In this episode, I describe how to access focused learning bouts,
creative states, and the underlying neural circuitry involved. I frame
this in the context of our daily 24-hour cycle in order to make it
practical, clear and precise about timing. I review the role of
fasting, meal timing and specific types of nutrients for promoting
certain states of mind. I also review various other tools and
biological factors that directly or indirectly gate brain function and
that we can control. I answer commonly asked questions about the
science of psychedelics, binaural beats, and visualization. Thank you
for your interest in science!
- Introduction
- The Daily (Learning) Routine
- Plasticity Is NOT the Goal
- No Obligation To Change
- Practical Plasticity Language
- Pillars of Neuroplasticity
- My Daily Routine: Chronotype Management
- Plasticity of the Wake-Sleep Circuit: Morning Light
- Delay Caffeine!
- Light, Black Coffee, Hydrate
- High Alertness, Linear Tasks/Learning
- Background Music/Noise: Yay or Nay?
- “GO” versus “NO-GO”: The Basal Ganglia & Dopamine
- Leveraging GO, NO-GO
- Non-Specific Action
- Clear, Calm, Focused: The GO, NO-GO Sweet Spot
- When Very Alert, Work In Silence; When Tired, Include Background Noise
- Temperaments Vary: And So Should This
- The 3 Hour-Long Post Waking Block
- Early Morning Exercise and GO Networks
- Fasting, Ketogenic Diets, & Food Volume
- Sodium/Electrolytes
- Avoiding Hot Lunch, Food Pre-Occupation
- Post Lunch Low/No Cognitive Load
- Hydration, NSDR, Nap
- Creativity Work
- Creativity Is A Two-Part Phenomenon
- Psychedelics
- Afternoon Light As Insurance
- Evening Nutrition
- Repacking Glycogen: Hormonal Factors
- Pre-Sleep Anxiety: Normal and Easy To Solve
- The Power of Objective Tools
- Visualization
- Mini-Synthesis
- Resetting Your Clock
- Don’t Trust the Mind Now
- Two, (Maybe 3) Optimization Bouts Per Day
- Organizational Logic
- Wim Hof Breathing, Binaural Beats, Ice Baths, Etc.
- Variation Among People, and Dogs
- Accurate Versus Exhaustive
- Familiar and New Ways To Support
-- Welcome to the Huberman Lab Podcast where we discuss science, and
science-based tools for everyday life. -- My name is Andrew
Huberman, and I'm a professor of neurobiology and ophthalmology, at
Stanford School of Medicine. This podcast is separate from my teaching
and research roles at Stanford. It is however, part of my desire and
effort to bring you zero cost to consumer information about science
and science related tools. And keeping with that theme, I'd like to
thank the sponsors of today's podcast. Our first sponsor is
InsideTracker. InsideTracker analyzes data from your blood and DNA to
help you better understand your body and health and health needs. I've
been getting my blood tested for many years now. Because, it just
turns out that many of the things that are important to our health and
wellbeing can only be detected in a blood test or a DNA test.
InsideTracker makes that really easy. They can come to your house to
take those samples if you like, or you can go to a nearby clinic as
well. The major problem with most blood tests and DNA tests is that
it's very hard to make sense of the information you get. You get a lot
of numbers related to metabolic factors, endocrine factors, et cetera.
InsideTracker makes it very easy, to decipher what those levels, in
your blood and DNA mean, and what to do about them. They have a very
easy to use dashboard that if you go to it, it can inform about
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really powerful and easy to use program. If you wanna try
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Huberman at checkout to get 25% off any of their programs. That's
insidetracker.com/huberman, and put Huberman at checkout. The second
sponsor of today's podcast is Athletic Greens. Athletic Greens is an
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Greens since 2012. And so I'm delighted that they're sponsoring the
podcast. I started using Athletic Greens and I still use Athletic
Greens, because I find it very complicated and almost dizzying to
figure out which vitamins and minerals I need to take in order to just
cover my nutritional basis. Taking Athletic Greens makes that very
easy. It also tastes very good. I mix mine with water, a little bit of
lemon juice, and I really like it. So I drink it once or twice a day.
The probiotics that are in Athletic Greens are also important to me.
Because there are a lot of data now showing that the gut microbiome,
which is supported by probiotics, is important for things like the gut
brain access, mood, endocrine factors, metabolism, many, many
biological functions. And so by taking Athletic Greens, I get the
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mention if you do that you won't just get the vitamin D three K two
year supply, you'll also get five free travel packs of Athletic
Greens. Mixing up powders when one is on the road, either in the car
or in a hotel or on the plane, et cetera, can be kinda messy. These
little travel packs make it really clean and easy. So once again, if
you go to athleticgreens.com/huberman, you'll get a special offer, of
your Athletic Greens but you'll also get the year supply of vitamin D3
K2, and the five free travel packs. The third sponsor of today's
podcast is Madefor. Madefor is a behavioral science company that makes
attaining positive changes and growth mindset easy, through a simple
set of steps, and a monthly program. The company was founded by former
Navy SEAL Patrick Dossett and Toms founder, Blake Mycoskie. I'm the
head of their scientific advisory board. And the other members of the
advisory board, include people like the director of the chronobiology
unit the National Institute of Mental Health, members of Harvard
Medical School, and many other people who are serious about taking
science and developing protocols, that can be applied towards positive
habits, and growth mindset. If you wanna check out Madefor, you can go
to getmadefor.com. And if you purchase any of their products and put
Huberman at checkout, you'll get 20% off their program. In addition to
that, we do a monthly Zoom call, where the members of Madefor get on
it. And Patrick and myself, sometimes Blake as well, discuss the
Madefor program and the personal goals and things that people are
trying to achieve with the program. So it's a dialogue back and forth
on Zoom call once a month. Once again, that's getmadefor.com, put in
Huberman at checkout, and you'll be able to get the 20% off as well as
access to the monthly Zoom calls with us. Let's talk about
neuroplasticity.
More specifically, let's talk about how, we can optimize our brains.
Neuroplasticity is this incredible feature of our nervous system that
allows it to change itself, even in ways that we consciously decide.
That's an incredible property. Our liver can't decide to just change
itself. Our spleen can't decide to just change itself, through
conscious thought, or through feedback from another person. The cells
in those tissues can make changes sure, but it's our nervous system,
that harbors this incredible ability to direct its own changes, in
ways that we believe, or we're told will serve us better. Now, today's
a really special episode because, while we are going to talk about
science and as always we will delve into mechanism. Today's episode is
really geared toward answering your most common questions about how to
leverage neuroplasticity. The previous episodes were about focus, and
how to achieve focus for sake of plasticity. As well as the last
episode which is, what are some of the portals into plasticity that
relate to movement, how behavior can activate plasticity, as well as
how to activate plasticity for behavior itself. How to get better at
learning certain movements. Today's podcast is really directed toward
answering your most common questions, and the bigger theme, of how
does one go about optimizing their brain or even think about,
optimizing the brain? What is this thing that we're calling optimizing
the brain? In doing so I'm also gonna share some of my, typical
routines and tools. I don't share these because I think that they are
the only ones that are available out there. Certainly they're not. Nor
do I share them because I think that everyone should do them just
'cause I do them, certainly not. I share them because many of you,
have asked for very concrete examples of what I do and when, and so
I'll share those with you and you can decide whether or not those
protocols are for you or not. Everybody's different, but there are
some common features, of how we are all put together, at the level of
the nervous system and body, that direct us toward particular
practices, particular routines that can be especially powerful, for
neuroplasticity. So I wanna open up the discussion today, by
emphasizing something, that's fundamentally important.
Which is that plasticity, is not the goal. Plasticity is never the
goal. Plasticity is simply a state, or a capacity, for our nervous
system to change. And so, nothing makes me more frustrated, perhaps
then when I hear, oh, you know, this pill, this potion, this practice,
it gives you plasticity. Plasticity is just change. The real question
is what are you trying to change? And specifically what end goal are
you trying to achieve? Specific end goals might be extremely specific.
Like, you want to learn how to speak a particular language or you want
to learn a new motor skill or you want to get very good at calculus,
or you'd like to forget the bad emotions related to a particular human
being or experience, or it can be more general. Like you'd like to be
more creative. And we'll actually talk about creativity today. Or you
would like to achieve more focus or you'd like to be less stressed. So
it's very important, that you understand that plasticity, and
achieving plasticity is the first step, in what we call optimizing
your brain. You don't want your brain to be plastic all the time. In
fact, one of the major questions, one of the major unsolved mysteries
of neuroscience is how each and every one of us wakes up every day,
and knows who we are. Why should that be? Well, the brain is plastic.
It has a capacity to change throughout the lifespan but it's not so
plastic, that every night when we go to sleep, or in our waking that
the connections get reconfigured so much so that we forget who we are,
or how to walk, or how to eat. It's a good thing that we don't have,
such robust plasticity or ongoing plasticity, that we have to
restructure ourselves each day. It's part of what gives our life
continuity. So remember, plasticity is not and is never the goal. The
goal is to figure out how to access plasticity, and then to direct
that plasticity, toward particular goals or changes that you would
like to achieve. And I should just mention, there's no rule that in
life you have to leverage this incredible thing called neuro-
plasticity.
No one said you had to do that. This podcast in this episode is
particularly for people, who are either happy or unhappy with where
they're at with a particular aspect of their life. And they wanna
shift it, in some positive way. And many of you listening might say,
well wouldn't everyone wanna do that? Well actually, there are a
certain number of people that are pretty good where they're at and
they don't wanna change and that's terrific. And I tip my hat to them
and I think that's wonderful. If ever they decide that they wanna
leverage these plasticity mechanisms, they can, at any stage
throughout the lifespan. Let's start by talking about the different
systems within the nervous system, that are available for plasticity.
