's no reason for your nervous system to change at all. Why should it? And these chemicals
that make us feel alert or surprised or anxious or afraid or very, very excited, those aren't just
for our emotional experience.
Those mark time in the brain and say,
wait, something's different now
than it was a few minutes before this happened.
And now there's this opportunity to learn.
And then the brain starts looking around for,
well, what should I learn?
And we could talk about what the steps are for changing,
but it's really a chemical
and an actual physical difference in the brain
between zero to 25 and after 25
that underlies this shift in what we call passive plasticity early in life. You just passively go
through life and for better, for worse, by 25, your brain is going to be the way it is. And then
you can still change it, but you have to dig in and put some effort. Right. Which is important
because most people think, oh, I just, you can't teach an old dog new tricks. I just am the way
that I am. And so I guess it makes sense in the sense that,
you know, if 100,000 years ago,
you and I are walking by
and you decide you want to go get water from a lake
and alligator takes you,
that's going to be a very heightened state.
There's going to be a lot of focus
that's going to come to that.
It's going to tell me next time I go
near something like this, I need to be more careful.
So it seems like it can be an evolutionary trait to make sure that people, you know, for safety, I need to be more careful. So it seems like it can be an evolutionary
trait to make sure that people, you know, for safety, I guess, long-term, but is the chemical
that you're talking about acetylcholine that's released from the brain when, when immediate,
immediately we need to focus on something. Yeah. So acetylcholine is, is one chemical in the
cocktail of chemicals that allow the brain to change as an adult. The, the example you gave
of the alligator or the crocodile
grabbing your hiking partner and pulling them away,
it's a really good one.
Actually, if that happened, a couple things would be clear.
If something really bad happens,
you get what's called one trial learning.
You will never forget that happened.
And for some people, they think, oh my goodness,
I've had these traumas, how will I ever forget?
You can unlearn the emotional relationship to it,
but you will never forget.
It's kind of remarkable.
It's kind of the stinger of biology
because you wish that you could have that
for other things that were more pleasant.
But not only would you not forget the alligator event,
but you would remember all the things that led up to it,
even though you weren't thinking about those as it happened.
So that morning, you putting on your shoes
in a particular way, the trajectory you took
to get to that lake, all that suddenly would be called up
to memory and packaged into this experience.
And so this is, you know, it gets to a lot of things
related to trauma where people will, or PTSD,
people will start to have all the physical symptoms
of a trauma that have nothing to do with the actual traumatic experience. And we always hear that kind of
cliche example of, you know, a car backfires and then the veteran who's come back thinks that
they're in a battle. It's actually, that can happen. But more typically it's, they get up in
the morning, they're making up a cup of coffee and bam, all of a sudden the emotions hit,
the physical symptoms hit.
And it probably relates to the fact that things that happen,
the actual traumas that happen,
capture elements in time before, during and afterward.
And so the nervous system wants safety.
Fundamentals like Maslow's hierarchy of needs
starts in the nervous system.
Everything's anchored first in the nervous system.
And so you would capture that entire sequence of events.
Now for positive things,
so the negative events are triggered,
sorry, the highlighting of negative events, I should say,
is triggered by the release of epinephrine,
which is adrenaline.
So adrenaline comes from the kidneys in our body,
that makes us breathe faster,
makes us pupils dilate,
you know, all the physical symptoms of stress and anxiety.
In the brain, we call that exact same molecule epinephrine,
just to confuse people.
I didn't name them, so.
And then there's norepinephrine,
that's something that's not the same thing.
Norepinephrine, which is similar, but not quite the same.
But we'll call it epinephrine or adrenaline interchangeably.
So that causes alertness
and it has no bias towards positive events
or negative events.
So if you see somebody that you really enjoy seeing
and you didn't expect to see them,
epinephrine will be released into your body.
As well, acetylcholine,
which was the neuromodulator that you mentioned,
is released.
And acetylcholine acts like a spotlight.
So as I mentioned, when we're excited by something
and we're stressed, our pupils dilate,
which actually causes us to go into a bit of a tunnel vision.
We don't always experience it as dark around the edges
kind of tunnel, but we don't see the big picture, literally.
It changes the optics of our eyes.
We get much better at seeing individual things.
If you've ever been in love, you've experienced this
because the person just seems to occupy
your entire visual field and your entire emotional field, as it were.
So there's this kind of soda straw view of the world. Not always bad. It can be good as in
falling in love or being excited about something. And acetylcholine is a molecule that's released
in the brain that is marking or highlighting the specific areas of
the brain that are active during a particular event. So one way to think about this is if you
decided that it were important to you to say, learn a particular language or to learn all there
is to know about something that's very vital to your life for some reason, the information would
literally be highlighted as you read it in your brain,
and that would make it easier to learn.
But the actual learning doesn't take place
while you have that acetylcholine swimming around
in your brain and highlighting things,
or the epinephrine, the adrenaline.
It happens later when you go to sleep.
The reorganization of the brain happens in deep rest,
sleep and things like it.
And so this is why sometimes people will work very,
very hard at trying to make a change
and it's just not happening.
It's not happening.
It's not happening.
And then they'll take a little bit of a break
or a week later they come back and they nail it.
Yeah.
That is because the changes don't actually occur
during the attempt to learn.
Yeah.
And maybe one other thing
that I don't think I've ever really talked about
terribly much on podcasts is that errors
and making mistakes is key.
And that's not just as a thematically like,
oh, errors are good, you learn from errors.
What is the Michael Jordan thing?
I missed whatever 10,000 of the shots I didn't take.
I can never remember the quote.
Anyway, making errors is good,
but at a neurobiological level,
plasticity is faster when you make errors.
And here's why, when you do everything properly,
you get up from your chair, you go get a glass of water,
you speak the languages you speak,
why should your brain change?
It has the complete operating manual for what you need to do.
When you make a mistake, it feels terrible
because you release epinephrine
and most people will tilt away
from the experience at that point, they wanna walk away.
But if you can focus on what just happened
and what you're trying to do,
you bring acetylcholine to the learning experience.
And when you make errors,
there's something called top-down processing.
It means that the higher order areas of your brain
send signals deep into the brain.
Whatever you're about to do next is really important.
And so it's probably best thought of
as throwing darts at a dartboard,
because it's just so straightforward to use as an example.
So if I throw a dart, misses the dartboard entirely.
I've been that guy, by the way, at the bar in college,
like really bad, not great binocular vision,
which is ironic because I study vision.
So if I close one eye, I'm actually better.
And I throw it, okay, so then I'm off from the bullseye,
I'm off from the bullseye and I'm getting frustrated,
you know, it's like, and I wanna walk away from it.
But if I keep doing that, what's happening is my brain
is queuing up all sorts of things without me realizing it.
Like what trajectory my arm is taking when it goes left,
what trajectory my arm is taking when it goes right, what trajectory my arm is taking when it goes right,
why suddenly I think I'm doing everything right
and it hits the wall again.
And if I were to go away from that for a short while,
or maybe continue to just throw errors,
I'm learning faster than if I get closer on the first try.
So the brain takes error signals and says,
"'Okay, we need to correct this and that's plasticity.
So to make it really concrete,
making errors isn't just good
because we tell people it's good
and you have to fail in order to learn.
It's actually the best portal into learning.
Your brain will not change,
your nervous system will not change
unless you're making errors.
And this is actually what kids do really well.
The kid learning to walk is falling down all the time.
And the brain is updating, okay, what was different?
And a lot of it's subconscious.
The kid isn't thinking,
oh, I have to bend my left knee a little bit more.
I need to flex a stabilizer muscle in my tibialis.
They don't think like that.
The nervous system is very smart and it just figures it out.
So focus, errors, and rest.
Focus, errors, rest.
Focus, errors, rest.
And then pretty soon you have fluency in what you need to do.
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heard you say is when you talk about acetylcholine, first off, you say what you just said, where it
feels stressful. So like i think back to where
this really clicked for me i heard you saying it at one point in time where acetylcholine comes
from the stress part of the brain right and i've i've been at the point before i've been playing
guitar since i was 15 and it's easy for me to sit down and just play songs i've been playing forever
but then i sit down sometimes i'm like i really want to learn this pink floyd solo and i can feel
myself getting like oh shit like i don't i just want to go back to playing the easy stuff. And then
I'll be like, ah, just let me lay back. Let me go back to the easy stuff and forget about playing,
you know, forcing myself. But at that point, it's actually that it's marking my brain to start to
change is what you're saying. And that's usually the point people get to the wall and they're like,
I'm not supposed to do this. That's right. that's right. So one of the worst things that have happened
are the movies where people suddenly have skills
they didn't know they had.
It does not exist.
It doesn't, now there's crossover, right?
You know, athletes that are terrific in one domain
can be terrific in another domain.
But if maybe framing it this way,
which you just did very nicely, uh, will help
people if they're trying to learn, which is when you feel agitation, that's the brain and nervous
system queuing up the things it needs in order to create change. But you cannot, you will not
experience the feel good molecules, dopamine and serotonin, until you hit a new landmark,
until you hit a new milestone, that does not happen.
There's no feel good entry into real learning.
Now that doesn't mean that learning has to feel terrible,
but there's no positive reward from failure
at the chemical level, except there is one little twist,
which basically is a chemical neurobiological
explanation of growth mindset, which is my colleague at Stanford, Carol Dweck's discovery.
And I'm obviously naming that, that said that's hers, but growth mindset is about the idea that,
of course, that you may not have a skill, but that you could, it's the idea. I don't, I can't yet, but as well, it's also about adopting
the mindset that the learning process, the friction process itself can be rewarded subjectively.
So what this means is that when you're trying something new and it's stressful and there's a
lot of agitation, there's no natural reason why the nervous system should give you any dopamine release to feel good
or serotonin release, but we're smart animals.
We can subjectively say, wait, the effort process itself
is what's gonna get me where I want to go.
And in doing that, you can start to weave in
some of this dopamine release.
Now we know that because dopamine and its release
in the brain, which makes us feel good, tied to motivation, et cetera, is extremely subjective. And we know this because
what's funny to you might not be what's funny to me. What's important to you might not be what's
important to me. There's probably some overlap there, but there's probably some difference too.
And we've all experienced dopamine before. You're feeling absolutely miserable. Something's
terrible. And then somebody cracks a joke. If it's not funny it tends to send you further down the trench if it is funny
you feel an actual lift and you feel like you have more energy to go on and that is not a
psychological thing as much as it is a chemical thing dopamine is an amazing molecule. People think of it as the molecule of pleasure, but it's mostly the molecule of motivation and drive. And dopamine is the precursor,
literally the chemical precursor from which epinephrine and adrenaline are made. What this
means is if you can subjectively tell yourself, I'm doing well, I'm excited. This is, oh, this is
super frustrating, but you know,
I don't know, Huberman was blabbing that this is the entry point to learning and failures are
supposed to be good. If you can start to say, you know, I kind of like this, what ends up happening
is you actually have more chemical energy, neural energy in concrete terms to continue.
Because what's rate limiting in terms of how long we can push is epinephrine.
There are great studies that show that,
not done by my lab, but other labs,
that show that the ability to persist and endure
is dependent on a reservoir of epinephrine in the brain.
It's not so much about adrenaline in the body,
it's about, it's fuel.
And dopamine is like a re-up
on that fuel it's like a buffer yeah and i know this sounds a little when you whenever something's
very concrete like a breathing technique or a vision technique it's it's you know you just list
it out and it's very intuitive with this subjective thing what what can help people is if they start
to understand you know the mind is really got its hardwired
mechanisms. Like when something is stressful and I can't do something, it's going to feel
not great. But if you can recognize that and you can start to incorporate the subjective
part of learning, which is that, that is the first door to learning and the feel good process that
lies on the other side. And people who learn how to tap into this, I guess Tiger Woods would be another example.
Clearly, I don't know him.
I remember when he was at Stanford, but I don't know him,
but it's clear in watching his trajectory over the years
with golf is that hard work and focus and effort
were inherent to his process.
And all great performers, whether or not it's in science
or music or athletics or business,
they learn to associate the hard work,
not just with the reward that's coming later,
but it becomes its own form of reward.
The process is reward.
And that can go off the rails and can become a problem.
You know, people become workaholics.
I've been accused of that before.
They're wrong, but no, I'm just kidding.
But you know, within healthy range, that's really,
if there is a kind of a secret sauce
or like to the whole thing,
it's the dopamine that you can control the release of.
And so I always say with dopamine,
you have to be very careful.
This is also the molecule of addictions.
This is the molecule of great self-destruction
if you're not careful with it.
But if you can learn to regulate it through hard work
as well as celebrating rewards,
then you essentially have open field
on whatever it is that you wanna learn.
And you stand a far greater chance of succeeding
because otherwise it's just gonna be grind, grind, grind.
Oh, I hope this works out.
And then if it doesn't work out,
you don't have the gas to continue. And if you really are about process and result,
not just process and not just result, chemically, you have all the machinery going to take you
through, you know, three lifetimes of hard endeavors and fun endeavors for that matter.
