Huberman Lab - Essentials: Optimize Your Learning & Creativity With Science-Based Tools
Episode Date: January 2, 2025In this Huberman Lab Essentials episode, I explain how to boost creativity and enhance learning by aligning with the body’s natural rhythms and strategically using protocols to optimize states of al...ertness or calm. I outline tools to improve focus and learning, including when to use specific techniques based on the time of day and how to adjust focus and tasks according to energy levels. I also discuss the two essential components of creativity and explain how to structure productive, creative work sessions. By combining biological tools — such as exercise, meals, hydration, and sleep — with subjective methods like music, I demonstrate how to tailor your approach to align with your unique biological rhythms and individual goals, fostering greater creativity and learning. Huberman Lab Essentials are short episodes, approximately 30 minutes, focused on key scientific and protocol takeaways from past Huberman Lab episodes. Essentials are released every Thursday, while full-length episodes continue to be released every Monday. Read the full show notes at hubermanlab.com. Thank you to our sponsors AG1: https://drinkag1.com/huberman David: https://davidprotein.com/huberman LMNT: https://drinklmnt.com/huberman Timestamps 00:00:00 Huberman Lab Essentials; Neuroplasticity 00:01:50 Types of Neuroplasticity 00:03:46 Autonomic Arousal, Sleep 00:05:06 Sponsor: AG1 00:06:34 Waking Up, Tools: Sunlight, Caffeine Delay, Hydration 00:09:39 Alertness, Morning & Work Bout 00:10:05 Dopamine & Learning; Tool: Music & Alertness 00:14:24 Sponsor: David 00:15:40 Tool: Exercise Early; Morning Work 00:16:58 Meals; Afternoon Dip & Work, Tools: Hydration, Non-Sleep Deep Rest (NSDR) 00:19:21 Creativity: Exploring vs. Implementation 00:21:44 Psychedelics, Sensory Blending; Tool: Timing Creative Work 00:23:50 Sponsor: LMNT 00:24:07 Tool: Evening Sunlight; Lights, Evening Meal & Carbohydrates 00:26:09 Natural Sleep/Wake Schedule; Tools: Anticipate Evening Alertness; NSDR 00:30:25 Work & Daily Schedule, Tool: 90-Minute Work Bouts 00:31:43 Optimize Biological Rhythms & Tools for Creativity & Learning Disclaimer & Disclosures
Transcript
Discussion (0)
Welcome to Huberman Lab Essentials,
where we revisit past episodes
for the most potent and actionable science-based tools
for mental health, physical health, and performance.
My name is Andrew Huberman,
and I'm a professor of neurobiology and ophthalmology
at Stanford School of Medicine.
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.
Now, 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.
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 going to share some
of my typical routines and tools.
I share them because many of you have asked
for very concrete examples of what I do and when.
And so I want to open up the discussion today
by emphasizing something that's fundamentally important,
which is that plasticity is not 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. to figure out how to access plasticity and then to direct that plasticity
toward particular goals or changes
that you would like to achieve.
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.
on a daily basis, on a weekly basis, and on a yearly basis.
First of all, there are several forms of plasticity. 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 want to hold on to forever.
And I'd 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.
For instance, if you go on vacation to Costa Rica
and you don't know your way around Costa Rica,
you want to learn the different town and the routes there,
but you don't have any intention of going back.
It's just medium term.
You want to just program it in for sake of your time there
and then you want to 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 want
to make so that their brain reflexively works differently.
Long-term plasticity is almost always the big goal.
It's I want to know how to speak that language.
I want to be able to do that skill.
I want to be able to feel this way.
I'm going to frame all this in the context of the daily life,
the weekly life and the weekly life, and the yearly life.
And that's because neural plasticity
and optimizing your brain rides on a deeper foundation
of this thing that governs plasticity,
and 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.
I've said it before, but I'll say it again.
The trigger for plasticity and 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 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 cannot 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.
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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 wake up generally more tired and groggy than I would like
because I tend to go to sleep too late.
What it means is that I'm not really matching
my hardwired needs of going to bed probably at 8.30 or 9
and waking up at 4 a.m.