And in doing so, I'll frame them in the context of what I do on a
daily basis, on a weekly basis, and on a yearly basis. First of all,
there are several forms of plasticity. They have names like long-term
potentiation, long-term depression, which has nothing to do with
emotional depression, by the way. And things like spike-timing-
dependent plasticity. Those names are used to describe cellular
phenomenon. The actual ways that the synapses, the connections between
neurons change. I'll mention those things and I'll give a little more
[indistinct] to what they are as I mentioned them. But, that's
probably not the best way to think about plasticity in terms of
optimizing your brain. The best way to think about it is in terms of
short term, medium term, and long-term plasticity. Short-term
plasticity, is any kind of shift that you want to achieve, in the
moment or in the day, but that you don't necessarily wanna hold on to
forever. You might say, well, what kinds of things are those? Well,
for instance, short-term plasticity might be, you wake up earlier than
you would like to catch a flight. You're not feeling particularly
alert, and you want to use a protocol, or you decide to use a protocol
which could be coffee or it could be a certain form of breathing or it
could be some other tool, to become more alert at a time of day when
normally you aren't that alert. But, your expectation is that when you
return home, you will discard with that, the need to do that at 5:30
AM because you'll be asleep at 5:30 AM. So there's short-term
plasticity, behavioral plasticity. Then there's medium-term plasticity
which are changes, that you might wanna make. I call this with
respect, and a little bit of humor, or at least my kinda humor. I call
this the undergraduate, pre-med phenomenon. For those of you that have
worked with pre-meds. And I have tremendous respect for medical
students and pre-meds, there is a kind of a stereotype which I don't
necessarily agree with, but the stereotype is that they wanna know
what they need to know for sake of the exam, but they don't really
wanna know. They just want the A. And I don't think that's always
true. I've worked with a number of different pre-meds over the years
and there are many of them that are absolutely, passionate about the
knowledge itself. And they also wanted the A. But the pre-med
phenomenon as it's discussed among professors and TAs, is that, you
know, you've got these students, they just wanna know what they need
to know so they can get the A, right? It's medium-term plasticity.
They don't actually want it to be embedded in their memory too long,
or else they would actually care about the information. So that's
medium term information. And sometimes that's useful for instance if
you go on vacation to Costa Rica, and you don't know your way around
Costa Rica. You wanna learn the different town and the routes there.
But you don't have any intention of going back. It's just medium term.
You wanna just program it in for sake of your time there and then you
wanna discard it. Most of the time when we think about or talk about
optimizing the brain, we're talking about long-term plasticity. We're
talking about the kinds of changes that people wanna make so that
their brain reflexively works differently. This is what a child does
when it goes from not knowing how to walk to knowing how to walk. It
doesn't have to think about it after it learns how to walk. It becomes
reflexive. Long-term plasticity, is almost always the big goal. It's I
wanna know how to speak that language. I wanna be able to do that
skill. I wanna be able to feel this way, without having to put much
work into it. And there are tools and protocols that one can do to
achieve that. And we are going to talk about those. We've talked about
a few of them in previous episodes but I will revisit those protocols
today.
I'm gonna frame all this in the context of the daily life, the weekly
life, and the yearly life. And that's because, neuroplasticity and
optimizing your brain, rides on a deeper foundation, of this thing
that governs plasticity. In fact, governs all our life, called
autonomic arousal which is that we're asleep for part of the 24 hour
cycle and we are awake almost always. If we push ourselves and stay
awake, we're okay. We can do that for a night or two, but almost
always we are asleep for a portion of it and we are awake for a
portion of it. I've said it before but I'll say it again. The trigger
for plasticity in learning occurs during high focus, high alertness
states, not while you're asleep. And the focus and alertness are both
key because of the neurochemicals associated with those states. But,
the actual rewiring and the reconfiguration of the brain connections
happens during non sleep deep rest, which we'll talk more about as
always. And, deep sleep. So you trigger the change and in sleep you
get the change. So, some of the things that we'll talk about today
about optimizing the brain, are centered around not sleep, but around
the autonomic arousal system. We have this system of neurons in our
brain and body that's just incredible, that wake us up and make us
alert. And when we're not accessing that system, well, we cannot
access plasticity. We can not optimize our brain. Likewise, if we
cannot sleep well, and we can't rest well, we will not access
plasticity and rewire our brain because that's when the actual
configuration between the connections occurs. So to set this in
context, I wake up each day, and I'll be totally honest.
I usually don't feel like bouncing right out of bed. I usually don't
feel completely rested. And that's not because I don't get enough
sleep. It's probably because I'm not terrific about timing my sleep so
well. Now this month isn't about sleep, that was the previous month
but I really wanna emphasize a few points. I wake up, generally more
tired, and groggy than I would like, because I tend to go to sleep too
late. It's just some thing that I do. And I tend to get up early
either because I set an alarm, because I have things to do, or because
I naturally wake up early because the light coming in and so forth.
Well, what that tells me is that I'm probably somebody whose natural
circadian rhythm. You may have heard of chronotypes. These are
genetically programmed things. But chronotype, is shorter than 24
hours. It means that the cycle of waking and alertness for me is
probably shorter than 24 hours. Which means that getting some light in
the late afternoon will help me shift, and make my cycle a little bit
longer. It will phase delay me if that doesn't make any sense, see a
previous episode. But what it really means is getting some light in
the afternoon, will allow me to stay up a little bit later. But what
it means is that, I'm not really matching my hard-wired needs of going
to bed probably at 8:30 or 9:00 and waking up at 4:00 AM. I tend to go
to sleep around 10:30, 11:00, lately around 11:30 or 12:00 and then I
wake up at 6:00. And so of course, I'm gonna feel groggy. So
neuroplasticity will allow me, to optimize my wakefulness but I have
to do something in order to access that. And some of you may already
be anticipating what I'm about to say, which is, oh, no he's gonna
tell us to get sunlight in our eyes in the first 30 minutes of the
day. I am gonna tell you to do that, but I'm gonna also tell you two
things that I've have not discussed before, which relate to the
plasticity, between the melanopsin cells. These sunlight detecting,
bright light detecting cells in our eye and the circadian clock. I've
never said this before in this podcast, but it turns out that the
connections between these melanopsin cells and the circadian clock,
are plastic throughout the lifespan.
There's a massive configuration of the connections there. And a cell
type called the astrocytes which are a glial cell, are actively
removing and reinforcing connections between the eye and that clock,
every day. Now this is incredible because other aspects of your brain
that for instance, represent you knowing who you are, when you wake up
in the morning, or what your name is, assuming that you're old enough
that you've already learned your name. When the first things kids
learn and something we rarely ever forget. Those connections, are
changing all the time every 24 hour cycle. So there's an opportunity
for short-term plasticity. So that's why I view sunlight first thing
in the day, it helps me wake up. The other thing that I do is that
there's a circuit, that exists between the circadian clock and our
adrenals that I've talked about before that triggers the release of
cortisol first thing in the morning, that wakes us up. Especially when
we view light. So if you're groggy in the morning that's why viewing
light is helpful. But, the interesting thing is if you start viewing
light frequently in the morning, then those connections between the
melanopsin cells and the circadian clock, become primed or potentiated
we would say, they become stronger for the anticipation of light. And
you naturally start waking up earlier, feeling more alert. So, what
this says is and what I do is I get that regular light because I know
that some mornings, I'm just not gonna feel very alert, I'll feel,
especially tired. And I might not be able to access sunlight because
it's really overcast or I'm traveling, or some other feature. But the
system is plastic so it shifted in the right direction. Now it will
shift back, because it's short-term plasticity after about two, three
days. So you wanna try and get the sunlight exposure on a regular
basis. The other thing that I do is I delay my intake of caffeine, for
the first two hours that I'm awake.
Now, this can be very painful for people. But, earlier we talked
about, the adenosine system and how the accumulation of adenosine
makes us sleepy. And caffeine suppresses adenosine and it makes us
feel alert. But we know, that if you ingest caffeine, immediately on
waking, the signal to the adrenals, to release cortisol, which is a
healthy release of cortisol, and the suppression of adenosine that
happens as we come out of sleep, and in deep sleep the suppression of
adenosine, if you ingest caffeine too early, there's a mechanism by
which the adenosine competes for the receptors et cetera, so that you
have a mid-morning crash. Because if caffeine, the way it works is if
caffeine is occupying the adenosine receptor, then the natural
endogenous mechanisms, for suppressing adenosine, are not actually
gonna have their action. So the brain to adrenal axis, is subject to
plasticity also. And so by delaying caffeine until about two hours
after waking, I'm able to capture, and reinforce, to potentiate, the
neural circuit that exists between the circadian clock and the
cortisol released in the adrenals, as well as, leave those adenosine
receptors, unoccupied so that I can then use the caffeine to get a
natural lift, in alertness and focus two hours later as opposed to
using it, just to wake myself up out of sleepiness. So while I'm sure
there are some eye-rolls out there and some yawns, about, oh no, it's
the sunlight in the morning thing again. It's a powerful tool, for
readjusting these circuits. So the short-term plasticity. And the
reason for delaying caffeine for the first two hours of the day even
if it's painful to do for the first couple of days is that then you
naturally start to wake up, more readily in the morning without
caffeine because, the adenosine is suppressed and you don't have these
competing. It's called a competing antagonist, for the adenosine
receptor. So I wake up, I get sunlight in my eyes. Lately because I
wake up very early I do use a bright light, to stimulate alertness.