Yeah. So if, if, if we're boiling it down,
let's live, we just go back to like the guitar example. So, you know, I'm going to sit down and
play some guitar and I'm, I know the chemical cocktails are now going to happen inside of my
brain. I know I'm going to probably hit a wall. That's going to feel like I want to stop and it's
resistance. And that is, you know, the, the point where my brain is starting to want to change.
And instead of me going, okay, when I learned this entire
Pink Floyd song, which could take me days, then I'm finally going to feel good about myself,
which will finally give me the dopamine. It's like, if I can spend the next two minutes learning
just these three parts, and then I get past those two minutes, and it's almost like a mini
celebration inside my head, I can make myself, give myself dopamine, which then gives me more drive and motivation
to continue to keep learning the rest of it, right?
Absolutely.
So chunking, breaking things down into their elements
is something we hear about all the time.
And so, you know, a journey of a thousand miles
starts with a single step.
How do you eat an elephant?
You know, one bite at a time, this kind of thing.
What's missing in those statements about chunking
is that they never tell you to reward
different elements of the process.
And there's some other tricks you can use
that can accelerate this process.
One is, let's say you decide, I don't play music,
so I'm gonna mess up the language around this,
but I'm gonna learn one chord or half a chord.
Can you do half a chord?
One chord.
I'm showing my musical ignorance here.
One chord or one bar of music.
And you reward that.
You're like, yes, okay, that was really challenging.
But if you understand that kind of the excitement
that you feel at that point is the opportunity to continue.
These are, and we can talk about how this is rooted
in ancient mechanisms,
not mechanisms to allow us to learn music,
but mechanisms that allow us to find mates
and build shelters and build civilizations,
all sorts of things.
But if you can do that,
but every once in a while, skip the reward.
Every once in a while you get there and you're like,
yes, suppress the dopamine response a little bit.
And the reason is the best learning schedule
is the one that the casinos leverage,
which is intermittent reward.
If your body and brain start to expect dopamine on a regular schedule, and that can be a regular
schedule in time or a regular schedule, like every time I get the A or every time I learn a bar of
music, it will start to have a diminished effect over time. And so I have some friends who've done
very well in the entrepreneurial space. And some of them, you know, you get the phone call, what do I do now? It's like, oh, poor you, you know, someone's like, you know, what, what do you do? And I always just say, give it away, just give it away. And if that feels good, great, or give half away. And they're like, wait, what? You know, and some of them do give it away or much of it, never all of it, but much of it. So they're good people, but people who develop a relationship with dopamine,
that's attached to effort, pick a milestone, reward yourself subjectively. How do you know
if you've done it correctly? There's always the question I get, how do I know if I've done it
correctly? You'll know because you have energy to continue and you'll have a, a, a kind of a
pervasive feeling of satisfaction. But the idea is to push into the next vista,
to the next milestone.
Then every once in a while, just remove the reward.
Remove the reward because in doing that,
your dopamine system,
it's never really adapting to a particular schedule
because the next bar of music in this solo
might be really hard
and you might not actually get it that day,
but you need to be able to come back the next day
and continue.
And so this is something that your mind
can really shape itself.
I mean, this is the most amazing thing about the brain
as opposed to all other organs or the nervous system
compared to other organs is that your liver can't say,
oh, I wanna change myself for the better.
So we have, you know, people argue about free will
and all this stuff.
I don't like arguments like that.
They're silly arguments, frankly,
for reasons we could get into.
They don't have any direct biological underpinning
that we can point to yet,
but this stuff about dopamine for rewards
and acetylcholine for focus and epinephrine for agitation,
those are as true in your dog and my dog
and every person in the world as it was 100 years ago.
And we always like to think about,
oh, you know, 100 years ago,
all these chemicals were there
because we were being chased by saber tooth tigers.
No, no, no, no, no.
People had breakups 100 years ago.
People died 100, dogs died 100 years ago.
Terrible things happen and great things happen.
These are mechanisms that were designed
to be applied to any scenario,
whether or not it's, you know, Bitcoin or basketball or university work or whatever it is. And so the elements of the nervous system, the kind of ingredients to work with are very basic. And once you understand them, you can start to rearrange them however you like. We all know the feeling of immense dopamine release, huge milestone or big surprise. You know, someone
sends you a check or something you didn't think that was going to happen that's positive happens.
And just one thing I want to mention about dopamine that I don't think I've ever mentioned
before is dopamine and its release is also how we fragment time. So there's these beautiful studies
that have been done where they've had people watch sports games where people are very vested in their
team winning and they measure dopamine release in the brain. And every time there's dopamine release, it kind
of resets the way that you focus on the world and your ability to extract more information.
And this is, I think, why celebrations mark kind of time for us. Great things and bad things mark
time, you know, when someone died, when they got married, et cetera. So when
you're playing with dopamine in these ways, what you're doing is you're taking control of a process
that if you don't take control of it is going to be controlled by external events. When are they
opening up businesses, right? How's the market doing? Is Bitcoin at 60 or 6k today? You know,
you are driven by external events.
And so this has been discussed a little bit by Josh Whiteskin, the great chess player,
turned Tai Chi hands, turned stand-up paddleboarding guys.
I don't know him, but one of these amazing people
who wrote The Art of Learning.
He talks about this in non-neurobiological terms,
that the ability to stay in that plane of calm is key.
Self-reward we sometimes think about as jumping up and down and be like, yes, I killed it, I did it. The ability to stay in that plane of calm is key.
Self-reward we sometimes think about
as jumping up and down and be like,
yes, I killed it, I did it, I succeeded,
high fives all around.
That's powerful, but equally perhaps more powerful is,
I just did that.
And the internal sense that you just hit a milestone
and instead of wasting energy jumping all over the place
to move to the next milestone.
And high performers do this very well.
And they're also very good at just showing up
and taking care of business.
And so whether, it doesn't matter what domain you're in,
this stuff of dopamine giving you more gas
to push on further,
because it's the precursor to epinephrine,
this is the stuff that once you start
taking subtle control of,
it becomes easier to know if you're tapping into it.
So people shouldn't obsess too much
about whether or not they're doing it right.
The results of the learning process
will tell you if you're doing it right.
But it takes time.
It's a practice that you learn.
Yeah, it's funny because I think back to,
I used to sell Cutco back
and they used to sell Cutco knives and we used to make hundreds. Oh, I remember a Cutco guy come to our house. Yeah, I used to sell Cutco back and they used to sell Cutco knives and we used to make hundreds.
Oh, I remember a Cutco guy coming to our house.
Yeah, I used to sell, I mean, we used to, I'd make-
They were good knives, actually.
They were great knives, yeah. And so that's how I got into learning about this stuff was because I used to, then I started training people. I trained 2000 people by the time I was 25. And when I would sit down to make phone calls, what I would do is I would take a bag of Skittles and I'd need to make a hundred phone calls.
And so instead of saying, all right,
I'm going to wait till I get to the very end
and I get the entire bag, it'd be like,
all right, when I get my first 10 done, I get three.
And I didn't know that this was a thing.
I just remember hearing somebody say,
it's good, just reward yourself after each one.
But I've learned over time, almost unconsciously, I think,
my videographer comes over
and we'll record like five episodes in a day. And that's to sit down and focus in five episodes in a day is hard,
but she brought something up. She's like, do you realize that you celebrate yourself after every
episode? And it's to the point where I'll move the mic away and go, that was really fucking good.
And that's all I'll say to her. But she's like, you notice that you celebrate yourself. And I
heard you talk about how dopamine reward systems give you just that little bit more drive to do it.
And I was like, oh, this makes so much sense
why I get so excited to then go to the next one,
even though mentally that could have been exhausting
on the third episode in a row.
Yeah, absolutely.
I mean, it's a great example.
I mean, dopamine is the molecule of craving,
of motivation and possibility.
And it has a dark side too.
I mean, drugs that throw dopamine
through the roof, like cocaine and amphetamine being the two most common ones that do that,
they create a vicious loop where the drug seeking behavior itself and the drug become the only
source of high amplitude dopamine release. And so nothing else compares. And I define addiction as a
progressive narrowing of the things that bring you pleasure. We're not talking about that.
We're talking about taking subjective control of dopamine.
Dopamine and all the other feel good molecules,
the end, not the bad opioids that people get addicted to,
but the ones that you make yourself,
endogenous opioids as they're called, dopamine, serotonin,
those are all taken care of just fine
by all the evolutionary basics, right?
Food, warmth when you're cold,
cool when you're too warm, sex and mating,
all the stuff that we're hardwired to feel pleasure with.
But those systems are also available for subjective control.
And that's how we've been able to emerge
as the dominant species on the planet, right?
I mean, there's some other really smart animals, but we're the curators of the planet, right? We
own the technology, we build the technology. And there's a reason, which is that we can attach
dopamine and the reward system to anything. And because of the way it segments time,
you're able to say, okay, I did an interview. I finished it. And I now have, uh, some reward or
celebration. And now it gives me the, the, the energy to go another one and another one and
another one. If you just batched it by hours, well, then you would start to feel exhausted.
You would literally start to feel exhausted when you hit whatever mark that was really,
uh, I don't like, you know, to encourage gambling. Uh, I don't have a, I've said this several times. So people are going to start to wonder, I don't like to encourage gambling. I don't have a, I've said this several times,
so people are gonna start to wonder,
I don't have a gambling addiction.
I do, I find it fascinating to look at gambling
because it's all about dopamine and schedules,
but people are attaching their schedule
to the external environment.
Really good professional poker players play for time.
For sure.
Because if they play for how they're doing,
then it's a disaster. So they know how to play well, they have skill, but they play for how they're doing, then it's a disaster.
So they know how to play well, they have skill,
but they play for time.
So there are cases where you want to,
they actually reward themselves for being able to stop
whether or not they're up or they're down
at a given time unit,
because otherwise you're going to be controlled
by some external thing,
like the person took your stack of chips five minutes
ago and you're pissed and that can happen to anybody. So they know themselves better than to
attach their dopamine to something that they can't control. So in certain cases, you want to attach
it to its time. In some cases, I mean, this is the way teams can fight their way back from
devastating, you know, disparity in, in, uh, in scores. You look at great comebacks are about
attaching dopamine to just football's a really good example. Cause you get the next first down,
the next first down, like first downs are dopamine, right? That's what allows you to push down field.
And then look at the team that wins and the team that loses the team that wins. They fought hard.
The team that lose in a really good game, the team that loses, they fought hard and look at how much energy the team that one has for sure. That's dopamine.
And so you've, I've heard you say that, and this is super interesting when you talk about,
especially at the end of the game, if we take that example where one team loses, one team wins,
the team that wins, even though they probably put as we take the super bowl, they put as much energy
as they possibly could, both teams, which is a ton of adrenaline they're putting in going through
their body. But when the dopamine comes in, it actually buffers what I've
heard you say, the adrenaline, which then allows them to, it brings it down a little bit. So it
allows them to have more energy to keep going, which at the end they could have worked their
ass off and have nothing left in the tank. But when they win, it's just like, oh my gosh,
I've got all of this energy again. Yep. And we hear a lot, I mean,
sports nutrition is really important too.
You know, nowadays, a lot of people are ketogenic,
but you know, you can work off glycogen
from the liver and muscles.
You can work off body fat stores.
You can work off fuel,
but neural fuel is what we see
and what really makes us super impressed by,
you know, like the Steve Prefontaine videos
and people don't watch those.
They should, if you don't like running,
just watch a couple of those.
Like you will go running.
It's just, they're amazing
because he understood neural energy.
And I'm sure he took care of his nutrition
and everything else.
But look at the examples, David Goggins, Steve Prefontaine,
I mean, they're making rich roll.
Like there's so many examples in the endurance fields
where people somehow intuitively understood
that it's, when we hear it's 90% mental, I say,
and I say from a, because I'm a neuroscientist,
I say it's 100% neurobiological, 100%.
This is not muscle glycogen
that suddenly you get that reserve.
People talk about flipping the switch.
Oh, they like somehow flip the switch.
That's neural.
That's not glycogen stores.
That wasn't your ketones
suddenly got liberated into the bloodstream.
All that stuff matters.
But when you see truly impressive feats of athleticism,
or you see people who have fought incredibly long bouts
with cancer, or you see people who've come
from absolute abject poverty
and managed to get a university degree,
that's dopamine, epinephrine,
and all the other stuff we're talking about.
Sports examples just provide a more immediate
and concrete example that I think most people can,
if not relate to, they can look to
and when they know what we're talking about.
So that's why we're focusing on that.
But it's just a core set of kind of macronutrients
or ingredients in the nervous system
that allow it to change.
And everyone has them.
Some people do have clinically low levels
of these molecules and depression and
things like that. But there's also this loop where behavior triggers the molecules. So this is why,
and the molecules trigger behavior. So people with very low levels of dopamine or serotonin
will experience depression, which unfortunately makes them less likely to get into action to do
the things that increase dopamine and serotonin.
And so that's why I'm not of the stance
that antidepressants and things like that
are across the board bad.
They can help people out of some very deep trenches.
It's just that those aren't the only tools
that people should rely on.
And many people don't have clinically low levels
of those molecules.
They need to get into the specific types of action
that will allow them to ramp up these levels.
So these days you hear a lot
about how antidepressants are so terrible,
but antidepressants have saved a lot of lives.