It's not actually designed for that purpose. It's just a light board
that has been about 900 lux. And then I delay caffeine. Some of you
have asked, and again I'm not saying anyone has to do this. You know,
what exactly do you drink? I'm a big believer in black coffee. I just
happen to like black coffee. People have asked me about, and I don't
wanna name brand names here about this type of coffee or, that type of
coffee you mixed with these other, kinds of things. Will that increase
focus? You know, I'm gonna talk today a lot about the use of diet and
fasting and timing of foods and certain kinds of foods. But to be
honest, black coffee is just a simple choice that's always worked for
me. I also make sure I hydrate first thing in the morning. There is
plenty of data now showing that even a slight, increase in
dehydration, meaning just when you're lacking water, can make people
have headaches. It can provide some additional photophobia for those
of you that are migraine prone. Bright light can trigger migraines.
That's no surprise to those of you that get headaches and migraines.
But dehydration, can compound, the vulnerability to migraine and
headache. So I drink water, I drink black coffee, or I drink mate
which is just because I have Argentine lineage which is just a high
caffeine drink first thing in the morning, but I delay it until two
hours after I wake up. And that's because, I want the circuits between
my eye and my circadian clock and my adrenals, to be functioning in a
particular way, so that then later the caffeine is an addition. It
adds more alertness. Now this is a discussion about how to optimize
your brain. Many people who wake up quickly, and just naturally feel
like bouncing out of bed.
I envy these people. They will do just fine, by going into a learning
bout or taking care of, whatever it is that they need to take care of.
Sometimes that's kind of more mundane tasks like email and whatnot.
Here's a more or less a rule about how the brain functions, vis-a-vis,
focus, learning and creativity. And I'm gonna discuss this much more
in future episodes. Generally states of high alertness, when we're
very very alert, are great for strategy implementation. When we
already know how to do something. And it's just simply a matter of
plugging the correct elements into the correct boxes. I've talked
before about duration, path and outcome, as the three things that the
deliberate conscious brain is trying to figure out in order to perform
certain tasks, even cognitive tasks. This is the sort of thing that we
are very good at when we're well rested, and we're focused. In our
autonomic arousal or our alertness rather is at a high level. If you
are somebody who is hitting that alertness phase of your day, very
early, right after you wake up, that's a great time to move right into
things that, at least the research says, you already know, have the
strategy and you just wanna implement the strategy. This is where I
fundamentally depart from the idea that, oh, you know, you have to do
the hardest or most critical tasks throughout the day. Sometimes the
hardest and most critical tasks, are tasks that require creativity.
And as we'll soon talk about creativity, and tasks related to it,
oftentimes come to us best or the brain is best at achieving those,
when we're in states of calm or even slightly drowsy. Which is
something that's interesting in what we'll get into. But for me, for
instance, I get up, I'm not terribly alert, first thing. And so I try
and just get my brain and my thoughts organized. It's not a time for
me to be responding in a very linear fashion to emails or carrying out
calculations. That comes about two hours later. And I think many
people out there will relate, mid-morning is when many people tend to
achieve their peak in alertness and focus. Now, many times I get the
question and this what I'm about to say is directly related to the
hundreds of questions I got about this.
Should I use, background music in order to learn? Should I have, you
know, construction next door? Is that a good thing or a bad thing? Is
it better to be in complete silence, et cetera? Now this will vary.
Some people can tolerate their own noise within their head much better
than others. Other people find that having some background noise,
helps cancel that out. But there's a simple rule of thumb that one can
use, because at least my experience is that sometimes background
music, background noise is very helpful for allowing me to focus. And
other times, it's very distracting. So what actually governs that?
Well, we have to ask ourselves, what is at the source, of the lack of
focus? If our lack of focus is because our autonomic arousal or our
alertness is very, very high. We had a little too much coffee, or if
there is such a thing, slept a little too long or we're really
stressed or really activated, and we can't seem to focus. In that
case, eliminating background noise, and really just trying to get
silence, so that we can quiet some of that autonomic arousal, is going
to be best for learning and for implementation of things we already
know how to do. For any kind of focus linear task. Which, basically
learning is a focus linear task is that you're just not necessarily,
performing well all the time. Last time we talked about making errors.
So as a rule of thumb, if you're too keyed up, then silence and quiet
is going to be helpful. In fact, if you're very keyed up, a particular
circuit, related to the basal ganglia, starts getting triggered more
easily.
And this circuit, I'm gonna talk about in depth. But, it's called the
go, no-go circuit. We have circuits that connect our forebrain, to our
structure in our brain called the basal ganglia which is actually a
collection of structures. And the forebrain, which is involved in
rational thought and thinking and planning and action, is always
trying to plan what should I do, and then implement that action. And
the basal ganglia are intimately involved in that discussion. There's
a reciprocal loop of communication, between basil ganglia and cortex.
The basal ganglia has one set of connections to the cortex, and the
cortex back to the basal ganglia that facilitates go. It facilitates
action. And the molecule, the neuromodulator dopamine, triggers the
activation of go. It tends to make us want to do more things. It tends
to make us bias toward action. By the way that dopamine binds to
something called the D1 receptors. Just a particular type of dopamine
receptor. For those of you that wanna know. The no-go pathway, the
pathway in the basal ganglia, and cortex that suppresses action,
involves dopamine binding to this other receptor called the D2
receptor. Now D1, D2 receptors, you can't just consciously decide, oh,
I only want my D1 receptors and my D2 receptors to be active. You have
to think about, which sorts of states of mind and body, facilitate go,
and which ones facilitate no-go. Now this is critically important,
because doing focused work, accessing plasticity, and learning,
involve doing certain things and not doing others. So here's how it
works. And here's how I apply it on a daily basis.
Because I tend to be most alert, first thing, mid-morning or so. And
then I generally will have my caffeine mid-morning. My peak of
alertness, in the early part of the day, is occurring for me sometime
between 9:30 and 11:00 AM. That's just me. Other people might
experience that immediately after rolling out of bed. They might be
wide awake and ready to go. Which case they should be cautious about
throwing caffeine in the mix and it's gonna make them very, very
alert. There are three sort of levels, of autonomic arousal of
alertness, that bias us more toward go, no-go, or both. And this
relates, to a question that I've gotten now hundreds of times from
you, in the comment section for this podcast, which is, is it better
for me to listen to music in the background while I work and learn, or
should I have complete silence? And the answer is it depends. But it
doesn't depend randomly on who you are, or even necessarily time of
day, it depends, on your overall level of autonomic arousal. And it
depends because, autonomic arousal level of alertness, biases the
extent to which, we are more prone to gos to action, or to no-gos, to
suppress action. And dopamine is this molecule that's swimming around
and is going to buy us one or the other responses. So here's how it
works. Let's say, I'm very alert. Maybe I got a particularly good
night's sleep the night before, I had a little too much coffee, and
I'm gonna sit down to some work.
The thing to know, and what I always tell myself is when I'm very
alert, I am very prone to go, to action, but I'm also prone to, not
no-go, right? I'm not gonna be very good at suppressing action. So
those are two different things. Being biased toward action and being
biased, toward suppressing action are two different things, okay? So
those are push pull. Toward action, suppress action. So, when you're
very alert, the tendency is for everything to be a stimulus. This is
why when people say, well, should I just take a drug that will
increase my level of epinephrine and alertness? Will that help me
learn better? No, because it will make you do things, but it will also
make you less good at suppressing actions that you need to suppress.
So if I'm very alert, particularly alert for me and I recognize what
that state is, of course 'cause everyone will be different. I know
what it is for me. Then I want silence for learning. I want it shut
down my internet, which I do. I sometimes use a program, that I
believe is a free program called Freedom, where it actually locks you
out of the internet for a particular time. They're not a sponsor of
the podcast. I just happen to use it. There's another version of
Freedom where you go to the wireless thing and you turn it off. You
disconnect from the wireless. That's the other one. Although, many
people have a hard time not reactivating it. So I'm trying to shut
down the go pathway towards distraction. And the other thing that I'll
do, is I'll generally turn off my phone, put the phone outside in the
car or in really extreme cases I'll throw it up on the roof which is
hard for me to retrieve, so that I can't get to it. So if I'm very
alert, I'm aware that I will have a bias toward action. It will be
hard for me to suppress non-action, but that it's very nonspecific.
Because, the next kind of level down of alertness, or autonomic
arousal is clear, calm and focused where we have that kind of sweet
spot between, our willingness to pursue action.
We're in a mode of go, and it's not always physical action but it can
be pursuing hard bouts of learning. But that our ability to suppress
is also very good. And this is because, and I don't wanna get into too
many details, because of the way that dopamine competes for these
dopamine one receptors in the go pathway and dopamine two receptors in
the no-go pathway. They're always in this kind of push pull. And so
there is a sweet spot. And that sweet spot isn't flow, where it is in
some sort of state where all of a sudden things come naturally to us.
The state that we're trying to achieve that's optimal for learning is
one in which, we have the energy and focus to pursue, but we also have
the energy and focus to suppress action. So the basal ganglia are
kinda working in a perfect kind of sing songly manner, through this
parallel pathway. Now, as we get tired or as we round out an ultradian
cycle of about 90 minutes, what happens is our fatigue even if it's
not a physical fatigue that makes us wanna go to sleep, but our mental
fatigue starts to accumulate because these pathways of go, no-go are
actually, very metabolically consuming. So what I recognize is that as
they start to falter, I have a harder time engaging and going or going
toward the goal rather. I also know that my reflex, toward actions
that are unrelated to the learning are also gonna start increasing
because I'm not gonna be able to suppress action and activate the no-
go pathways. So if this all sounds like a mouthful, let's make it very
simple for you. When you are very alert, the best situation for
learning is going to be silence.