But ultimately these chemicals were,
when I say designed,
I mean, they evolved in the nervous system and body
to reward certain behaviors and actions and punish others.
And we can take control of that process.
Yeah.
Yeah.
I read an article not too long ago that said that they think like 61% of depression is
misdiagnosed.
But I think what's important, what you're saying is that when people actually understand
what's happening in their brain and they can understand why they feel the way that they
feel, because there is this constant conversation between your brain and your body at all points
in time.
What you're saying is if somebody does happen to get onto depression medication,
what I think is important for them
to have knowledge like this to know,
all right, now that I'm on this medication,
how do I get myself out of this hole
versus doing the exact same actions I've been doing
that maybe got myself into this hole?
Absolutely.
And for people that rely too much on supplementation
or too much on nutrition, both of which I think are really important and I adopt for my own life, it can also be a problem. I have a friend who's an MD, a medical doctor. He has a great saying. He says, you know, better living through chemistry still requires better living.
There's nothing that's going to make you learn faster without a cost, unless you're also doing the correct things.
And I think that the nowadays, unlike 10 years ago,
I think there's pretty good general agreement
about what the foundations of good mental
and physical health are.
Get sunlight early in the day and in the afternoon,
avoid artificial light in the middle of the night,
whatever it is that, whether or not you're intermittent
fasting, you're vegan or you're carnivore,
it doesn't matter to me, get on a nutrition regimen that allows you to be focused
when you need to be focused and sleep when you need to sleep. Good social connection, exercise.
I mean, breathing and that we now, I think is pretty well generally accepted, especially after
2020, that having a healthy respiratory system is good and can afford you some resilience and
other things. I mean, these are, it now almost sounds redundant. You know, if someone's spending time on Instagram or they're
paying attention to what people like you are doing or Jay Shetty is doing and some of the stuff we
talk about on my podcast, you know, then this stuff sounds redundant. But for many people,
I think they're kind of wondering where are the power tools? The real power is in establishing a really strong foundation.
And the really strong foundation comes from practices that are geared toward making sure
that the dopamine, epinephrine, and serotonin systems and acetylcholine systems, that they're
there and ready and available for use.
Because you only have to sleep deprive yourself for a few nights before all the stuff that
we just talked about will not work.
You only have to eat poorly for three or four days in a row
and spend too many nights out drinking
when you will forget everything you learned
and you will have a panic attack three weeks later.
So there's this relationship
between the high performance stuff,
the really leveling up stuff and the foundation.
And I've been very fortunate to do some work
with US and Canadian special operations.
And one thing that's so impressive
about people in special operations
is that they, sure, they spend a lot of time
doing really high level, super sophisticated,
highly trained stuff.
It's super impressive.
But they spend a lot of time for their entire career
on fundamentals and just making sure
that their nervous system
is ready to do all that other stuff.
And I think today there's been a little bit,
we hear so much about becoming superhuman
or people, these superpowers,
that people are underestimating the value
of having a really strong foundation on the house.
And this is why the work that, for instance,
guys like Matt Walker have done
talking about when, why we sleep.
I've never met Matt, we've met once actually,
but I think, so just to be clear,
we don't have any professional relationship,
but I think what he did was so powerful
because he really just said,
look, the superpower lies in this thing
that we should all be doing very regularly.
And I think that you have to have the foundation set.
And once the foundation is set,
the rest becomes very straightforward.
Now, if people are very depressed, sleep becomes a problem.
Eating becomes, either overeating or under eating
becomes a problem.
And so you can, socializing becomes a problem.
And so you can start to understand why some chemical support
might help to get everything scooted back into place.
But anyway, I'm kind of editorializing on this here,
but I think that high performance is great
when you've got all the basics,
but the basics themselves, that foundation,
can take you to exceedingly high levels of performance
in all areas of life.
And that includes relationship and just living your life.
I realize that not everyone's out there trying to, you know,
hit that next super high rung.
A lot of people are, but a lot of people are,
especially right now coming off 2020, a lot of people are like, look, I just want to go from back of my heels to flat footed.
For sure.
The same principles apply.
So they can just celebrate feeling flat footed again. And so it's important because if you
start thinking about this and people say, okay, well now this is, I feel like they have a foundation
of a little bit of an idea of what we're talking about and how to get that working. But one of the
things that's super important in this
is to get the acetylcholine in the adrenaline and everything
is that they have to have focus to be able to do that.
That's right.
So for someone that's out there
and they want to figure out how to have more focus,
one thing that I've kind of accidentally
just started doing this for a while
was when I need to really get something done,
like to sit down and script out episodes takes a lot of mental energy for me is I have a routine that I stick to.
And it's, I put on my headphones, I play the exact same binarial beats on that's three hours long.
And I get coffee, which I've heard caffeine helps in that. And I'll chug an entire cup of coffee
or tea. I'll have my headphones on. I'll have the song on. And then since listening
to you talk about it, I will literally stare at my screen and try to make my eyes as big as I
possibly can and feel, which is really important now that I've realized, feel how the actual room
starts to disappear on the outside of my eyes. And literally just the computer is the thing that
I see. And I can feel the actual chemical cocktail start to go,
all right, now it's time to go.
Yeah, that's great.
So caffeine increases at levels of epinephrine
and dopamine to some extent, a little bit.
It's inappropriate doses, it's great.
People are really caffeine sensitive.
It can make them feel like they can't sit down.
And people vary a lot.
Or if you're like me,
I'm probably pretty caffeine sensitive,
but I've just blitzed my receptors for so many years.
So it's not a good thing to do,
but these days I actually drink a lot less coffee.
I drink mate or something that's a little bit more even.
Yeah, I love yerba mate.
What's that?
Actually, yerba mate has become my focus thing now.
It's great.
I mean, I have Argentine lineage, so I'm biased there,
but it's great because it has caffeine.
It also has electrolytes and it has this thing called GLP-1,
which can stave off hunger.
And a little bit of hunger is actually good for focus
because it ramps up adrenaline.
And seeking food is one of the primordial ways
in which our species learn to focus.
Because if people have this idea,
if I don't eat, I get lightheaded.
That might be true if you have some blood sugar regulation issues.
You'd need to eat eventually,
but typically not eating is the way
that our species went and found food.
So it actually enhances focus.
They didn't just walk through the woods
like firing arrows off in random directions
and hope you hit an elk, right?
So some level of underlying hunger actually can be good.
Hydration's good too.
I usually skip lunch
and Dr. David Sinclair is on my podcast and he usually skips lunch as well,
is what he says. And I notice if I have the Yerba Mate, the headphones, all of that stuff on,
and then I'll have dinner later on, it's like hyper-focused for, and I've heard you talk about,
for like 90 minutes. I can just go. Yeah. Yeah. David's great. I think the idea of skipping one
meal a day really works. That's something I've done. I tend to skip the first meal of the day. It's a little easier for me. The visual focus part is really important. I'm glad you mentioned that because our cognitive focus, our ability to focus and pay attention to one specific thing or two specific things, we can move between two, but to not be scattered and looking at our phone all the time and to do what Cal Newport would call deep work. I'm such a huge fan of his over many
years now. So if people haven't seen that, I think that's an amazing book. But that ability
comes from an ability, of course, to limit distractions, but the visual system is the
dominant driver on mental focus.
And these two little bits in the front of our face,
those are two little pieces of brain.
They are the only two pieces of our central nervous system that are outside the cranial vault.
The rest is the spinal cord and brain.
But our eyes, our neural retinas are part of the brain
and they're out here in the front of our faces
so that we can know when it's daytime
and when it's nighttime,
when to be alert and when to be asleep.
They're also out here as opposed to someplace else so that we know know when it's daytime and when it's nighttime, when to be alert and when to be asleep. They're also out here as opposed to someplace else
so that we know what to focus on.
And so if you're gonna sit down and do work,
there's great power in spending a few minutes
at the beginning, focusing visually on something,
anything at the exact distance from that work
that you're gonna perform.
Now that doesn't mean YouTube or something,
although I enjoy YouTube. I wanna be really clear. I'm not one of these anti-social media
people. I'd be a hypocrite if I said that because I use it and I provide content there.
But if you focus on like a little crosshatch or your blank screen or at a point on a wall
at approximately the same distance, what you're doing is you're creating the tunnel.
I actually have a little note. I've never said this to anybody. I hide it every time somebody
comes over to my house, but I have a little sticky right above where I do my writing and my deep work
to steal the Cal Newport phrase of deep work. And it just says like, find the tunnel, get in the
tunnel, stay in the tunnel. And when I find my, I look back to that thing and it's just about,
I mean, cause I, I like you, I've got email people that need things from me.
I've dropped the ball with people.
I, you know, there's anxiety about what I'm not doing,
all those things just to find my way into that tunnel
for 90 minutes or so.
Cause these 90 minute learning cycles,
these ultradian cycles are pretty optimal.
And I might spend five to seven,
just absolutely aggravating minutes
trying to find my way in.
But you can, like you said, you can feel it click over.
And at that point, a nuclear bomb could go off
and I'm not gonna stop doing what I'm doing.
And I actually learned this when I was in graduate school,
cause I used to cut brains on this thing called a microtome.
It's like a deli slicer.
You used to cut brains though, you just said?
Yeah, I used to cut brains.
Yeah, I do still.
Just casually.
I still do a lot of, yeah, we record to cut brains. Yeah, I do still. Just casually. I still do a lot of, I still do a lot.
Yeah, we record from human brains.
I mean, we cut brains after, you know,
not from live people, the sectioning brain tissue.
And there's a rule, it's like a,
the microtome is like a deli slicer,
but you're cutting brains
and you take the little slice of brain,
put it in a little dish and you stain it
and you put it on your slide, take a picture,
whatever it is you're interested in.
It's actually very satisfying.
And there's a rule which is-
You realize to the average person
how crazy this sounds, right?
Yeah, well, these brains came our way
through ethical means.
Yes.
The moment that blade hits the brain,
if you stop or move too quickly,
you completely damage the tissue
and it's very valuable tissue.
So you learn to just focus your eyes on this thing
and just pull and then, and it's so valuable tissue. So you learn to just focus your eyes on this thing and just pull and then,
and it's so satisfying to get into that zone.
But when, before smartphones, you know,
it was much easier to do, but it was still challenging.
And so the first couple slices on this thing
were always subpar, but you come out of it
and you feel amazing.
And people should also take,
it's not just because you're cutting brains,
this would also be, you know, typing or working of any kind. It also happens in conversation when
you, you know, it takes time to break in and then you get in the tunnel. And when you leave that,
as you said, you want to, after about 90 minutes or so, you want to reward yourself for it. Take
a little break. People talk about the Pomodoro technique, which I think is like 20 minutes on.
25 on, five minutes off.
So, so that could be great. I think it, 20 minutes on. 25 on, five minutes off, yeah.
So that could be great.
I think you pack two or three of those
into a 90 minute cycle.
I find during the five minute thing,
if I pick up social media, I'm gone.
I'm in a different tunnel.
And that tunnel, and hats off to them, I have to say.
They know what they're doing.
They know what they're doing.
They know a lot of neuroscience.
In fact, there's some folks there,
I have not been advising them,
but they know their neuroscience
because what you want in order to put yourself in the tunnel
is a ton of novelty.
And there's nothing as novel as a scroll,
Australia, Europe, basketball, skateboarding, podcast.
I mean, like what's on road,
like all these things are coming through.
They're in a fight.
Oh my goodness.
Comments, you're literally time traveling in this little tunnel.
Of course it pulls you in.
When you sit down to write your book or you sit down to do anything else, you're not going
to get the level of novelty because you're literally digging a hole into something conceptually.
And social media is throwing at you millions of concepts, which itself is not bad.
Like I said, I really enjoy it.
But you have to understand
what your attentional mechanisms are up against.
And I will say this, it's great to be a consumer.
I love consuming content.
I find the internet to be just an,
I'm so happy I'm alive at the time in life,
you know, history when I am.
There's so much great stuff out there
that you can access now.
But if you're going to be a consumer, terrific.
But if you want to be a consumer and a creator,
you're going to have to get really comfortable
with the agitation and boredom
that comes from your own deprived little universe
of not created yet.
But the twist in that is everyone is following the creators.
The consumers are following the creators.
So there's no way around
this puzzle. So getting good at focus using your visual system, and it sounds like you use auditory
as well. There's some people, I should finish that statement, getting good at that, the visual system
using that, using the auditory system, that's a power tool. So it's great. You've done that with auditory. If you're feeling really
ramped up, sometimes too much sound around can, you know, be distracting. If you're feeling
tired, then you can use the auditory system to wake up your nervous system because
music or something, you can draw back focus because we wake up from sleep because we hear
a loud noise. So auditory cues are very big wake up signals for the brain.
Yeah. I've also heard that you can kind of,
I've always just put on the same song
because it was just easy to put on the same song,
but I've also heard that you can almost like,
you know, what is it Pavlov's dogs,
where you just, you're training your brain to know
that we're about to go into this.
Like I listened to the exact same five songs in a row when I'm stretching to work out. I listened to the exact same song when about to go into this. Like I listened to the exact same five songs
in a row when I'm stretching to work out. I listened to the exact same song when about to go
in different songs, but the exact same song when I'm about to go into work. So is, is there a sense
of that? Is that true as well? Where you can literally train your brain to know what it's
supposed to do at the next moment? Yeah. I think it's that when you, right, this used to, um,
this used to occur more when people listened to entire albums.
Now, because of playlists and the way that you can shuffle and the way that programs
will self-select for you, or will select for you rather, it's not so common, but it used
to be that if you listen to an album, you could anticipate the next song right as the
previous one ended.
And if a different song came on, you'd be like, wait. So that's, and that's dopamine.
That's time segmenting with dopamine.
That's like you're anticipating.
Remember, it's about motivation, anticipation,
and what's coming next.
And so if you repeat the same song, that's good.
What you're trying to do is get into a bit of a time warp.
One thing that I think is really useful
for people who are easily distracted
is to really pinpoint what you're being distracted by.
Is it the feeling that somebody needs you
and you're not gonna be available?
A lot of people who are like real caretaker types,
they feel like, oh my goodness,
if someone were to reach out and I'm not available, whatever.
Other people who they find they're cleaning
the whole house when they have something important to do.
Both those types of people, just by identifying that's what the issue is,
then you can make it a bit of a game.
I'll sometimes do this.
I like a really clean workspace,
but I don't always accomplish that.
So I've actually recently, I'm like,
I wanna see how focused I can get amidst chaos.
Now I don't destroy my house or anything like that,
but I just notice how the challenge of not like cleaning up
the coffee stain on my desk or something is pulling me. But I know you're the challenge of not like cleaning up the coffee stain on my desk
or something is pulling me.
But I know you're building a sort of resilience
by pushing away from that and being able to refocus.
And I learned this actually
because several of my science colleagues
are incredibly productive, incredibly smart,
and their offices are incredibly dirty.
And it was like, not dirty, but just messy.
I was like, how do you work in this place? And I realized they have incredible powers of focus. They don't
care that they're in a mountain of books. It's just, they don't, they don't see it and they
don't see it because they choose to pay attention to something else. So I've, I've been playing this
game with myself recently of not trying to have optimal conditions all the time. I think we, we overstate optimal. Um, I think you had rich, you talked to rich Divini, you know,
it's really just defined this principle really well as it relates to all sorts of domains of
performance. You know, when, when we seek optimal, then the moment we sense 5% off from optimal,
we can dissolve into a puddle of tears. Sometimes it's good to train
our mind in cognitive endeavors and sports endeavors, et cetera, emotional endeavors in
suboptimal conditions. Right. You know, and you don't want to, you don't want to defeat yourself.
You don't want to have the really hard, important conversation when you're two days sleep deprived,
but you know what? Sometimes it's good to be able to have the hard conversation when
you're exhausted because you get better at doing that sort of thing.
For sure.
So for people who are out there and they, I, you probably get messages all the time
because you have a big social media following.
I get messages all the time of like, I can't focus.
I don't know how to focus.
So what's an easy plan for someone listening to all that we just said to go, all right,
I need to sit down and need to crank out emails or whatever it is they need to do.
How do I go from, I'm doing something around the house to, all right, I've got to get down and
be super focused right now? Yeah. So I can think of three ways. One is ritualize it,
right? And you talked about that. So I'm a big believer in setting one 90 minute work block
early in the day. That's when I do my best highly focused work. I try and not schedule anything
around that. I accept there will be agitation. I accept that there will be noise outside. I just, but I make that 90 minute segment wholly.
I just, nothing's going to get between me and that. And then I try and get another one in the
afternoon where it's more creative type work, which tends to go, creative work is favored by
slightly sleepier states where your mind isn't quite so rigid. So I try and do that. So one way
is to ritualize it and set it for 90 minutes. I use the program freedom where it locks you out
of everything on the internet. Oh, nice. On a computer or phone?
On computer. I'm working mainly on the, on the laptop. I think it also is for the phone. So
freedom's great. You tell yourself, but I have to look something up. You write it down. You look it
up later. It's fine. I look up a lot of stuff. So it's there. The other one, which, so that's number one.
Then that's what people really should establish
on a regular basis,
if they're interested in creating anything.
The other is deadlines.
Those are great.
A lot of people like myself will wait till a deadline hits.
Here comes the adrenaline, you're in the tunnel.
Because now what you've done is you've created something
that supersedes all other demands.
And we have a social
contract where we can say either my kid needs something or I have a deadline, right? Obviously
the kid thing is more important, but I don't have kids. So that excuse doesn't work for me. And I've
never pretended to have them just so I could, you know, get out of doing things. So having a deadline
is great. That'll put you in the tunnel much more so actually than having a big incentive, right? You know, many people have shown that people are more willing to work for
what they have to avoid loss than to gain. So, but the one that falls in between is really the
one that I think is overlooked often, which is not just ritualizing these work schedules
and optimizing them, not just having deadlines where it's external, but where you deliberately create
a situation that is on the face of it, not consistent with optimal performance. So that
means you're in the airport or you're ready to leave work and provided that there's no one waiting
for you, you sit down and you punch out 45 minutes worth of really good text because you know you can,
but you're the problem with the
optimal zone of 90 minutes. And you know what that's like, that's a lot like needing everything
to be perfect in order to work out. Chances are over time, especially as you become more successful,
you're not going to be able to optimize as many things. People don't realize this, but this is
actually a tool that I incorporate. I have a good friend who was also in the SEAL team.
His name is Pat Dossett.
And he'll sometimes say like,
can you run on Thursday at 4.30 a.m.?
And I'm like, oh my God, 4.30 a.m.?
Like I can, but, and I'm thinking that'd be a lot of fun.
We've had some great swims and runs early in the morning.
Those guys love early morning in cold water.
So sure, I'm not gonna run as well as I would at 10 a.m.
because that's when I'm really,
you know, warmed up, but doing that actually has its own virtue because you're training your body
to be responsive to your demands, your mental demands at any time. So you can create a nervous
system that is primed for success in optimal conditions and in suboptimal conditions.
I actually have experienced this in workouts too.
I love working out late mid morning.
It's clear I'm warmest about three hours after waking up,
after I have two cups of coffee and this and that.
But then if you don't have that,
then all other workouts feel like they're subpar.
So what I've started playing with now is just,
I try and schedule it for different times a day
so my nervous system is always ready to work.
And that way that works much better
with the kind of schedule I have with a lab and a podcast
and all these other things.
So I think creating some variability in your schedule
is also good.
And I don't think we ever wanna become so attached
to a regimen that we can't perform outside of that regimen.
And I think that's one that I'm glad
that people are starting to talk about, but that certainly I could incorporate more of in my own life. And I've
seen how amazing it is when someone's like, Hey, I got this thing to do before dinner. I just need
like 35 minutes and they flip open the laptop. I have a friend, she's a designer and she can just
like drop into the zone. Like, how do you do that? She's like, Oh, it's called having three children.
You know, she's just learned how to do it amidst chaos.
Yeah.
And she's extremely successful because she can enter the tunnel really quickly and exit it.
You know, one thing we should probably say is that exiting the tunnel is important too.
If you're going to sit down to dinner and your brain is still churning on the previous thing,
you're not really available for social connection.
And that's not just bad for
the people in your life. That's also bad for you because that's where you reset in theory.
And I'm somebody that struggles with this a lot. I go deep into the trench and it might take me two
hours to stop thinking. So these are things that, you know, obviously it's a process,
you practice them, but learning how to pivot is really good. In certain communities,
they use physiology to pivot. So nowadays it's kind of customary, not customary, but more and
more I'm seeing meetings where they're like, okay, everybody, we're going to do some breathing. We're
all going to drop in, but there's no offload. And so when I finish a 90 minute work block,
I actually will do, I'm a big fan of these physiological size, the double inhale exhale
as a way to calm down. And I'll do that. And then I'll go out onto my porch and I try and get a big vista,
see a horizon and really expand my view. And then think about what I want to do next.
Because otherwise my brain is still subconsciously processing something. I'm on a call with somebody
and they're saying something. And then I'm asking, wait, sorry, I'm just not in the call.
And it's not because I have poor powers of attention.
And I think a lot of people think they have ADHD.
Maybe they do.
But I think a lot of people are thinking
they're so distracted
because they've never learned how to get in the tunnel
and they've never learned how to stay there
and they've never learned how to exit the tunnel.
That's super interesting.
And so I think we need to think more about practices
about exiting the tunnel.
There's not a lot of science on that,
but there's a little bit.
And that has a name.
It's called task switching.
Yeah. And being really good at life
means being really good at task switching.
For sure.
Yeah, I'm good friends with Aubrey Marcus.
And I know you guys were texting this morning.
And I know you were on his podcast.
And one of the things you were talking about
is sitting down to write, which I started,
I hate emails more than anything else in the world.
Like I have an assistant that just does my emails for me. Like, I'm like, this is the first thing I want you to have. And then she does
other things as well, but she's amazing at it. But there are certain emails that I have to respond to.
Right. And one of the things that I got from what you guys said is I'll sit down knowing that I got
to do emails and I feel this massive amount of resistance to it. And I'll sit down and I will
just make myself type. Today is Thursday. I'm wearing a gray it. And I'll sit down and I will just make myself type.
Today is Thursday.
I'm wearing a gray shirt.
And you talk about when you feel the resistance,
just kind of ease your way in where if someone's writing a book,
like I'm in the middle of writing a book,
sit down and just type.
Random stuff doesn't have to be anything.
And that resistance tends to go away.
Like you're saying that five to seven minutes.
And then you're kind of just in the flow at that point.
Yeah.
A lot of it is, that's a great practice. I'm going to start to adopt some of your practices
that are really, because a lot of it is motor, just shifting the brain over to a new sequence
of motor commands, right? I mean, we all have this kind of Walden Pond fantasy, right? I'm
going to go to Walden and I'm going to just spend time there. I'm going to get this perfect little
cabin in the woods and I'm going to write. No, you're not. Your iPhone's going to go to Walden and I'm going to spend time there. I'm going to, I'm going to get this perfect little cabin in the woods and I'm going to write.
No, you're not.
Your iPhone's going to be there or your Android phone, excuse me, whatever it is you use,
it's going to be there and you're going to have the entire universe there with you.
Forget it.
That freedom program really does help, but getting into the motor action really helps.
And I think that you also point out something really important, which is that
do not expect to, well, let me phrase this differently. You don't walk into the gym and
expect to hit your PR on the first set, right? You just don't, you warm up. The brain needs warmups,
especially when you're pivoting between different activities, because creative work is very
different than strategy implementation.
Strategy implementation is you know what you wanna do,
you implement it.
Creative work is I need to come up with a strategy,
I'm gonna start rearranging things in my mind.
It takes time and we all have natural proclivities
towards certain things and not others.
You know, I have a bulldog, he's great at chewing,
he doesn't fetch, right?
We are bulldogs, retrievers, you know, whippets,
we do it all.
That's what's so beautiful about the human nervous system. Some of us are more optimized for
certain things, some for others. Developmental experience shapes us somewhat. Sure, we have
different physical attributes, but the fact of the matter is that we really can do creative work and
focused work, business work, email. those are all very different cognitive commands.
And here I'm really, and again, I've never met him,
but I'm just a huge fan of what Cal Newport has done.
And he has this phrase that really rings in my mind
and comes to mind, especially now,
which is that context switching is deadly for productivity.
And when you move your eyes from the book
that you're writing to your day planner, that's a context switch.
And the most dramatic context switch is to social media,
because now you're actually saying, you know what?
I'm gonna let somebody else's context drive my context,
which is fine.
That's why we watch movies.
That's why we listen to comedy or go to concerts.
That's beautiful.
But when you're trying to be productive, you have to control the context. And one way I do that now I'm really revealing all my dorky little
things is I like, I've been working on this book for far too long. And there are a couple of people
that I'm working with that I'm accountable to, not because they're saying, Hey, where's the book?
They're saying that also. Um, but because I really like them and I care about those relationships,
but you know, I have a lot of relationships in my life I care about. But because I really like them and I care about those relationships, but you know,
I have a lot of relationships in my life I care about. And oftentimes I'll sit down to write and
I'm thinking, oh, my lab needs this from me or my dog needs that from me. So I actually will bring
to mind the specific people that I'm working with while I'm in that breaking in phase. I'll bring up
the document and I'll think about, this is embarrassing to reveal, but I think about, you
know, I really enjoy working with Jim and Ariel think about, you know, I really enjoy working
with Jim and Ariel and I'm so like, I really like, and suddenly I've got the energy to work on this
thing and not think about all the other stuff. And so the brain is very contextual. It tends to think,
what are the people, places, and things that hover around this particular endeavor?
And if you're inviting everybody into that process, you don't stand a chance.
But we also have to remember
that we can't be completely tunnel vision, right?
Those people, we know them, I won't name names,
but there are some very famous people
who are exceedingly tunnel vision.
They are the ultra, ultra high performers.
And most of the time, not always, but most of the time,
people either don't like them
or they don't like themselves or both, typically both.
And so if you wanna have a balanced life
and a super productive life,
you have to learn how to enter the tunnel, exit the tunnel.
And enter the tunnel is also,
I guess what I'm talking about is like,
you create the tunnel, then you enter the tunnel,
and then you have to stay there and then you have to exit.