It's going to be complete quiet. If you are low arousal, and you're
tired and you're kind of sleepy, a lot of people find that having some
background chatter and some background noise, can help elevate their
level of autonomic arousal. And that's because our auditory system and
our visual system, are linked and are part of really what's called the
salience network. Which is that we're always, scanning our environment
for things. And when we have a lot of things in our environment to
scan, generally our level of alertness goes up. This is why
environments that are very stark or have very little or very few
objects in them, tend to make us feel kind of calm, because our
salient network kinda shuts off. A lot of people don't like that.
They'll go to a meditation retreat, or they'll go into an environment
where there's very little clutter especially city people. And all of a
sudden, they start feeling really, really anxious. And that's because
their internal level of autonomic arousal is really high and it's not
being occupied by all this stuff to pay attention to. And so their
salience network starts to turn inward. They move from exteroception
to interoception. They're not looking outside themselves, they're
looking inside themselves and there's a lot of noise in there. So, as
a rule of thumb, if you tend to be kind of on the high level of
alertness and kind of anxiety, and I'm not talking about clinical
levels of anxiety but you tend to, be pretty high energy, well then,
you are definitely going to benefit more in a learning bout, from
learning to go as well as activate the no-go pathway. And that
requires a lot of energy. And when you have a lot of distractions in
your environment, there's a high probability that you're gonna be
distracted from the learning.
Now, some people are just naturally more calm. They're like my bulldog
Costello, who's exceedingly calm. They're pretty mellow. They're kind
of clear, calm and focused all of the time. And those people, actually
are gonna be less flappable. They're not gonna be yanked around by
background noise or they're not gonna be around, you know, bothered
from their learning or from their studying by a clanging of a pot from
somebody in the kitchen. So, each one of us generally tends to ride up
and down this autonomic ladder, so to speak, at different times a day.
For most people, three hours after waking.
Those three hours, not three hours on the mark but for that three hour
bin tends to be the period in which they're most alert throughout the
day. Except I'll tell you later about a unique time right before sleep
in which you're also very, very alert, naturally. So, that morning
three hours is quite vital. Now, many of you might ask about exercise
and when to exercise.
I think I may have mentioned this on a previous podcast episode. But,
the research shows that at least for performance, afternoon exercise
might be better in terms of avoiding injury, et cetera. But in terms
of rising body temperatures, and matching body temperature to have
mental alertness, et cetera. It's pretty clear, that exercising early
in the day, not only biases us towards waking up earlier, but that it
also triggers the release of things like epinephrine and other
neuromodulators, that lend itself, to a situation where we have
heightened levels of arousal and mental acuity in the late morning and
even into the afternoon. Now, this can be very good because if you
wanna restrict most of your focus learning to the early part of the
day, exercising early in the day does set a neurochemical context or
mill you for go. It tends to trigger activation of the go pathway. And
so for those of you like myself who have a hard time kind of engaging
and getting into action early in the day, early morning exercise
within an hour of waking, and certainly no later than three hours
after waking, will give you quote unquote more energy throughout the
day. It will make you feel more biased for action. You won't feel as
lethargic. So, in can kind of reviewing what I've set up until now I
do the morning light thing, I delay my caffeine two hours after
waking, and then I generally try and get exercise in the first hour or
ideally within the first three hours of waking up. And then I'll move
into a focused learning bout. Now, some of you wrote to me and said,
if I exercise early in the day, then I feel a crash afterwards. If
that exercise is very, very intense. So you're depleting all your
glycogen. So you're doing heavy deadlifts, et cetera. Chances are
after you eat, you will start to feel a crash. So this relates to
timing of nutrition.
And in just as a general rule of thumb, fasted states, and low
carbohydrate states, I'm not talking about a keto diet around the
clock or all week but fasted states, and low carbohydrate states lend
themselves to alertness. And that's because carbohydrates are rich in
tryptophan, and they tend to lend themselves to sleepiness. Of course,
ingesting large amounts of any kind of food, any substance that fills
your gut will divert blood to your gut. So if you eat a lot of food
regardless of whether or not it's a lot of carbohydrate or not, you're
going to generally feel more sleepy. Now, many people, including
everyone use food, to modulate their levels of autonomic arousal. And
typically eating shifts us more towards a state of calm. And fasting
shifts us more toward a state of alertness. And these are hard-wired
circuits that relate to the need and desire to find food which
requires action, or the so-called rest and digest system which diverts
our resources and our energy towards digestion. It makes us feel calm.
So I personally rely on water, mate, and black coffee first thing in
the day, in order to exercise and get into the first round of work. If
I find that I'm too alert, and then I generally will tend to eat and
kind of bring down my level of alertness, and will continue working.
Now this is in district thing. And since people asked me what I do,
and I'm not dictating that people follow it exactly of course or even
generally, but I'll just tell you what I do. It is possible if you're
drinking black coffee, or mate and you're ingesting a lot of water,
that you're going to dehydrate yourself somewhat, because of excretion
of sodium.
Provided you don't have hypertension, salt is a really good thing. A
lot of people think that they are low on blood sugar because they're
shaky and they can't think or they have a headache when actually
they're low in sodium. And especially if you're drinking a lot of
caffeine. So I'm a big believer in salt. So I drink salt water first
thing in the morning because I drink black coffee. And that keeps my
levels of alertness really good. I always thought that I had messed up
blood sugar. I had shaky hands and I didn't know what was going on.
I'd drink a little bit of coffee and feel too amped up. And turns out
that it was a sodium issue. And if I just drank water with a little
bit of sea salt and or even just a typical table salt, then I'd fell
rock solid in terms of my blood sugar. Now, again, I'm not a
physician, I'm a professor so I don't prescribe anything, but I
profess lots of things. So I don't want people who have diabetes or
blood sugar issues to go off the rails. You're responsible for your
health, not me. But it's an interesting parameter to think about and
experiment with, you know, provided that your doctor says it's okay,
because I think a lot of people, probably ingest too much sodium but a
lot of people might be sodium deficient in particular the people that
are fasting. I typically eat my first meal right around mid day,
whether or not I've exercised or not. And the food content there is
actually quite important to me.
I don't know why this is. I don't have a scientific mechanism for this
but if I eat hot food for lunch, I get sleepy after lunch. So I
generally don't eat hot food for lunch. I might have a little bit of
soup or something like that. But in general, I rely on a low
carbohydrate meal. I'll eat meat or salad or some variation of that
and nuts and fats and things like that because of the [indistinct]
content for focus, because the protein is good in my belief. And
because I believe in eating fruits and vegetables. I do that too. If
I've exercised very hard early in the day, I do ingest starches like
oatmeal or rice and fruit and things like that. Now, why am I telling
you all this? Because, 100s if not 1000 people ask me, is fasting good
for focus? And indeed fasting will increase alertness, but if you're
so hungry or preoccupied with food that you can't focus well, then
it's not gonna be good for learning. It's only going to be good for
agitation. Now, I'm just gonna mark continue to march through my day.
And this is, of course what I experienced. Some people are quite
different.
But, what I find is around 2:00 or 3:00 PM, I start getting a little
groggy. A little bit sleepy. I will tend to shift my work from work
that requires a lot of duration path, outcome, really careful analysis
and activation of the no-go pathway. Meaning I'm trying to suppress
the impulse to look at my phone or answer email, or do other things.
This is why I haven't emailed you back until 3:00 in the afternoon. By
the way, or responded to your text messages, whoever you are out
there. Around early afternoon, I find I can do kind of typical more
mundane tasks. Because, those tasks require less cognitive load. And
they can be done more or less, in and out of sequence. I can answer a
couple email here, maybe answer that email there. I don't have to do
it in pure linear fashion. Any kind of linear work or learning work is
gonna take a lot of focus. And then typically around 4:00 PM or so, I
do two things.
Sometimes a little earlier. Sometimes a little later but I do two
things. One, is I make sure I hydrate. Because if you're exercising
and you're eating, you need to digest that food, et cetera. I make
sure I hydrate. So I drink water. I try and refrain from drinking
coffee in the afternoon. This is a new thing for me. I sometimes do
it, but I try and refrain from that. And then I always do, a non sleep
deep rest protocol sometime in the afternoon. This is sometimes a 10
minute yoga nidra type protocol, or a 30 minute yoga nidra type
protocol. These are protocols I have no relationship to, no business
relationship to whatsoever. I've been doing them for years now. They
involve listening to a script. We'll provide the links again although
we've provided them before. Or I'll do a hypnosis protocol, from
Reveri Health which is my colleague David Spiegel's website that has
these free hypnosis apps or scripts that you can listen to. And those
take me into a state of really deep rest. Sometimes so much so that I
fall asleep. And I always set an alarm so that I don't sleep for
longer than 90 minutes. But typically this goes for about 30 minutes.
And I do that because for me by about 4:30 in the afternoon, I'm
capable of doing basically nothing. I am just a complete Costello. I
can't think, I can't do, I can't respond to email. I've just
completely troughed my ability to function. I personally find it a
mistake, to that point, down a double espresso, and charge really
hard. It just doesn't work for me. I end up really disrupting my sleep
schedule. I end up disrupting a lot of different things. So for me, I
do the non sleep deep rest protocol. It really helps me later when I
need to fall asleep. It helps with all sorts of things, as I mentioned
before. But I usually emerge from that a little groggy or feeling like
I have another whole day, second wind. Like I could just work. And
then I'll do a second bout of learning.