So it's like anything else, it's a process.
And I think neuroscience has things within it
that point to each one of these,
but they mainly are the elements of focus by definition
is non-distraction.
So we think too often about, I'm so distractible.
Think about focus.
Don't think about how distractible.
Do take on practices like the ones you described to incorporate focus. And then we tend to think, oh, you know, I obsess or something. Well,
develop practices to expand your context. And the best way that I know to expand context is the same
way I know is the same as the best way to get into focus, which is use your visual system.
When you view a horizon or you expand your field of view,
you literally start batching
your assessment of time differently.
And so the visual system can be a great ramp
in and out of what we're calling focus or work.
Love it.
Yeah, I mean, the only thing I would add
is that the expanding your view can be practiced also,
just like you can do it away from the actual work,
which is you just try and see your physical body
without moving your head or eyes
while in the environment you're in.
So you're trying to see the ceiling, the floor,
and the walls and yourself in the environment.
And that's, we call it panoramic vision,
but as you dilate your vision,
you pull off the accelerator
of your stress system a little bit. When you
focus, you're hitting the accelerator a little bit. And so your brain is amazing because it can
contract and expand your view, literally, but it also can contract and expand the way that you
slice up time. And so I like the idea of your binaural beats practice
because I don't know a lot of the science
around binaural beats,
but it's clear that metronomes or beats
are the way that we batch time.
And so if you go on vacation in a place
where there's no internet connection,
your day becomes the unit of time, right?
So much can happen in a day, right?
But if you're in a place where
there's a lot of other elements,
like a typical day in civilization,
electronic elements,
then you're slicing time up differently.
The best way to explain this perhaps
is if you've ever been in line at the grocery store
and you're very relaxed,
the person in front of you could be returning an item, whatever you're fine.
Because when you're very relaxed, the external world seems to move either at the rate that you
are or more quickly. If you're tired, everything seems like you wake up. Oh my God, I've got so
much going on. You open that email. I guess you don't know someone else opens your email and
there's a ton there. I'm jealous. And there's a ton there. I'm like, oh my goodness. And that's because you're batching time in larger
increments. Yeah. Yeah. But when you're stressed, like you have to get home or someone's waiting
on you and the person in front of you is taking some time and checking out, they need to get a
return on an item or a price on an item feels like forever because you're slicing up time very
finely. So it seems like everything else is moving very slowly.
Yeah, I had a friend who was in a car accident and he said it rolled over a few times
and he can literally see the glass in slow motion.
And so the way you're explaining,
it's almost like, you know,
I have a lot of cameras when I shoot all of my stuff.
So it's like all of these cameras
keep getting better and better.
And it used to be like 30 frames per second and 60 frames.
And now they're up to like 180 frames per second.
So what you're saying is when you're at that heightened state of when you're super focused, it actually is like your
brain going from 30 frames per second to now it's taking in 180 frames per second. It's more
information's coming in in the exact same amount of time. That's right. And in combat sports,
there's this experience that people describe of, it looks like things are coming in in slow motion,
but they're moving really fast. They're out timing people. And there is something kind of special
about the ability to segment time really finely. But if you do that in a state of stress,
then you don't actually have smooth muscle control because of the way that stress shuttles fuels to
the center of the body, you kind of lose peripheral blood flow and and and so people in a lot of high-performing communities
not just combat sports but people who are involved in all sorts of you know advanced warfare these
kinds of things um they learn how to be very alert in their mind but relaxed in the body
and we hear so much about unifying the brain and body.
Like you want to like link the brain and body.
Well, that's great when you're feeling great.
That's not great when you're stressed, but the stress,
the epinephrine and high levels of epinephrine in the brain
and high levels of focus with a really supple responsive
nervous system and body out here, that's the matrix, right?
That's, I see your punches coming in like arcs,
even though they're actually straight trajectories.
That arcing, that visualization,
that's panoramic vision.
So people are staying in panoramic vision.
And maybe we could talk about this
in the kind of a workflow mode or sport.
When you blink, you reset time.
There's a beautiful study published in Current Biology,
it's a cell press journal, it's an excellent journal.
And they showed that when you blink, it's linked to the dopamine and other published in Current Biology, it's a Cell Press journal, it's an excellent journal. And they showed that when you blink,
it's linked to the dopamine and other systems in the brain,
and you actually reset time perception.
So one way actually you can get better at focusing
is you don't want your eyes to dry out,
but you can practice not blinking while looking at the page.
If you feel like, okay, this sentence, it's almost there,
I'm almost there, actually try not to blink.
Now you don't want your eyes to cross,
your eyes to dry out.
People do suffer from dry eye, et cetera.
I've been teased various times
about being a non-blinker and people like,
that means you're a sociopath.
Okay, for the record, there is no data.
There are no data, excuse me,
that blinking and non-blinking relates
to stress or sociopathy.
But guess what blinking does relate to?
What?
Fatigue.
So I have a colleague
at Stanford, David Spiegel, who's a clinical expert in hypnosis. He's our associate chair
of psychiatry. And I said, what is this whole thing that you guys do when you hypnotize people
for medical treatments and pain relief and where you have them look up and then close their eyes
and their eyes roll back? And he said, well, simple. In the brainstem, the areas that control
our levels of alertness or calmness,
there are connections to the areas of the brain
that control the eyes, but also that control the eyelids.
So we take it for granted that when we get sleepy,
our eyes start to flutter and we kind of do this, right?
So when we're really alert, what happens?
Our eyelids stay open.
And so if you want to focus,
learning to keep your eyes open really helps.
Now you don't want to be like this, you wanna be relaxed.
But there's so many basic things about the eyes,
these little shutters that we call eyelids
are linked to our levels of alertness.
And alertness and focus go hand in hand.
And you have to be very, very stressed
before you can't focus.
People like, well, I don't wanna be so agitated
that I can't focus.
That's called not wanting to be agitated.
Being able to focus relates to your ability
to keep those shutters open, your eyelids,
and literally just focus on what you need to do.
And the rest of the brain will follow.
Yeah, low level stress is actually,
I've heard you say is, chronic stress is not good,
but low level stress can be good for these things.
That's right.
So low levels of stress defined as blips
in your cortisol and epinephrine that go up and go down, do many things. First of all, they liberate killer cells from the immune system. People always say, oh, stress destroys your nervous system tells your spleen and your other organs to deploy killer cells.
And then when you finally relax,
you go on vacation or the final exam is over,
the thing is, that's when you get sick
because your immune system shut off.
Now you don't wanna be in chronic stress.
I think the real power is to be able to
get yourself into states of alertness
and then toggle down, learn how to like hit the,
there are two ways to slow down in a car, right?
You come off the accelerator and you can hit the brake. You wanna learn how to like hit the, there are two ways to slow down in a car, right? You come off the accelerator and you can hit the brake.
You want to learn how to do both.
But stress itself does all sorts of wonderful things
to the nervous system and levels of focus,
your ability to learn and remember.
And that's the utility of stress.
But we're talking about level two or level three stress,
not panic where you can't, you know,
tap the keys on the keyboard or where you're quaking while you're giving public presentation. But we've so overemphasized the
need to be calm all the time. Cool, calm, and collected comes from being well-versed and
practiced in what you're trying to do. It doesn't just come. You don't get that. There are no
freebies. And I don't want to sound harsh, but it's like, these are biological rules that I think
that once we're honest about, and then we can confront them much more easily.
And in addition, there are great tools to so-called hit the, hit the brake or come off the accelerator.
And we're talking about using vision, dilate your vision to come off the accelerator, focus your vision, blink a little bit less, although you will have to blink sooner or later in order to focus more.
And the hitting the break type stuff, the ultimate hitting the break is sleep. And then there are
other ones like breathing practices and other things that allow you to, you know, truly calm
down. Yeah. There's one, you know, if, if people are in the brain hacking world or the neurotropic
world, there's one that's the average person doesn't really hear much about, which is nicotine. And then I've, I've, I don't... For ramping up and focus.
Right. So yeah. So there's, so what my best friend one time was like, Hey, we got to get a lot of
stuff done. We were working on stuff. He's like, just take these, one of these little nicotine
tablets, like half of one. That'll do it. And you'll notice the focus and we're not, I'm not
condoning people just go and start smoking cigarettes or that can, cause they can be very
addicting from what I've heard.
But what I've heard you say is that acetylcholine,
the shape of it's very similar to nicotine.
It actually attaches to the same receptors, correct?
Yeah, so acetylcholine binds two kinds of receptors.
One are called muscarinic receptors.
The other are nicotinic receptors.
So nicotine, the substance, whether or not it comes from a cigarette or Nicorette,
or nowadays people have these Nicorette dip toothpicks and things like that, you can buy nicotine, the substance, whether or not it comes from a cigarette or Nicorette, or nowadays people have these Nicorette dip toothpicks and things like that. You can buy
nicotine. It will increase acetylcholine. Now I'm, first of all, I'm not a physician. I always just
say no one should adopt or remove any medical treatment, you know, or pill or potion or
anything, unless they've consulted a board certified physician. And I don't just say that
to protect me. I really say that to protect people because some people are very nicotine sensitive.
It's like in, well, maybe or maybe not in high school,
someone brought out a can of dip
and it got passed around.
That's nicotine, right?
Three of the five guys that were there
turned Kermit the Frog green.
Okay, Kermit the Frog green, right?
Some people respond to nicotine feeling pretty good.
Other people literally feel sick.
It's like a poison and they vomited pretty soon after.
So people vary and they vary in their dose response.
For certain, you know, certainly not for kids,
but for certain like demanding high workflow type environments.
Sure, some people benefit from it.
Other people, it's too much agitation.
I have friends who dip Nicorette all day long.
Yeah.
Won't name names, but these are very, very successful
people and they love it for its stimulatory effects.
But I also know people who drink, you know,
six espresso a day.
Yeah.
So the best thing is to be able to access these things
without pharmacology, but that's the reason that works.
So that's gonna give you focus.
And then of course, there are a lot of people that are do a ton of things to get defocus,
you know, alcohol, THC, and those obviously, you know,
they're legal in certain contexts and not in others.
The problem is they don't have really good
on and off switches.
You can't suddenly go from, you know,
two glasses of wine into being able to focus again.
And there, some people are very sensitive to alcohol.
Some people are very prone to addiction.
Other people are not. I've never really liked alcohol. So if tomorrow or
today, all the alcohol in the universe were gone, I wouldn't even notice, but some people would be
devastated. Yeah. And so it, it, it really varies. But if all the caffeine in the world was gone.
Yeah. Let's not talk about that. So, so yeah. Yeah. So the, uh, the thing that, that I love that you say though, is, is it kind of put
into context when I realized like a little bit of stress is actually not a bad thing. Right. And
one thing that you said is, is a lot of times when you're feeling a lot of frustration or agitation
towards doing something, it actually means at that point in time, you're doing it right.
That's right. Yeah. You're getting the, the chemical signals that your brain needs,
that your nervous system needs to make the changes so that you can come back next time
and do it reflexively. The brain and nervous system has two, essentially two modes. One is
to do things reflexively. So that's anything that you were born into the world already knowing how
to do, like breathe or heartbeat or digestion. Babies don't have to learn that. So that's purely
reflexive. But also once you learn how to walk, you don't think right foot, left foot.
Yeah.
Okay, unless you have an injury and you're relearning.
When you learn, you have to think about three things,
duration, how long to do something,
path, what should I do,
and in what sequence, and then outcome.
What are the results as I'm doing this?
And that takes work, that's the agitation.
Now the goal of course,
is once you have that agitation repeatedly,
you get things right, you have some sleep in between,
your brain rewires, it becomes reflexive.
You'll get the Pink Floyd song
and you'll play it reflexively eventually.
And you'll be able to look back and like,
I can't believe that was so difficult.
But when you're in the duration path outcome analysis mode,
then it takes work.
And there's no way around that.
There's no pill that will do that.
I have a lot of friends that work,
I have a few friends rather that work at Neuralink. And it's super exciting that will do that. I have a lot of friends that work, I have a few friends rather, that work at Neuralink.
And it's super exciting what they're doing.
You put chips in the brain,
you stimulate neurons,
you're going to get brain changes in some direction,
presumably to heal diseases,
hopefully first,
and then maybe learn languages and things of that sort.
But we still don't know the neural code underlying language learning.
What we understand are these
very broad neurotransmitter systems.
So it is going to be
many, many years. I'll bet all my limbs on this, that it'll be more than 10 years before you can
accelerate a process simply by dialing in the right activity of neurons. It's going to be first,
presumably by increasing the amounts of certain things like acetylcholine. That day will come
when you could do that with a machine. Right now you can do it through the sorts of certain things like acetylcholine, that day will come when you can do that with a machine. Right now, you can do it through
the sorts of practices we're talking about.
You can do it through pharmacology.
I mean, a lot of the ADHD drugs, they are amphetamine.
Let's just be honest.
Adderall, those things,
they increase dopamine and epinephrine.
They teach the brain how to focus
by increasing levels of alertness and agitation.
Now, some people benefit from them greatly,
other people not.
Unfortunately, there's a lot of recreational use of those.
And if you rely on pharmacology too heavily,
the problem is you will always need it.
The systems don't care if you're getting it from a pill
or the systems in the brain
or from your own motivation and focus.
So that's a problem, right?
That's drug dependency.
So I think that a lot can be done
by setting the foundation of sleep, nutrition, light, etc.
And developing practices, none of which cost anything.
They're all zero cost.
They take a little bit of work.
And sure, if you were to take an Adderall,
chances are you're gonna be in the tunnel.
Chances are you're also gonna have a much harder time
getting in that tunnel the next day,
unless you take Adderall.
And so that's a problem.
And there are other issues with ramping up these things
too high or too low.
So anyway, that's a little bit of a mention
about pharmacology,
because I think it's always in the back of people's mind,
what should I take?
The first question should always be,
what should I do and what should I not do
to optimize learning and performance?
Then you can have the conversation, what should I take?
What should I consider taking occasionally or not at all?
And then there's the people who probably,
there's some real clinical need out there.
Some people have real ADHD
or real clinical depression or mania. Yeah. So, yeah, I would say there's, it's probably once every two months where I'm
like, all right, I'm going to, I'm going to take a little bit of nicotine because
it's four o'clock. I feel my mental energy is a hundred percent gone, but I just need to get
something. And then I'm like, I got to crank out an hour of really good work, whatever it is.
And it tends to help, but it's not like something that I know. And I do know people that take it way too often. And you can tell that
there's a little bit of a reliance of it, which actually brings me to a thought that I'm really
curious of that I don't think I've ever heard you talk about. Very rarely who people talk about is,
is, you know, the importance of our thoughts, but the chemicals that those release and what
they create in the body. And has there been any studies done on, you know, people say misery loves company, right? So
there's people that are just miserable and miserable and they've been miserable for years.
And they have this feeling and these chemicals that are inside the body. Is there any studies
done on the body being addicted to certain chemicals? So even though somebody doesn't
want to be miserable anymore, the feeling is just so comfortable and so normal to them
that they put themselves in that state
because it's just what their body's chemically used to having
at all points in time.
Yeah, that's a really good question.
So there's an interesting study
done by a very controversial guy named Robert Heath.
These were studies that were published mainly in the 1960s.
You couldn't do them now.
Where they took humans,
implanted them with electrodes in their brain, so drilled down below the skull. These weren't people that had epilepsy. mainly in the 1960s, you couldn't do them now, where they took humans,
implanted them with electrodes in their brain,
so drilled down below the skull.
These weren't people that had epilepsy,
these were just people that volunteered for these studies.
So my lab, we've recorded from human brains,
we use patients of epilepsy that have consented to us
exploring fear and other things.
These are studies where Heath and colleagues went in
and literally stuck electrodes in the brain
and gave people buttons so they could press button A, B, C,
or D to stimulate different areas of the brain.
And they simply asked, where do you like to stimulate?
So they'd press one button
and the person would go into a rage.
This is actually how the brain works.
It's crazy, like rage.
And they'd turn that one off and they'd say,
well, that didn't feel good.
They press another one, they'd feel drunk or happy.
You'd think that the area
that they would like to stimulate
would be the one that causes happiness.
But actually the number one area of the brain
across all these subjects
that people elected to self-stimulate,
given the option,
was an area called the central median nucleus
of the ventral midline thalamus.
And the subjective experience that they had was mild
frustration and anger. Now that's interesting and kind of says something about our species in
general. Fast forward. So those studies were done in the sixties, fast forward to 2018,
a graduate student in my lab named Lindsay Soleil published a paper in nature
showing that even small animals, a mouse,
that's in a fearful situation of like a predator
looming in to grab, to get it.
We don't use real predators, we use virtual predators,
but mice don't have great vision,
so we can trick them pretty easily.
Mice will switch from a fear mode
to a confrontational mode.
They will literally stand in the face of fear
if you stimulate the equivalent brain area
in the mouse brain.
And we've done some experiments on humans
exploring sort of similar types of things
about how fear and various processes of anxiety
are housed in the brain.
The net export from all of this,
what to take away from all this,
is that we have areas of the brain
that give us the sensation and the subjective experience of being frustrated and angry,
and they have connections to the dopamine system. So anger, frustration, and I would argue
complaining too, but I'm kind of inserting that too, are internally reinforced. And that's
something that we should just be aware of. I don't think that means that we're wired to be miserable. I don't think that means that we like being miserable. I think that
being miserable and complaining and feeling frustrated has a rewarding element to it.
And so as a biologist, or if anyone wants to think about this stuff scientifically,
you don't want to get too far outside the margins of what this means, but what it probably means
is because this circuitry exists in mice
and exists in humans, is that this frustration circuit
probably served us well in some regard at some point.
Now, there was probably a time,
let's just say 2000 years ago,
where we were short on food, weather was terrible,
and we needed to do some serious digging to find water. We need to do,
you know, we need to do stuff. And if you kind of dug into the ground and you hit stone and you just
were frustrated and you quit, well then we wouldn't be here today, right? They wouldn't
have had children and they wouldn't have had children. They wouldn't, we wouldn't be here today. If you can link frustration to a sense of reward, well,
then you go seeking errors. So this is kind of an error seeking mechanism. So there's,
so I'm not just trying to, you know, put rose colored glasses on this, but I think that
people that are complaining and they're frustrated and misery loves company,
they're caught in a loop of, they're getting just enough reward that they're continuing to turn around in a circle.
And it feels, it almost feels kind of good.
We see a lot of this in the poor behavior out there, right?
And especially on social media,
see people getting into this,
these battles on social media,
or the various elements of people like gotcha culture
kind of stuff where one side says this, the other
side says that, and it feels like a victory. But I think that, you know, outside the real, you know,
the legal system and the proper channels for working through things in society, we are seeing
a lot more of this and it's just something to be aware of. And I don't think it's terrible.
I think that when we're feeling frustrated,
that's a sign to us that we need to adjust our behavior,
but we can't get caught in the tide pool of, you know,
just going around and around and seeking frustration.
I saw this a lot last year where there was a lot of anxiety
in the world, understandably.
And, but then the shedding of anxiety
became its own kind of thing.
It became its own long discussions
about things for which there was really nothing to do
at that moment.
And so I think we all have to be careful
not to get stuck in those little traps.
Our nervous system has great accelerators
and ability to push us out of ditches
of different kinds, psychological ditches
and physical ditches. But it also has these little traps set in it because they, if
they're not used properly, they can lead to great dysfunction. And that's what I would say about
dopamine and addiction, right? That the same dopamine circuit exists to allow us to learn
and create great works of music and science and entertainment and information, et cetera,
as lead to addiction.
It's just a matter of degrees,
how often you're spending time in that circuit.
Yeah.
So you familiar with Dr. Joe Dispenza?
I know of him.
People have asked me about his work.
I confess, so I'm really bad about this.
I confess, I spend I'm, so I'm really bad about this. I, um, I confess I spend so much time
reading science stuff and I know a little bit of who's out there and what's out there. So people
have mentioned him to me, but I'm not familiar with his work. Yeah. I'm curious. So I can't
really comment on him or his work. Yeah. So I'll kind of give you an idea of what I'm curious about
with what he says coming directly from you. Cause he's, you know, deals in neuroscience,
but I don't think he says in depth anywhere near as in depth as you are. Cause he's, you know, deals in neuroscience, but I don't think he's as in depth,
anywhere near as in depth as you are.
So he said, you know, talks about thoughts and, you know,
I talk about thoughts a lot.
Thoughts, you know, are chemical or electrical signals
that happen to your brain.
And I want you to either tell me if this is correct
or if there's different pieces,
not saying that he's right or wrong,
but just the actual mechanism of how all of this works.
Thoughts happen, and then there's a chemical messenger
from your brain to your body,
which he says are neuropeptides,
which then make your body create hormones.
But I've heard you say that hormones actually take longer.
Like sometimes hormones create,
it takes longer for a hormone to be made.
Typically, yeah.
Yeah, and then the body is then communicating back
with the brain saying, yeah,
this is the way we're feeling.
So like an example would be, if we've ever had a sexual thought and then the
thought turns our body, ramps our body up and then our body's like, yep, we're feeling
this way.
And there's like a circle between it.
Is that, is that all chemically and correct?
Or is, I'm just curious the way coming from your side of exactly how that whole system
works between thought to chemical signal to body feeling a way, to talking back to the brain again.
Okay, yeah, this is an important theme
because it comes up in reference
to someone whose work I am familiar with,
which is the book, The Body Keeps the Score,
which is like amazing name for a book,
like took the best name for any book ever.
Thank you very much.
And he's on the best solo every single week.
I heard that book has like just such a long,
long arc of success.
200 years from now, people will be like,
have you read this book?
Yeah.
It's a great title for a book.
It's focused mainly on somatization of trauma
and some healing that can take place.
I believe he's a psychiatrist.
Yes.
Through focusing on the body.
So there are a couple elements here
that I think we can accept as universal truths.
One is that the brain and body are connected
through this thing we call the nervous system,
that the brain has the opportunity to impact the body.
There's a simple way we could do that.
If right now an alarm goes off in the building,
we're gonna deploy adrenaline from our adrenals,
and that's because we heard the alarm with our ears
and our auditory system, which is up here,
and our adrenals are behind our kidneys in our lower back.
As well, if you eat something, it makes you feel sick, or you eat something and it's very sugary,
there's a signal sent from your gut via the vagus nerve to the brain. Dopamine is released. And
guess what? You're going to want more of that sugary thing, or you're going to want less of
that thing that made you feel nauseous. It's not dopamine if you felt nauseous. But anyway,
so it's bidirectional. It's a two-way street. So the link between brain and body is real. Now,
I would say there are five, there are two things the nervous system does generally,
reflexive action and duration path outcome type of stuff we talked about before. But there are
really five things that it does, right? You have sensations, which is light and sound and stuff
bombarding your nervous system and the conversion of those like photons of light and sound waves, like real
physical entities into neural signals and chemical signals. That's a category of nervous system
job. The next one are perceptions, which are whichever one of those sensations you happen
to be paying attention to. So I wasn't paying attention to a moment ago,
but now I'm feeling my left elbow on the arm of this chair
that happened to be sitting on and now I'm perceiving it.
But it was happening all along.
I was sensing all along.
Okay, then there are emotions.
We can talk about those.
And then there are behaviors, right?
So moving my arms up and down or moving my mouth,
whatever it is.
And then there are thoughts. And thoughts are complicated. We don't really know how to define
thoughts in the nervous system yet. So I would say it's still early days to really define what
a thought is. Thoughts have an element of perception. We have to be able to anchor
our attention to something specific, but they tend to be perceptions on things that
include the past, the present, or future,
or some combination of those, right?
So we don't really know what thoughts are.
And unfortunately, there are not good ways in the laboratory
where I could, I mean, I could bring you into the laboratory.
We could put electrodes in your brain, or we could-
Let's do it.
If you let us, you know,
or we could put you in a scanner
and we could wire up your body too.
And we could say, okay, think about a red apple
or something like that.
But I don't actually know that that's what you did.
Cause you might think red apple
and then somebody that you're looking forward
to seeing this evening.
So I don't know if that's a pure thought or not.
We don't have a way to measure thoughts.
So I think it's a bit of a stretch to say
that thoughts control hormones, control the brain.
But I like the idea that people are talking
about a bi-directional relationship
between brain and body.
That's powerful.
And some of it is conscious
and some of it is not conscious or subconscious.
One of the best examples of not conscious ways
in which our brain is being driven by our body
is the sugar example.
There are beautiful data showing
that if you ingest sugar,
even if you don't taste it, they've done this.
You numb it or you put hidden sugars,
which are in many foods,
you have neurons in your gut that sense sugar
as well as other things and send a signal
through a nerve pathway to your dopamine system.
And you will crave more sugar,
even though you can't taste it.
So you are sugar seeking, not just because it tastes good,
but because your gut is craving more of it.
The same is true, you also amino acid seek and crave.
So those are subconscious.
You're not aware that that's happening.
And even if I tell you,
you're not aware when it's happening.
Okay, so that's one.
The other are conscious ways where, yes,
if you were to close your eyes
and do a visualization of something
or somebody that you really love,
chances are you're gonna deploy some serotonin
and some endogenous opioids and some dopamine in your brain,
and you're gonna have a feel good cocktail
swimming around in your brain
and your body will respond to that as well.
You'll feel dilation of the periphery,
of more blood flow to the periphery, all those things.
If it's a sexual thought,
you'll have the whole response associated with that.
If you think about food, you'll have the responses associated with that. So we are very Pavlovian in
that sense, right? That how we think really does shape our physiology, but it's not clear exactly
how that process works yet. And I think that the reason why there's been more progress made on the trauma side of it
is that it really has that community of people that treat trauma and particularly psychiatric
community have embraced the fact that people do tend to hold their trauma both in the brain and
body. Now, I'm not a big believer in the idea that like you hold your trauma in your left knee,
let's fix your left knee.
And then this horrible thing that happened to you
three years prior is gonna disappear.
Forget it.
No, I'll take a hard stance on that.
Like, let's talk about that and show me the example.
Show me even just the anecdotal data
of somebody that got their knee fixed.