I'll do some sort of work that either involves linear analysis of
something. So maybe numerical work or I'm trying to learn something. I
generally try and really use those bouts of 90 minute focus energy
after the non sleep deep rest. And as I mentioned in previous
episodes, there's a lot of evidence, that these non sleep deep rest
protocols can enhance and accelerate plasticity. The most I think
recent and striking one is the study that we referenced last time in
the caption notes. It was the cell press article, Cell Reports, great
journal. Was showing that these 20 minute, kinda shallow naps and non
sleep deep rests, can facilitate sensory motor learning. So then I'll
go into another learning bout that's caffeine free. This learning bout
is very different than the morning one. This is a work bout or
learning bout that's more in the clear common focus regime because
I've come out of this non sleep deep rest. I'm not ingesting caffeine
because I wanna make sure that I can sleep later that night really
well. And, this tends to be more when I do creative type work. Now,
creativity is a topic that we're gonna spend the entire month on
coming up soon. But creativity is a very interesting state of mind in
which, we're taking existing elements. Things that we already know,
and rearranging them in ways that are novel. And I'd say, well, duh,
that's what creativity is. But creativity has two parts. It has a
creative discovery mode where you're kind of shuffling things around
in a very relaxed way and kind of being playful or exploring different
configurations.
And then creativity also has, an absolutely linear implementation
mode. In which you take the idea or the design you've come up with and
you create something very robust and concrete. And so creativity is
really a two part thing. And the first part of actively exploring
different configuration, sometimes in a playful way, sometimes in a
way that's almost random and just kind of exploring. That state is
definitely facilitated by being relaxed and almost sleepy. That is not
a state that I personally can access very well early in the day. I've
tried to access it coming out of sleep because one would say, well
you're still sleepy early in the day and just doesn't work. Most of
what I write down. Most of what I do is complete garbage. And so what
I found is there's this block in the afternoon of about 90 minutes
where, I can do creative type writing or creative type imagination of,
scientific ideas or experiments we might wanna do. Science might not
seem like a creative endeavor to many of you, but it is. Has a lot of
imagining what if this, or we could combine that and thinking of novel
concepts or ways of arranging things. So when you find yourself in
that kinda clear common focused mode, creative works tend to come
about very well in those regimes. Now I know there are a lot of people
out there rely on substances to access creative states. I'm not a
marijuana user. It's just not the drug for me, for a variety of
reasons. I'm not a drinker. It's not the substance for me for a
variety of reasons. You know, I'm not a cop I'm not out here to tell
people what they should do or shouldn't do. The problem with using
substances to access creativity, is that generally the substances that
relax people, will allow them to get into that creative brainstorming
mode, but not so good at the linear implementation mode. You know, the
other day I was remarking with a friend that there are some ads, some
advertisements that I've seen over the years, that are just
incredible. I'll just tell you what they are. So there's not cryptic
or anything. I'm revealing my tastes here. There's a particular
perfume ad that Spike Jones made that is just amazing. I'll put a link
to it cause it's just so cool. I don't want to give away the end but
it has a feature of it that is particularly interesting to me as a
neuroscientist. And it's just so cool. 'Cause I grew up in the
skateboarding thing, I knew a little bit about Spike's movies and
skateboarding and he's of course made a lot of very impressive,
popular movies as well, full length features. I don't know him
personally, so this isn't a plug. Not that he needs my endorsement for
anything at all. But the amazing thing about this advertisement is
it's a collection of things that you would never really think would be
combined, and it involves different speeds of motion and all sorts of
effects. I mean, it's like a real classic like Spike Jones kind
delivery. But, what's incredible is when you think about not just the
fact that someone had to imagine that but to actually implement the
steps in order to create that, when you see this you'll realize that
was a ton of work. You can't just put that together randomly. And so a
lot of people, not Spike clearly, but a lot of people who have an
incredible mind for ideas and novel arrangements of things, they are
great at accessing that state but not so good at accessing the
implementation state. It's also true that a lot of people and some who
tend to fall on what we would call the kind of like more Asperger's or
autism end of the spectrum, are very good at linear implementation.
Now I'm not talking about all forms of autism of course. I'm sensitive
to the fact that there are many forms on the spectrum. But, some
people are very good at linear implementation. And that's, a separate
state from a creative state. So, that afternoon block is when I try
and access the freer kind of looser mindset that's associated with the
fatigue that comes later in the afternoon. And, for some of you that
state that favors creativity and creative learning, might be better in
the morning. I don't know. You're gonna have to decide. For some of
you you're gonna be late shifted. Some of you are gonna be morning
shifted. But where we have alertness, generally we are good at linear
implementation, we're good at activating the no-go pathway and
suppressing action, and we are good at pursuing particular goals and
strategy implementation. And where we tend to be more relaxed, and we
tend to be almost in a kind of sleepy mode. So for me, coming out of
one of these non sleep, deep rest modes or sleep, that's when we tend
to be better at novel configurations of existing elements, which is
creativity. And this brings about a question that I get, all the time.
Which is, what about psychedelics? So, I am going to talk, to some
experts on psychedelics. I hope to bring some of them in. Actually
speaking on people coming in or creatures coming. A creature that's
definitely not on psychedelics who doesn't need any is Costello and he
just arrived. He seems to be in a sleepy state most, all the time. Hey
buddy, how you doing? You come in, yep. He's working on his 15th sleep
deep rest episode of the day which is generally followed by a 10 to 12
hour deep rest episode, almost exclusively comprised of REM. And I
know this 'cause his eyes are open 'cause they're so droopy, he can't
close them all the way and his eyes are going like this. And he's
going down for the count. So, yeah, nice and big yawn. Okay so,
psychedelics. First of all, I wanna be very clear. I am neither a
proponent, nor am I somebody who rejects the potential role of
psychedelics. I do however, think that psychedelics, can be
particularly hazardous, for people who have preexisting psychological
issues, and are not working with a board certified, psychiatrist or
physician, as well as for essentially all kids. I think that the young
brain is basically in its own psychedelic state and just naturally.
And all kidding aside, I think that the young brain is so subject to
neuroplasticity, that drugs, which like psychedelics which are very
powerful, can be detrimental to the developing brain. That's just my
stance. If anyone disagrees with me, I'd be happy to chat with you
about it in a polite and discourse. I'll be happy to listen as well as
tell you more why I believe that based on the data. I'm mentioning
psychedelics because many of you asked. Here's the deal with
psychedelics. At least here's how they work. In a nutshell,
psychedelics were thought to unleash sensory processing and to make it
less filtered. We have a lot of different inputs from our eyes, from
our ears, from our nose, from our taste, et cetera that you're coming
in all the time in parallel. And we have mechanisms that suppress some
of and allow us to only focus on things that are happening. Visually,
generally we don't have synesthesia unless some of us happen to have
synesthesia. We don't blend what we see with what we hear in a way,
that is confusing to us. We know what's making sounds and we know what
is a visual stimulus. On psychedelics, people report being able to
smell colors or to, you know, hear trees, et cetera. And that's
because there's a lot of sensory blending. Over that's led to the
misconception, that sensory blending itself, is a creative process.
There's nothing creative about sensory blending. You know there's, the
essence of a creative process, is that some novel configuration of
elements, whether or not it's notes on a piano, or whether or not it's
words on a page, whether or not it's numbers or whether or not it's
movement. That some way in which those are configured in some new way,
that the algorithm, the way in which, they are configured makes sense
to the observer. And this is a key thing. It seems to me that when
people report their psychedelic experiences, it makes a lot more sense
to the person who experiences it, than to the observer. And so,
creative works by definition are new ways of configuring things that
lend themselves to a bigger or greater or deeper or novel
understanding on the part of the observer. And just sensory blending
is not gonna accomplish that. Now it is true and there's a great
review in the journal cell, excellent journal about how psychedelics
work. And it turns out, they don't just work, by allowing for more
sensory blending. They do, because of the way that they activate
certain serotonin receptors et cetera. They do lend themselves to more
lateral connectivity between different brain areas, more novel
associations. So in principle, in principle, I should say not
necessarily in practice, but in principle, they do allow different
areas of the brain. Maybe even the two sides of the brain to
communicate more broadly than they would normally. So that has certain
elements that speak to creativity. But, it can't simply be the case
that psychedelics are the portal to creativity. Because creativity, as
I mentioned before, involves not just novel associations and a
breaking of kind of space-time rules, it also involves reconfiguring
things, such that the new space-time rule that one comes up with, is
interesting, stimulating and kind of in many cases, delightful to the
observer. And that's why, many claims that, you know, psychedelics
open plasticity or they increase creativity. That's not sufficient for
me personally. I'm curious about, does it not just open the creative
thinking process, this novel configuration process? But does it also,
lend itself to the implementation of creative works? And the answer
is, no. In most cases it has nothing to do with creative
implementation. Now, I think that, there may come a time and certainly
there are clinical trials that are happening now, where psychedelics
are leveraged toward particular clinical goals. And I wanna tip my hat
to the work at Johns Hopkins that's happening now, which really lends
itself, to the idea that early preliminary data and some of the papers
that are coming out they're really fantastic. Showing that there may
be some excellent roles for certain psychedelics in certain clinical
context. These are clinical studies done with a psychiatrist present,
that is authorized to do that. That can help people through
depression, trauma, et cetera. And we're gonna spend a lot of time
talking about that, including with some of those folks running those
studies. So we can look forward to that. So all of this is to say
that, no I don't take psychedelics to access creative states. That's
not where I think the major role, the important role of psychedelics
might show up if it's going to for humanity. I think that it may have
these important roles in the clinical context. Provided it's done
legally and safely. I think that, the creative process being a two-
stage process means that, I am personally best served by having this
period of non-linear exploration of concepts. Whatever it is I happen
to be working on in the afternoon. But then I'll actually shelve that
work. I'll just set it aside and then I'll revisit it the next day or
even the next day, to see whether or not that the work itself is ready
for deliberate linear implementation which I would wanna do during one
of these highly focused states. So, the long and short way of saying
this is that, when we're very alert, do linear type of operations.
When we tend to be more sleepy and more relaxed, that's when creative
works can first be conceived, but their implementation requires high
levels of alertness. Now, that gets us more to the kind of late
afternoon evening.
Now I am, as I mentioned before, I'm a proponent of getting sunlight
in the evening as well. This is a critical thing that I have not
mentioned before. Here's how it works. Many people now have heard me
say getting light early in the day is important. But that will advance
one's clock. It'll make you wanna get up earlier the next day. By
getting light in the evening it accomplishes two things for me. First
of all, it makes sure that I don't get up too early that I'm not
waking up at 3:00 or 4:00 in the morning because it's going to shift
my clock. It's going to delay it a little bit. And so this is really
important. If you want to keep your schedule on a normal routine, on a
regular 24 hour cycle and not have your circadian rhythms of sleep and
wakefulness drifting all over the place and you want some
predictability to how your mind is going to work in order to optimize
learning and performance. Well, then you need to get morning light any
evening light. The morning light is going to advance my clock. Make my
system wanna get up earlier. And the evening light is going to delay
my clock a little bit so that on average it kind of bookends my
circadian mechanisms. And I'll basically wanna go to sleep at more or
less the same time each night and wake up, more or less at the same
time each morning. That's how it works. And that's a hard wired
mechanism. That's not some subjective thing that I tell myself. That's
a hardwired mechanism. So, that gets us to the evening. And generally
in the evening I'll get that light by going outside or sometimes I'll
do it by turning up artificial lights brightly, and then I'll start to
dim them for the evening 'cause as I've mentioned many times before
and I'm not gonna belabor the point. You wanna minimize your light
exposure, especially overhead bright light exposure, regardless of
whether or not it's blue light or not. In the evening from about 10:00
PM to 4:00 AM. Some of you asked, wait I thought it was 11:00 PM to
4:00 AM? Well, it is, but 10:00 PM to 4:00 AM is even better. It's
just that when I originally said 10:00 PM to 4:00 AM, people were like
that it's impossible for most people to adhere to. So for me, it
screens off, it's dim lights, and that's what favors falling asleep in
a good night's sleep for me. Since we were talking about food earlier,
I'll just revisit a little bit of what I said before.
My evening meal tends to be more carbohydrate rich more. If I have
proteins, there'll be like eggs, fish or chicken or something of that
sort or no protein. And I eat high carbohydrates. So I'm not one of
these people that's keto or high meat only, or anything like that.
Remember, fasting and low carbohydrate, states facilitate alertness.
Carbohydrate rich foods, facilitate calmness and sleepiness. They'd
stimulate the release of tryptophan and the transition to sleep. So
that's why I do them late in the day. Also, if you've exercised early
in the day, especially if it's weight bearing exercise or everything's
weight bearing exercises. I suppose unless you're an astronaut. And
you're in space. But if you're early in the day, exercising with
weights or you're doing a long run, sooner or later, you need to
replenish glycogen. And, I realized that the ketonisters out there are
gonna say, well, you know, gluconeogenesis will allow you to replenish
glycogen, et cetera. I'm just gonna call out the lie right now,
because I feel like doing it.
And 'cause I think it just hasn't been stated. Which is that, not
everybody, but a lot of the people that are proponents of high meat
keto diets, fine. That's fine if that's what they wanna do. And as you
recall, I do relatively ketogenic diet during the day, for alertness
or fasting. But a lot of those people, can replenish glycogen really
well without ingesting carbohydrates, so-called gluconeogenesis and
enhance protein synthesis. Because they are hormone enhanced. I've
been around a while. I know what this looks like. They're either
thyroid enhanced or hormone enhanced and I don't pass any judgment.
But when you look at people who look amazing on keto and are able to
have a lot of energy and replenish their glycogen on keto, they are in
many cases, not all, but in many cases they're hormone enhanced.
They're taking exogenous hormones, that allow them to synthesize, and
repair muscle in ways that people who aren't taking those exogenous
hormones can't. This is not just true of the men by the way. This is
also true of the women. And this is a whole discussion into itself
probably not directly related to this month of the podcast. So, I
don't mind that people do this, but one problem is when people are
following ketogenic diets all the way through to sleep and they have
trouble with sleep or they're doing long bouts of fasting and they're
having trouble falling asleep. That makes sense. It's because their
autonomic arousal is tilted towards epinephrine release,
norepinephrine release, and dopamine release. So they have a lot of
energy but they have a hard time calming down and getting into deep
sleep. I tend to achieve that state using carbohydrates and it also
replenishes glycogen. So again, you know, I'm not trying to draw any
fire, but if I do, I'd be happy to have a conversation, about all
that. Again, no judgment, but I think that most people out there are
not aware of some of the other variables. Remember, good science is
about isolating variables. And so oftentimes what we're seeing in
social media, is we're getting presented single variables and we're
not seeing the full context of the other variables that are being
manipulated. So, I eat pasta and rice and vegetables and things like
that in the evening. Also, I just find, maybe I'm becoming one of the
last people that does that. Although I hope not. I hope there are
others out there like me. From all the literature speaks to the fact
that carbohydrates not only do that, but they also help maintain,
healthy thyroid function, et cetera. So that's my bias. That's what I
do. I do avoid caffeine and whatnot in the evening. I do take
supplements and I'll be happy at some point to put out the complete
list of supplements that I take out there. But in general, these are
the core things that I do. And they relate to a lot of the questions
that you've been asking over time. The next piece of scientific data
that I'm gonna describe is a very important piece of scientific data,
for sake of understanding how to optimize your brain and access sleep.
It also can help avoid a lot of anxiety issues. And these relate to
data from Charles Czeisler, doctor. He's an MD Charles Czeisler's lab
at Harvard Medical School. He's run a sleep lab out of Harvard Medical
School. For a long time now it has very impressive work. And what he's
shown is that the peak output, of the circadian clock for wakefulness,
in other words the peak of our wakefulness, and the suppression of the
sleep signal, actually happens very late in the day. So we have this
trough of activity and body temperatures lowest right before waking.
Then as we wake up our body temperature goes up and into the afternoon
it continues to go up and then it tends to fall in the evening and
towards bedtime. But there's a brief blip, of release of peptides and
other substances from the sleep centers in the brain, and the
suprachiasmatic nucleus that the sleep center is this preoptic area,
that if you wanna look that up. This preoptic area not far from the
circadian clock that signals the peak of alertness and wakefulness
about an hour, before bedtime. And he say, whoa, that's really weird.
But a lot of people get into bed. They're ready to go to sleep and
they're wide awake. And they think this is an unnatural thing or
there's something wrong with them. And actually it's not. This it's
believed, I don't know, again, I wasn't consulted at the design phase.
But it's believed, is a signal that is helpful to human beings to
start gathering up resources and securing themselves for a night's
sleep during which we, you know, historically were very vulnerable to
attack from other humans and from animals and so forth. And so that
desire to run around and clean the kitchen or organize things, or just
a general feeling of internal anxiety, late in the evening, that's a
natural blip that naturally passes after about 45 to 60 minutes. Now
that's often the time when people start stressing about the fact that
they have something to do the next day and they worry about not being
able to sleep and it can cascade into a whole set of things. So
another thing that I do throughout my day is I know that early day I'm
gonna be alert, afternoon I'm gonna be kinda sleepy. And then as the
evening comes around, in addition to doing all the other things I'm
doing, I anticipate, a peak in alertness in activity. And I don't
worry about it. I use that perhaps to get organized for the next day
but basically, I just go through, if I'm gonna do anything, it's gonna
be very mundane task like cleaning or things that require almost zero
effort. And that probably speaks to my cleaning abilities too. But,
the fact of the matter is we don't just go drift off into sleep.
There's this blip of alertness right before sleep that I hope just
cognitively knowing about will be helpful to people. And that raises,
yet another theme that I think is going to be very important. Which
is, physiological mechanisms.
Like these changes in alertness. Or using breathing tools. Something
we'll talk about in future episodes to shift our levels of autonomic
arousal. Those are concrete, biological phenomenon. So is fasting.
Fasting will increase alertness that way. So is caffeine. Not
everybody's susceptible to caffeine to the same degree of others But,
it's a physiological mechanisms. We know the receptors. We know the
ligands as they're called which bind to the receptors. We know the
mechanisms. They involve cortisol and epinephrine. Those are the sorts
of things that I personally try and leverage, toward my learning and
optimization of my brain, and my activity. Doing physical activity
early in the day for instance, tends to give us a longer duration,
wake up signal, intends to accelerate waking up early in the day.
That's why working out late in the day can sometimes cause people to
have trouble falling asleep. It will also phase delay. You make it so
that you wanna wake up later the next day. It's not just 'cause you're
tired. It's 'cause you shifted your clock with activity and
temperature. Many people ask me about subjective tools for plasticity.
What about visualization? Can we just imagine doing a particular
activity, will that help us get better at that activity? There's some
evidence that visualization can do that, it's true. But here's the
important distinction. And here's why I personally, don't do much,
deliberate visualization. First of all, I get my best ability, or
achieve my best ability to visualize things when I'm in kind of a
sleepy state. I don't know why but that's when I'm able to, direct my
brain towards internal visualization with my eyes closed. And
generally I fall asleep and I can't remember anything that I was
thinking about before. Some people, and these are work that was done
many years ago by Roger Shephard and by others. Roger was at Stanford
but and other labs have done this too, of course, of rotating objects
physically in their mind, as a way of improving or looking at the
speed of spatial calculations and so forth. Some people are very good
at visualization. They can close their eyes and they can just see
objects and rotate them deliberately, et cetera. A lot of people like
me, when we start doing that, our mind drifts too easily. But I like
to think I'm a reasonably focused person in the waking state. So,
visualization it's interesting 'cause I think people are very
attracted to the idea, that they can just think about something and
then get better at it that way. And it's probably true, if you can be
very linear in the way that you visualize things. So I wanna repeat
that. I think visualization does have certain power. If you can remain
very linear and deliberate and focused, in the visualization. But many
people like myself who are challenged, with maintaining that linear
focus with eyes closed, and in visualization, they don't get much out
of visualization. And I think the data on performance really supports
that. Now there are examples where for instance, people will injure
one limb and then they will exercise the intact limb, or the non-
injured limb rather. And they will visualize the opposite limb.