Sure, you'll feel better if you're not in pain,
but can you erase a sexual assault trauma
by fixing somebody's knee because their knee hurts?
No, like that's disrespectful to people's experience.
What you want to understand is that
the brain and nervous system are connected
and sure an experience could be associated
with a body part.
But I get a little bit, as you can tell,
I get a little bit like,
a little bit of epinephrine gets deployed in my system.
Not a lot, just a little.
When I hear that like everything is somaticized,
you can do a lot from the neck up.
And the best example I have, I'll back this with data,
is that I happen to know people that have had
their limbs blown off north of the knee.
Do they not feel, of course they have feelings
about that experience, but they're every bit
as cognitively connected as other people.
People have all their limbs removed.
So there is something special about the real estate in here.
And I think it's wonderful that we're embracing the body
as a powerful element within the nervous system
and how to steer our nervous system.
But the real estate, including the eyes,
which is part of the brain from here up is special.
And we know that because if you have a lesion up here,
oftentimes it can change your entire personality.
Whereas if I cut off my right hand, I'll change,
but my personality isn't gonna change.
And I'll still feel the same about this point.
Right.
So I'm curious about,
I'm curious why you said visualization.
I feel like people are starting to talk
about visualization a lot.
I know you said you have a colleague that deals with hypnosis and stuff.
I've heard, you know, people can visualize playing the piano and the parts of their brain
that use, you know, play the piano will start to grow.
Maybe not as much as someone actually sits down and plays the piano.
I've heard of, you know, I think it's like the back in the thirties that the Germans
in the Olympics, they had all of their runners go and run. And then they visualize it.
And they said that, that, you know, when they were at night, the rain was still doing the exact
same motions and brain doesn't know the difference between everybody. People are saying this like
crazy now. And I'm curious the actual truth or non-truth behind it of when you visualize
something, it is the same in your brain as when you're actually physically doing it.
Yeah, so it comes close.
So a couple of things,
one is some people are very good at visualization.
Some people are terrible at it.
There's a guy that would,
it sounds like I'm only mentioning Stanford studies,
but he was at Stanford, Roger Shepherd,
did beautiful studies on visualization,
spatial manipulating objects in space. so you might imagine a three
dimensional triangle looks like a pyramid and flipping upside down some people can do that
far better than others some people can do that they're just more auditory focused other people
do that have more of a kinesthetic sense so um which is a beautiful thing some people um i've
had somebody tell me a neuroscientist tell me, I think in feels. I'm like, what does that mean?
And they told me that when they feel something,
they feel it first in their gut, then in their head.
Some people feel it first up here.
I think we differ.
That's probably another point I should have made before
is I think that sometimes the seesaw
is tilted a little bit more towards the body,
sometimes a little bit more towards the brain.
Some people are just literally more in their heads
than in their bodies.
And animals, I think dogs are really wonderful
because they do seem to be more like holistically connected.
It's probably the first and last time
I'll ever use that phrase, but holistically connected.
Cause it doesn't really mean anything,
but it does seem that they're very aware
of how, of their body in space.
Cause space is a big thing to dogs.
Like who gets space is
everything because they don't think in terms of bitcoins or us dollars or you know euros so space
is the is the unit of of ownership right so they probably think more in space units um so there's a
you know i would say that there's a definite way in which certain people are going
to be more oriented towards body stuff and certain people are going to be more oriented towards
brain stuff. Some people are going to be better at visualization than others. Now, in terms of
practicing something in mental rehearsal, there are some studies showing that mental rehearsal can
improve actual physical performance. When you look at the brain in sleep,
in particular in REM sleep, rapid eye movement sleep,
and that's gonna be the sleep that predominates
in the second half of night.
It's gonna be associated with kind of emotionally rich
dreams and this kind of thing.
That sleep is when you replay events from the previous day
and the previous day,
especially if they have an emotional load to them.
And there are beautiful studies that were done
by Matt Wilson's lab at MIT,
showing that spatial navigation.
So if you have to,
like this is the first time I've ever been in this building,
I'll go to sleep tonight.
And in the second half of REM sleep,
I'll bet you that the neurons in my brain
that code like the relative position of this room,
the restroom and the elevator and the parking lot,
those are kind of the key elements I remember coming in.
I know where they are relative to one another.
Now, tonight in sleep, my brain will decide
whether or not it's important that I remember it or not.
And that could be attached to whether or not
something good or bad happened
coming up from the parking lot.
Or though going back to our earlier example,
if suddenly there were an earthquake,
we are in California after all, knock on wood, I'm a little bit superstitious.
If there were an earthquake-
We're really high up.
Yeah, we're really high up.
We are way up here.
You can bet I'm gonna remember that sequence forever.
Because again, it's this highlighter
on this whole experience.
So visualization can be useful.
Nothing is as good as actual practice.
The thing is visualization means you can get more practice.
Now there's a tool that I think is perhaps more valuable
that hasn't been discussed as much,
which is the use of non-sleep deep rest
or 20 to 30 minute naps, shallow sleep
after a learning episode.
So this was a study that was published in Cell Reports.
So Cell Press Journal, again, excellent journal. When I say that, I say that was published in Cell Reports. So Cell Press Journal, again, excellent journal.
When I say that, I say that because
they are great folks over at Cell Press Journal,
but these are like carefully peer reviewed studies.
There's no company that has a vested interest.
These are funded by your tax dollars.
And what they did is they had people learn
a spatial memory task.
So lights, lighting up on a board, it sounds pretty simple.
Remembering the sequence of lights,
you get up to 20, 30 different light sequences. It's really tough. You have to think you're thinking really
hard and they create incentives, not electric shock incentives, but usually reward incentives.
Either one works though. Then you put people into these shallow sleep naps. What I also falls under
the category of non-sleep deep rest. And you look at performance on other days, people learn much
faster if they're importing a nap into their day or shallow sleep or what I call NSDR, non-sleep
deep rest. So basically turning off the brain, just going into a kind of a spacey mode, no,
not scrolling on Instagram, but just letting your mind wander and drift or enter sleep,
you learn faster because as we talked about before, that's when the synaptic rearrangements occur. So that's a powerful tool for accelerating learning.
Visualization can help, but for the 60% of people who have a hard time maintaining a visualization
practice for more than a couple minutes, like some people can do it for a few minutes and then
their mind drifts, probably the non-sleep deep rest
is going to be the better tool.
But for the people that are very good at visualization,
they can see every motion that they need to take
in the actual performance.
There, I think it's probably as good as physical exercise
or close to it, at least in terms of stimulating plasticity.
But let's be fair to the process of plasticity.
I can't sit there and think about,
okay, 600 pound deadlift, 600 pound deadlift.
And like, you're not gonna get hypertrophy that way.
Although I'm sure people have tried.
So I'm curious when you're talking about
the spatial recognition,
I remember seeing a Ted talk
probably about four or five years ago,
a guy talking about first time I started really learning
about neuroplasticity and he was talking about,
they would take rats
and I think what he said is they hooked an electrode
up to their hippocampus,
which whenever it was going through
and trying to find this cheese that they had,
it would make like a ding, make an auditory sound.
And so he's going through and it's the ding,
you can tell he's measuring it.
And then he said, then he's working late in the lab
and all of them are sleeping and he can hear dinging.
He forgot to turn it off, but he could tell that.
And is that right?
That the hippocampus is the part where it's actually,
they're going through the entire maze again
as they're sleeping over and over and over and over again.
Yeah.
So, and especially if there's a reward involved
and for a rat in the laboratory,
that's probably like the biggest experience, excuse me, ever.
You know, that's a great day.
Yeah. That's an exciting day or at least it's different. You know, that's a great day.
There's this exciting day, or at least it's different.
You know, this calls to mind that in the 90s,
there were all these experiments,
like if you give rats an enriched environment,
there's all this brain plasticity,
and so people started playing Mozart to their kids
and doing all this stuff.
So the stinger in this, it's kind of funny actually,
because it reveals how crazy we are as a species
and how we're always trying to cheat the system,
the biological system, is that what they realized was
there's no enhanced plasticity
through these enriched environments.
Playing Mozart to your kid is not gonna enhance
their brain learning at all.
What they realized is that normally these rats
are in a deprived environment.
You just destroyed an entire company
that just plays baby Mozart for all the babies.
Well, yeah, I mean, although I will say
that baby shark thing that my friends play their kids,
it must trigger a lot of epinephrine
because I heard it once. They've done a ton of studies
on that before they did it.
And that thing is, I mean, I can hear it now.
Yeah, the earworm thing is a whole other business.
But you know, if you deprive an animal or a child,
I mean, obviously that's horrible.
Then you set the threshold for changing the brain really low
because they're essentially in a black box, right?
I mean, sadly in the earlier part of the last century,
there were people that did this, right?
The Harlow monkeys experiments,
these are frankly were barbaric experiments,
hopefully never to be ever done again,
where you deprive animals of emotional contact or warmth.
You give them a wire monkey mother is a horrible, right?
But what it, that's a deprivation experiment.
And so what we're talking about is normal experience
and then moving up from normal experience.
And there is such a thing as normal experience.
Like sure things vary one parent, two parent, primary caretaker, et cetera. But most people aren't in this black box
deprived environment. So the point is that if you want to change the brain, you have to give it a
really strong stimulus. For most people, you have to give a really strong stimulus. There's never
been a case ever throughout human history, no reported case of somebody who had lifelong childlike neuroplasticity. But there have been elements of childlike behavior. I don't mean childish.
I hope there's a real difference there. Where adults have managed to tap into the plasticity
process more readily. And those include things like an element of play, like the great physicist,
Richard Feynman was famous for bongo drumming on the roof.
He did it naked, but nowadays that would get you fired.
So that's not good.
These should be ethical, age appropriate,
context appropriate species,
appropriate behaviors, of course.
But he was bongo drumming naked on the roof of Caltech,
or he became quite good at sketching
and painting later in life.
Mainly he claims,
we don't know exactly what his process was,
by embracing an element of play and kind of lightheartedness about it, which presumably
gave him the dopamine and the perspective on the agitation, or maybe he learned to bypass agitation.
But when you're, I should say, when you're very playful about something,
that means that the contingency is usually pretty low like he already had a nobel
prize maybe he had two but anyway he at least had one and he already had a full career so drawing
for him was about oh wow he's also a pretty good painter but he wasn't a rembrandt right so and he
didn't need it so it's understandable and i think people would be well to adopt the idea that the
agitation is a prerequisite for learning and getting better. Now, if you're doing something for fun and recreation,
then you can adopt an element of play.
And as you get better at things,
occasionally adopting an element of play can be really good.
There's a reason why I think in that documentary,
The Last Dance, the Jordan documentary,
I mean, he's a serious guy, right?
He went at basketball with, if 110% is possible, he gave it 110%.
Apparently he went at everything that way. So for him, it wasn't a game. Nothing was a game.
It was about winning. That's where his dopamine came from. You can do that, or you can be about
purely about process. But as we mentioned earlier, you, I think it's always going to be best to be
about both process and outcome.
Because otherwise you're divorcing yourself
from the opportunity to really level up.
And the more resources you gain,
also the more that you can share.
Those could be monetary resources,
those could also be knowledge-based resources.
So in any event, learning for learning's sake is great,
but learning for learning's sake
and doing something with the information is also great.
Yeah. One thing that that brings up, Rich Devaney and I were talking about it was, but learning for learning sake and doing something with the information is also great yeah one thing
that uh that brings up rich devin and i were talking about it was and there's i feel like
everybody in the world every schmoke including myself being one of those most talks about the
reticular activating system and the limited amount of information that comes in but i feel like
they're just people who are just regurgitating what they've heard before so coming from your
standpoint knowing what you're talking about um can you explain the reticular activating system,
exactly how that works with, you know, and if we can wake up in the morning and set that
reticular activating system to then look for specific outcomes? Yeah. So I love the reticular
activating system. I used to teach this to medical students. So I'm very familiar with it. I think
the simplest way to think about it is it's a collection of brain areas.
It's a system after all that can queue up neuromodulators.
Neuromodulators are what we've been talking about.
Acetylcholine, dopamine, serotonin, epinephrine.
The reason the word modulator is important, not just neurotransmitter, not getting too down in the weeds here, but modulators, they're like playlists.
They set the categories of things
that your brain is able to do.
So for instance, when serotonin levels are high,
you generally are going to feel good
about things in your immediate ownership
or experience or environment.
So it's kind of like gratitude?
It's like gratitude.
It's like you see your kid, you see your spouse,
you see your significant other, and you just feel good.
It's appreciation, it's gratitude.
There's no seeking involved.
You have that.
There's a security there.
It could be the food that you're about to eat
that you have, right?
The dopamine system is all about want, desire,
craving, motivation, and getting more.
It's ambition, right? The dopamine system is all about want, desire, craving, motivation, and getting more. It's ambition, right? It's about a focus on things that are outside your immediate experience,
atmosphere, et cetera. And so it literally is in what we call the extra personal space. It's beyond
the space that you have. It's, you know, I don't know why I've been thinking about this because I
haven't invested in it, but there's a lot of attention now about cryptocurrency right so every the joke i like to tell myself is
and it could be very exciting i don't know i don't know anything about investing but that
people's it's a purely dopaminergic system right now right right people who have a lot of it don't
know what it's going to be worth people who don't have it don't know what it's going to be worth but
what it's gonna be worth.