Sometimes there's even the use of mirror boxes. So that let's say my
left limb is injured. I'm maintaining activity with my right limb but
I'm using a mirror box so it looks like my left limb is working well.
Yes, there's some top-down or feedback mechanisms, that support the
idea that the injured limb can rehabilitate more quickly, et cetera.
But, those are fairly elaborate schemes. I don't want a mirror boxes
around my house. I think these are specialized circumstances. They're
a little bit like the examples that we see in the news where, oh, so-
and-so has a stroke and then spontaneously speaks a new language. I
don't know what the answer to that is. It shows that the brain has
associative networks that are typically suppressed and those can be
unleashed. But you certainly don't wanna go out and give yourself a
stroke deliberately to try and unmask some skill, because there's no
concrete way to go about that in a way that you could really know that
you were gonna offset the detrimental effects of the stroke. In fact,
I think it'd be a terrible idea. So I think what I'm trying to
describe is how a typical, I don't know if I'm typical or normal. I
mean, I've been told otherwise, and certainly not normal. But in terms
of the way that I structure my day, I think that's normal. That's
pretty normal. I tend to wake up right around, I don't know, somewhere
between 5:30 and 7:00 AM, depending on what I've been doing the night
before.
I tend to go to sleep somewhere around 10:30, 11:00. I tend to have
one bout in the morning where I can do really focused hard work and I
can really activate the go pathway while also activating the no-go
pathway so that I can really stay focused. But I rely on some tools. I
have a period in the afternoon where I get sleepy and kinda out of it
like I think most people. And I tend to come out of that recognizing
the opportunity of that slightly sleepy state for creative work and
for thinking about things in novel ways. I get light a couple of times
a day. I eat low carb during the day, and I don't say high, but you
know, higher carbs I eat starches, in the evening. So in a way I can
sleep. And then, I really anticipate that late afternoon peak and
alertness. Excuse me, late night peak and alertness that many people
confuse for insomnia or challenges when actually they're really quite
normal in their circadian cycle. And then I fall asleep. And if all
goes well, I stay asleep for four or five hours. Typically it's three
or four and then I wake up. I think I'm like most people I wake up
during the middle of the night. Now, one thing that I don't think has
been discussed a lot but one of my colleagues at the Stanford sleep
lab tells me is that, every hour and a half or so, we all wake up.
Some of you even look around, believe it or not and go right back to
sleep. And you don't recognize it. Waking up periodically during sleep
is the norm. It is not abnormal. I don't know why this hasn't been
discussed more prominently. I tend to wake up and if there's a bright
light coming through the blinds, or if there's some noise upstairs, if
Costello's snoring particularly loud, I might get up, I might, go use
the restroom. I might, you know, pick up a book and read under low
light or something and then I generally fall back asleep and wake up,
typical time for me again, 5:30 or 7:00 AM in the morning. This waking
up in the middle of the night thing as I mentioned at the beginning of
the podcast episode today, is not necessarily abnormal.
What it probably reflects, is that the real time meaning, the time
that I should go to sleep is probably closer to eight o'clock. The
word midnight was literally supposed to mean mid night. We, many
meaning all of us were meant to go to sleep and wake up with the rise,
you know, with the setting and rising of the sun. And we know this
because this beautiful study from University of Colorado, where they
took people out into the wilderness to reset their circadian clocks,
measured by way of melatonin and cortisol. They were completely out of
whack from interacting with screens and staying up too late, et
cetera. And they basically had them view the sunrise and view the
sunset each evening and almost all of them not all of those students,
but all of them, got onto a schedule where they naturally wanted to go
to sleep at sunset and wake up around sunrise or just before sunrise,
even when they were brought back into a normal artificial light
setting. So I think that's the natural pattern and we've just deviated
from it with artificial lights. So waking up at 3:00 AM or 4:00 AM
doesn't necessarily mean that there's something screwed up about you.
Or that you have anxiety or something, although you might. What it
likely means is that you were supposed to go to bed much earlier. And
because of this asymmetry in the autonomic nervous system where it's
much easier for us to push, and to delay our sleep time than it is to
accelerate our wake-up time. In other words, it's easier to stay up
and hang out at the party even if you don't wanna be there than it is
to wake up when you're exhausted and your fast sleep. Most people are
pushing through, into the late hours of the evening and night and
going to bed much later than they naturally would want to. And so I
personally don't want to go to bed at 8:00 PM. A lot of good things
happen between 8:00 PM and 11:00 PM. And so, I wanna enjoy those. And
I push through the evening hours. But as a consequence, I'm running
out of melatonin. My melatonin release is basically subsided by about
3:00 or 4:00 AM and so it makes sense that I would wake up. I don't
take melatonin for reasons discussed in previous episodes. I do rely
on things like magnesium glycinate or magnesium threonate, things like
theanine. I'm not saying any of you need to take those. That's just
what I happened to take in order to facilitate my sleep. And it's been
of great benefit to me. If I wake up in the middle of the night and
I'm anxious for whatever reason or my mind is looping, I have a couple
of rules.
One is, I don't trust anything I think about. When I wake up in the
middle of the night, any of it. Unless I've had a magnificent dream
and I wanna write it down, I'll do that every once in a while.
Typically when I go back and read it, it's not at all magnificent. I
can't ever remember coming up with anything really fantastic in one of
my dreams that stuck with me, or that I implemented. I don't really
trust the kind of thinking that happens in those wee hours of the
circadian cycle for me. There's just nothing either for me terribly
creative, or worth linear implementation at that time. But, one thing
that has been very helpful is to sometimes do one of these non sleep
deep rest protocols as a way to go back into sleep. So a hypnosis app
or some of the scripts by Michael Sealey that I've mentioned before,
or the Reveri Health, or a yoga nidra protocol. Those for me have been
very useful at helping me turn off, kinda looping thinking in the
middle of the night and fall back asleep. In reviewing my schedule for
you, just as a context for how to implement certain types of tools for
optimizing learning.
Realize that, it gives the impression that there's a 90 minute bout of
learning and work in the morning and then a 90 minute bout of creative
type work in the afternoon and that's it. There are a lot of hours in
between of course, and I just wanna be very clear. Those hours for me
are occupied by pretty not mundane tasks but things that are kinda
random. Those are things like email or attending to Zoom meetings or
meeting with colleagues and students and things of that sort. I
sometimes will read just for sake of my own enrichment. I mentioned
those two 90 minute bouts because those are the two 90 minute bouts
where I'm trying to expand on, the mental capacities that I already
have. They're to really where I'm trying to stretch and grow what I'm
able to do on a regular basis reflexively. So I wanna emphasize that
the whole day doesn't just consist of those two 90 minute bouts.
That's not the way my schedule works and that's not the way my
lifestyle is arranged. Which is fortunate 'cause I enjoy all those
other things as well. And so for many of you out there who are in
school or have family demands or other demands, the key is to slot in
those brain optimization segments of about 90 minutes, one or two, or
maybe more per day. You're trying to slot those in wherever you can
amidst to your other, obligations and things that you need to do. But,
you wanna do that in an intelligent way that's anchored to your
biology. And then you wanna do a number of things which I've talked
about today, in order to optimize those sessions to get the most out
of them. So as we round up, I acknowledged that once again I've
covered a huge range of topics, related to how to optimize learning,
and brain change, and essentially mental performance.
And I've set that in the context, of some biological mechanism like
the basal ganglia, go, no-go pathways, the circadian autonomic system,
and some of the relationship between food and fasting and particular
types of food in alertness or sleepiness. Linear focus and strategy
implementation is best served by high alert states, although not too
alert, and how creative states, at least the first phase of
creativity, which is the creative arrangement, kind of brainstorming
stage is supported by states of kind of relaxation or even slightly
sleepy. But the creative implementation is a very linear and focused
and deliberate process, much like the highly focused state, that I
described. I described how I do these things so just to give you a
context. A lot of you asked for, you know, what I do in order to set
it within a context. But by no means are these rigid times and ways of
doing things. But, I think it's fair to say that, what I do has a
circadian logic. It also has grounding in biological mechanisms that
are very concrete. That we know the cells and mechanisms and neuro-
transmitters. And then some of them are a little bit headed out into
the, what we would call, kind of emerging, or, you know, I don't wanna
say cutting edge, but maybe front edge of what neuroscience is
starting to understand about creativity and so forth. Those are areas
that are just now, coming to some clarity. And there is certainly is
still a lot more work to do. There are a lot of different ways to
arrange one's routine. But hopefully, the tools and practices I
described, will be useful to you. I wanna mention that a lot of people
ask me about specific tools and practices.
They asked me of Wim Hof Breathing, about ice baths. Have talked a
little bit about ice baths before I think in cold exposure. About
binaural beats and things of those sorts. I think the way to look at
any tool, to modulate or measure the nervous system, is ask whether or
not it's going to move you up or down, the state of autonomic arousal.
Whether or not it's gonna can make you more alert or more calm. More
focused or less focused. That's kind of the two axes here that we need
to think about. Sometimes you wanna be more alert than you are. And
indeed, things like cold showers, ice baths, super oxygenation, Wim
Hof type breathing, will bring your level of alertness up. There's
some cautionary notes associated with each of those. You need to read
and understand those cautionary notes, for yourself. Everybody's
different and some of those carry certain dangers, under certain
conditions. Others have huge margins for safety. An ice bath generally
wakes you up. A warmer, hot bath generally calms you down, right?
Binaural beats, there aren't a lot of data and quality peer-reviewed
journals. I did put in the effort to go search it out. There are a
few. Binaural beats are listening to frequencies of sound that
slightly differ offset for the two ears. It has been shown, can shift
the brain into particular states. You'll notice today, I didn't really
talk about alpha or theta or gamma rhythms. I personally in reviewing
the literature, I don't think it's fair to say that alpha states are
great for X and theta states are great for Y. And besides, most of us
aren't walking around our homes and our workplaces, geared up to EEG
machines or with wires down below our skull. So we don't know when
we're in those states anyway. I think the subjective reading of
whether or not one is alert, or calm, and whether or not that
alertness or calmness matches the goal or that thing that we're trying
to achieve in terms of learning, including sleep, is the most
valuable, internal tool and recognition that we can all have. In other
words, if I want to be very alert and I need to be very alert and I'm
exhausted, there might be tools that I should use to wake up. It might
also speak to the fact that I might not have slept as well as I could
have or should have the night before. So it's really about a match
between where we are on that autonomic arousal scale and what we're
trying to achieve. And indeed, there are gonna be a lot of tools
including supplements and other prescription drugs and things that can
help, move us along that autonomic continuum, up toward more alertness
or toward more calmness. But ultimately it's about tailoring that
alertness and calmness to the specific types of learning and
activities that you are going to do and perform. And, it's reciprocal.
Meaning some of those activities like exercise early in the day will
increase your level of autonomic arousal and alertness. Certain foods,
will tend to wake you up. Certain foods will tend to make you more
sleepy and the volume of food and the timing of food is a factor also.
So it's a huge parameter space. It's a huge set of variables, that
impacts whether or not we're feeling well, performing well, learning
great, or not learning great. And the key thing is to become an
observer, of your own system and what works for you. And, to recognize
that there are two bins of tools for optimizing, learning and brain
performance. One, are tools that are really anchored in biological
mechanism and we are certain of what those are. I've talked about some
of those. The other, the more subjective tools, for some of you
visualization, might work terrifically well. For some of you, one song
might really wake you up because of the associations you have with it.
And for me, I might just, you know, it might repel me from the room.
'Cause I don't like it or it might put me to sleep. But of course,
volume is kind of a universal. Loud music tends to wake people up.
Soft music, doesn't tend to wake them up quite as much. So, part of
today is really getting you to think about, in a scientific way, in a
structured way, about the non-negotiable elements which are that
you're going to have a period of every 24 hour cycle when you tend to
be more awake, and a period when you tend to be more asleep. And how
to leverage those so you're not fighting an uphill battle to wake up
when you actually, would want to be in and should be sleepy and not
trying to go to sleep when you are naturally, going to be most awake.
So a lot of it is really anchors back to those core mechanisms of
biology, and then you start layering on the different protocols of
food and supplementation, et cetera. And I think it's important to
recognize that some people are just more go and no-go.
And some people, are just calmer and have a harder time getting into
action in an activity. It's just the way that we're wired. Some of us
have autonomic nervous systems that are more geared towards
parasympathetic, calm states. One of the reasons I love bulldogs, not
just my bulldog, is that they are very calm animals. In fact, they
make no spontaneous movements unless there's something to respond to.
And I find that incredibly relaxing. Other animals like pit bulls, who
I also really like and enjoy and other species, their tail is always
wagging. And that they're always in a position to make a movement at
any any second 'cause they tend to ride at pretty high levels of
autonomic arousal. They pop up really quickly. When you say it's time
to go for a walk, Costello does it one limb at a time. And sometimes
he just goes back to sleep. And so, that there are people like that
too. And so you have to know where you are and what particular goals
you're trying to pursue. As a final closure to this, I wanna emphasize
that today as always, I've strived to be accurate. I'm sure if I made
mistakes, some of you will point out and I appreciate that.
And I'll post a correction, if we agree that I indeed misspoke, or
misguided something. But, by no means was I exhaustive. I mean, I
might've exhausted some of you but the information wasn't exhaustive.
Meaning, there's no way that I could cover all the ways in which, we
optimize or can optimize learning and performance. I think we've
touched on a number of them that I hope, that you'll find value in and
that you'll explore in your own lives. We are continuing with this
theme because that's what we do, for this podcast. We stay on one
theme for an entire month. For the next episode, we're going to
explore two, very essential aspects of neuroplasticity. That actually
relate to learning. Which are pain, pain management, and neural
regeneration. And for those of you that, don't have injuries or don't
suffer from chronic pain, the discussion is still gonna be a very
important one. Because it's not just going to be about pain that
you're trying to get rid of. It's also going to be about how certain
sensory experiences, within the pain network, can become amplified, as
well as how we can use top-down modulation. We can use our mind, to
suppress the pain response. We're also gonna talk about some of the
hardwired mechanisms, that are bottom up, that exist in our periphery,
in our body to control pain. And we're also gonna discuss, a number of
interesting interactions between the pain system and the learning
system. So again if you're, not interested in pain per se, it still is
going to be a very valid conversation for sake of understanding how to
optimize brain performance. And neuro-regeneration goes hand in hand,
with that discussion. So I hope you'll join us for that. I suppose I'd
be remiss if I didn't mention that, Costello has been snoring
extremely loudly today. He had a good long walk this morning which
means up the driveway down the driveway. He's an old dog. So if you've
been hearing him in the background and it's been distracting, now you
know why. It probably relates to, where you were on your level of
autonomic arousal. And I'll leave it to you to answer that question
for yourself. Many of you continue to graciously ask how you can help
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Finally, in previous episodes today, and in future episodes, I
mentioned supplements. Supplements are one way, certainly not the only
way, but they're one way in which we can modulate, our nervous system,
for sake of better of sleep, learning, alertness, and several other
things as well. If you're interested in supplements, we've partnered
with Thorne, T H O R N E, because Thorne supplements have very high
stringency in terms of, what's in the bottle, the amounts of the
substances that are in each capsule or pill, et cetera. And, they have
partnered with other groups such as the Mayo Clinic, all the major
sports teams. So there's very high rigor associated with Thorne which
is why we've decided to partner with them. If you'd like to check out
Thorne supplements and see the supplements that I take, you can go to
Thorne, thorne.com/u/huberman. And you'll see a list of some of the
supplements that I take. As well, you'll get 20% off, any of the
supplements listed there, as well as anywhere else on the Thorne
website. So that's Thorne, thorne.com/u/huberman, for 20% off, any
Thorne supplements. Last but not least, on behalf of me and Costello,
I wanna thank you for your time and attention today. And as always,
thank you for your interest in science. [upbeat music]
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Links I mention:
* Spike Jonze/Kenzo Perfume: https://www.youtube.com/watch?v=NoMqvniiEkk
* Dr. Charles Czeisler, MD, PhD: https://en.wikipedia.org/wiki/Charles_Czeisler
* Reveri Health (Free) Research Supported Hypnosis: https://reverihealth.com/
* The NSDR I do every day (30 min): https://www.youtube.com/watch?v=iEw5BkK9K9A&t=15s
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Timestamps below.
00:00 Introduction
04:53 The Daily (Learning) Routine
07:13 Plasticity Is NOT the Goal
09:26 No Obligation To Change
09:59 Practical Plasticity Language
13:37 Pillars of Neuroplasticity
15:16 My Daily Routine: Chronotype Management
17:20 Plasticity of the Wake-Sleep Circuit: Morning Light
19:09 Delay Caffeine!
21:19 Light, Black Coffee, Hydrate
22:57 High Alertness, Linear Tasks/Learning
25:12 Background Music/Noise: Yay or Nay?
26:52 “GO” versus “NO-GO”: The Basal Ganglia & Dopamine
28:37 Leveraging GO, NO-GO
30:08 Non-Specific Action
32:06 Clear, Calm, Focused: The GO, NO-GO Sweet Spot
33:48 When Very Alert, Work In Silence; When Tired, Include Background Noise
35:28 Temperaments Vary: And So Should This
36:01 The 3 Hour-Long Post Waking Block
36:20 Early Morning Exercise and GO Networks
38:05 Fasting, Ketogenic Diets, & Food Volume
39:41 Sodium/Electrolytes
40:57 Avoiding Hot Lunch, Food Pre-Occupation
42:01 Post Lunch Low/No Cognitive Load
42:56 Hydration, NSDR, Nap
44:54 Creativity Work
46:26 Creativity Is A Two-Part Phenomenon
51:15 Psychedelics
58:20 Afternoon Light As Insurance
1:00:26 Evening Nutrition
1:01:21 Repacking Glycogen: Hormonal Factors
1:04:11 Pre-Sleep Anxiety: Normal and Easy To Solve
1:07:08 The Power of Objective Tools
1:08:14 Visualization
1:11:34 Mini-Synthesis
1:13:31 Resetting Your Clock
1:15:55 Don’t Trust the Mind Now
1:16:59 Two, (Maybe 3) Optimization Bouts Per Day
1:18:33 Organizational Logic
1:20:22 Wim Hof Breathing, Binaural Beats, Ice Baths, Etc.
1:24:42 Variation Among People, and Dogs
1:25:49 Accurate Versus Exhaustive
1:27:57 Familiar and New Ways To Support
Please note that The Huberman Lab Podcast is distinct from Dr.
Huberman's teaching and research roles at Stanford University School
of Medicine. The information provided in this show is not medical
advice, nor should it be taken or applied as a replacement for medical
advice. The Huberman Lab Podcast, its employees, guests and affiliates
assume no liability for the application of the information discussed.
[Title Card Photo Credit: Mike Blabac https://www.blabacphoto.com/]