People who don't have it don't know what it's gonna be worth.
But the actual value of it
is not actually set by anything else
except dopamine, right?
So if people are excited about it,
it will go up in value, right?
So for those of you
who are interested in cryptocurrency,
understand the dopamine system.
It's all dopamine.
As I've watched the excitement grow, et cetera,
that's dopamine.
Very different than serotonin.
Because if you have a Bitcoin
or you have a hundred or a million Bitcoins right now,
you actually don't know what you have.
Is it in the serotonin system?
Are you rich?
I don't know.
Now, maybe not.
So it's really interesting.
It's an externalization of something
that's normally within our heads.
The acetylcholine system is all about focus,
as we said, and epinephrine is all about alertness.
There are other neuromodulators too.
The reticular activating system
combines a perception of something in your environment
with one of these particular neuromodulators, right?
Because they're not just so diffuse
that you walk around excited about everything.
There's a name for that.
It's called mania.
If people have too much dopamine,
they're excited about everything.
They buy things they can't afford.
They start relationships they can't continue
and they are truly manic, right? They're excited about everything. They buy things they can't afford. They start relationships they can't continue.
And they are truly manic, right?
That's if people have very high levels of serotonin,
unhealthy levels of serotonin, they're so blissed out,
they don't wanna get out of their chair.
They're fine right where they are.
The opioid system will do the same if it's really ramped up.
So the reticular activating system takes inputs
from the ears, literally, and from the eyes, mainly, and combines it with
specific combinations of neuromodulators and allows you to be either focused on and in pursuit of,
or focused on and in gratitude or appreciation of, or focused on and stressed about particular
things. So the way this plays out in the real world is
when people talk about, you know, whatever you, what is it? I hear this thing, energy flows where
attention goes. Where attention goes, energy flows. Yeah. So I think that's a wellness perspective or
a typical wording perspective on the fact that if, you know, the example that's almost always
given about the reticular activating system outside of, you know, the example that's almost always given about the reticular activating system outside of,
you know, neuroscience anyway,
is, you know, if you're gonna buy a new car,
thinking about, oh yeah, those new Blazers,
which are awesome, by the way,
the ones I've seen anyway,
those vintage ones that they put out,
are Broncos, Blazers?
Yeah, the Broncos.
Broncos, Broncos, forgive me.
Those are great.
I never really thought about them.
I saw a picture of them.
And then now if I see one, I'm like, that's really cool.
They're rare.
But your sensors for those are now,
that's probably a combination of dopamine
and a certain shape, a certain perception.
And so, yes, you can guide your nervous system
in that direction.
And as a consequence, your nervous system
will start devoting resources to parsing,
oh, well, that's definitely not a blazer.
That one is, that's a knockoff one.
Oh, that one's really, really nice.
These kind of thing.
And so you can use perceptions
as a way to drive neuromodulators.
Typically neuromodulators also drive perception.
So if the serotonin system is really high,
you're gonna be focused on things in your immediate sphere.
If your dopamine system is really high,
you're gonna be thinking about the next thing.
So the reticular activating system
is a way that you take those two things,
perception and neuromodulators,
and then there's a third element.
You toggle it to levels of arousal, right?
So what you do is you get excited
when you see the combination of things
that you're looking for in the environment
or something like it.
So the way I would think about
the reticular activating system is like a template.
You've decided to create a template.
So let's say you're writing a book, which is exciting,
and you've got some idea in mind
and you could create a template that,
okay, it's a bestseller,
or you could create a template of all the great impact
it's gonna have.
Probably since you're in the creative stage,
you're gonna create a template of,
okay, this book is gonna have a certain feel.
People are gonna derive certain benefits from it. And you start working from that template.
And what will happen is you will start to queue up through your subconscious and your conscious
mind, the things that you already possess in your mind and in your environment, or you're in your
notes or in your co-writer's notes, if you have a co-writer, all the things that could go into that.
And you'll also start seeking those things in the world, but there's nothing mystical about that, right? There's
nothing secretive about it, right? No pun intended. What it is, is that you are accessing memory
stores and neuromodulators that are associated with a particular end goal. Now, the same would
be true if you decided, you know what, I'm really going to work hard on my relationship to my
significant other and my home life,
you would immediately start looking for the things
that gave you the serotonin release
that you're seeking there.
Because typically when we are already
in the company of things,
or we have a relationship with somebody or something,
we aren't in that like heavy dopaminergic adventure type,
drive, drive, drive mode.
So I just threw a lot of words at something
maybe overcomplicated a little bit,
but you want to think perception,
what am I paying attention to?
Neuromodulator, which of these four,
because there are many,
but the main ones are acetylcholine,
dopamine, epinephrine, and serotonin.
And then how is that driving my arousal or my excitement?
How is that contracting or dilating my worldview?
And I think if people just spent a little time
thinking about that, you realize, wow,
there are these powerful systems in the brain
that are drawing me towards certain things
and away from others, but it's mainly by funneling us
down particular paths.
And so when I hear about the kind of actualization
and manifestation and all that kind of stuff,
I'm not dismissive of it because I'm a scientist.
I'm not dismissive of it at all, but scientist. I'm not dismissive of it at all.
But I look at things through the lens of neuroscience.
That's just how my brain works.
And that's what I do professionally.
So I think that the reticular activating system
is when you place an intention,
like if you write down on a piece of paper
before you go to sleep at night,
with something about your book and you put that away,
yeah, you are definitely queuing up for your brain
the things that it should pay attention to
because it can't pay attention to everything.
Right.
So essentially you just,
the whole thing that we've been talking about
is that your brain has,
we've been starting to figure out
what's going on in the brain.
And when you listen to this
and you can realize exactly how to focus more,
figure out how to use your reticular activating system to,
we're basically getting a manual of this is how it works.
Cause we're not given,
I always say like we're given the most complex piece of machinery in the
world we're born,
but we have no idea how the hell it works.
16,
maybe you get your driver's license,
but you're never actually told how to have like a,
like a reasonable social interaction or,
or how to deal with stress.
A hundred percent.
And so this kind of lets people know,
okay.
And cause you see it,
like I've seen it many times,
especially myself.
Like I think when I was younger,
before I started reading books and getting into stuff,
I was more pessimistic.
But that came from me thinking about negative things.
And then I ended up finding more negative things
throughout my, it's kind of like the phrase,
like, do you meet an asshole in the morning?
You met an asshole.
But if you meet assholes all day, you're the asshole.
Like, that's kind of like-
Never heard that one, but I like that one.
Yeah, it's like that type of thing.
I've had both experiences, by the way.
I would say it would have been more
if I was the asshole back then.
I was more pessimistic and could find
and poke holes in everything.
But then you start focusing on,
like you're saying,
the stuff that is more positive,
stuff that I am grateful for.
And then you're like, oh my gosh,
there are many things in my life
that I can be grateful for.
And it's essentially realizing
that at any moment in time,
our system can be hijacked,
but this is kind of like the way
of understanding to keep your hands on the wheel, to be able to drive your brain and your feelings
a little bit more versus just letting things happen to you. Absolutely. I mean, I think that
very well put. I mean, I think that outside of like real clinical depression, I do think the
statement that, you know, happiness is a decision holds some merit.
Actually, when I was a postdoc,
I remember my advisor saying, you know,
happiness is a decision.
I was like, how can you possibly say that?
But I actually think that happiness is not a decision.
I think happiness is a series of action decisions, right?
It's a series of things that you do.
The nervous system is bi-directional and waiting
around for good sensations, good feelings to emerge rarely works. And so this is why rituals
are really good. This is why getting into action, despite some friction about those actions can be
really, really good because you start to discover the bi-directionality of behavior and these
chemicals. Sure. The chemicals drivectionality of behavior and these chemicals.
Sure, the chemicals drive behavior,
but behavior drives the chemicals too.
And one thing, it's a little bit existential,
but it's worth mentioning is that the nervous system,
which is basically us, right?
You can take away any other element of our body
and we'll still persist, but our nervous system is,
especially the part in our skulls is really who we are, right? It life experience it's actually even shaped like us if you were to melt away everything
else the nervous system is actually the one thing that actually looks like you everything else is
just organs and stuff pieced together tubes the nervous system is absolutely who we are and can
be shaped by the way that we think and approach things. But once you start to kind of ratchet into that a little bit, you start to realize,
oh, it really is bi-directional. And you can start to experience that once or twice. Okay,
I was feeling miserable. I think it's very healthy, by the way, for people to feel their
feelings. I'm just not a big believer in extreme catharsis where you take out your feelings on
people or yourself. That's not good, right? There are also feelings that can amplify themselves.
We know this, right?
If you really, really ramp up happiness,
it can escalate to mania.
You really, really, you know, drive down
into the trench of sadness, you can hit depression.
And there are points where we have options along the way
and we can feel those points, right?
So there's a real thing there.
But it's absolutely true that if you can experience what it is to be in a place of like kind of down in the dumps and get into action, maybe it's exercise, maybe it's sunlight, maybe it's learning or something, or feel agitated and push through that, you discover the bi-directionality.
And if you can start to discover the accelerator on your focus and on your energy, and that you can come off that. And that can be good too.
And there are ways to calm yourself down and you can work with that too. When you start to realize
that there are these levers and buttons that you can press, but you press them through sensation,
perception, feeling, thought, and action, but mainly through action, you come to the conclusion
that neuroscientists came to a long time ago, although they never actually stated it clearly. So it's kind of on them that we're only getting to this now in 2021,
which is that there's no fossil record of you. There's no fossil record of the nervous system,
except your behaviors. All of us will go into the ground. Everything except our skeleton will
disintegrate. Whether or not you believe in one thing or the other
is not the topic of discussion right now
about what happens to you next.
But the fossil record of you are your behaviors.
It's the book you're gonna write, right?
You'll be long gone.
That book will still be here.
It's the things you said
and the ways that it impacted people.
It's the tools you built.
It's the ways you helped people.
Hopefully you're helping and not destructing.
You're clearly helping people being destructive,
but there's no fossil record of emotion.
Let's say you feel miserable.
There goes nowhere.
It circulates in you.
It was designed.
Again, I say designed
from the evolutionary perspective in this case,
or maybe who knows?
I don't speculate about like higher order things
because how could I?
I always say I wasn't consulted the design phase.
So I'm not in a position to speculate.
But whatever people believe,
like if you feel something intense sadness
and you do something useful with that,
then there's a fossil record of that.
It has the opportunity to be transmuted as you know,
the yoga can more certain cultures today
is transmuted into something.
If you don't, it went nowhere.
It just was recycled in your nervous system.
The same thing with ambition, right?
If you're just ambitious and you don't do anything with it that's focused,
it goes nowhere.
So the reason that thought appeals to me
is that it means that when we are feeling miserable
or when we're feeling fantastic,
it's still about
what we do with that. And that includes speech, but it also really focuses us toward the discoveries
we make as scientists or the music we write as musicians or the things we write or the ways we
raise kids. Because if we go back to the very beginning of this conversation, what kids are
exposed to, that's a fossil record of our behavior.
For sure.
But again, it's about behavior.
So when people, sometimes people ask me about like,
what do you think about the collective
and like transgenerational trauma and things?
I don't know.
I really don't know.
But what I do know is that how we behave with one another
shapes each other's nervous systems,
especially with younger generations.
And so what you do matters. behave with one another, shapes each other's nervous systems, especially with younger generations.
And so what you do matters,
and what you don't do has an impact also.
And so understanding that the nervous system is who we are,
and that the fossil record are our behaviors,
I think should feel empowering.
I hope it doesn't feel overwhelming to people.
It should feel empowering.
That was great. You justed it perfectly. That was
amazing, man. Where can people find you? So a couple of places I teach, I teach neuroscience,
excuse me, on Instagram. So they're little short clips, sometimes 60 seconds, sometimes some longer
IGTV stuff on neuroscience, neuroscience facts and practical takeaways.
I sometimes host other neuroscientists on
and IG Lives and things of that sort.
So that's Huberman Lab, H-U-B-E-R-M-A-N-L-A-B on Instagram.
I'm also on Twitter under the same handle.
And then I have a podcast, the Huberman Lab Podcast.
And it's a little bit different than most podcasts
in that every month we stay on one topic.
So this last month was for instance, hormones,
and there'll be four, sometimes five episodes all about that topic. We get pretty deep into
the science. We also cover some practical tools. So even though we might not talk about sleep for
a while, the first, you know, two episodes, two, three, and four, we're all about sleep.
The idea is that the material is archival, that one could go back to it kind of like a course. So that's on YouTube, Apple, Spotify, all the kind of standard places
that you can find audio podcasts. And I recommend following them. You have a bunch of really,
it's good because for someone who's visual like me, you draw it out. Oh, the Instagram. Yeah,
I like to diagram like in the classroom. Most people I feel are visual. So it's very easy to
look at it and go, oh, now I understand what you're talking about when you can see it. So I recommend following him, listening to him as well. Andrew Huberman, thank you for being here, man.
Thanks so much for the opportunity. I really enjoyed this. Thank you.