So neural plasticity 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 going to tell us to get sunlight in our eyes
in the first 30 minutes of the day.
I am going to tell you to do that,
but I'm going to also tell you two things
that I 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.
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.
The other thing that I do is I delay my intake of caffeine
for the first two hours that I'm awake.
Earlier, we talked about the adenosine system
and how the accumulation of adenosine makes us sleepy
and caffeine suppresses adenosine,
it makes us feel alert.
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 release 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.
I also make sure I hydrate first thing in the morning.
There's 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 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 headaches.
So I drink water, I drink black coffee,
or I drink mate, which is just a,
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 or, and whatnot.
Here's a more or less a rule
about how the brain functions
vis-a-vis focus, learning and creativity.
Generally states of high alertness,
when we're very, very alert
are great for strategy implementation.
The sort of thing that we are very good at
when we're well rested and we're focused
and our autonomic arousal or our alertness rather
as it 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 want to implement the strategy.
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.
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 is 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?
So as a rule of thumb, if you're feeling 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.
It's called the go-no-go circuit.
We have circuits that connect our forebrain
to a 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 basal 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 biased 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 want to 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.
There are three sort of levels of autonomic arousal,
of alertness that bias us more toward go, no-go, or both.
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 going to 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 going to be very good at suppressing action.
So those are two different things,
being biased toward action
and being biased towards suppressing action
are two different things, okay?
So those are push-pull, toward action, suppress action.
So if I'm very alert, I'm aware that I willpull, toward action, suppress action. So if I'm very alert,
I'm aware that I will have a bias toward action.
It'll be hard for me to suppress non-action,
but that it's very non-specific.
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.
For most people, three hours after waking,
those three hours tends to be the period
in which they're most alert throughout the day.
So that morning three hours is quite vital.
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Now, many of you might ask about exercise
and when to exercise.
In terms of rising body temperatures,
and matching body temperature
to a 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.
This can be very good because if you want to restrict
most of your focused learning to the early part of the day,
exercising early in the day does set a neurochemical context
or milieu 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.
So in 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.
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 we'll continue working.
I typically eat my first meal right around midday,
whether or not I've exercised or not.
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 choline content for focus.
I'm just going to 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 two or 3 p.m.
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.
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 of email here,
maybe answer that email there.
And then typically around 4 p.m. or so, I do two things.
One is I make sure I hydrate,
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.
And I do that because for me, by about 4.30 in the afternoon,
I'm capable of doing basically nothing.
I personally find it a mistake to at 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.
I usually emerge from that feeling like I have
another whole day, second win,
like I could just work, work, work, work, 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.
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 want to make sure
that I can sleep later that night really well.
And this tends to be more when I do creative type work.
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.
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 configurations, 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.
When you find yourself in that kind of clear,
calm and focused mode,
creative works tend to come about very well
in those regimes.
Now I know that 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.
The problem with using substances to access creativity
is that generally the ones that,
the substances that relax people will allow them to get
into that creative brainstorming mode,
but not so good at the linear implementation mode.
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.
For some of you, that state that favors creativity
and creative learning might be better in the morning.
I don't know, you're going to have to decide.
For some of you, you're going to be late shifted.
Some of you are going to 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 the no-go pathway and suppressing action, and we're 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?
On psychedelics, people report being able to smell colors
or to hear trees, et cetera.
And that's because there's a lot of sensory blending.
However, that's led to the misconception
that sensory blending itself is a creative process.
There's nothing creative about sensory blending.
The essence of a creative process
is 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 going to accomplish that.
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.
These are clinical studies done with a psychiatrist present
that is authorized to do that,
that can help people through depression, trauma, et cetera.
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 want to 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.
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Now that gets us more to the kind of late afternoon evening.
Now I am, as I've mentioned before,
I'm a proponent of getting sunlight in the evening as well.
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 three or four 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 and evening light.
The morning light is going to advance my clock,
make my system want to 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 want to 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 hardwired 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
and then I'll start to dim them for the evening.
Cause as I've mentioned many times before,
and I'm not going to belabor the point,
you want to minimize your light exposure, especially overhead bright light them for the evening. Cause as I've mentioned many times before, and I'm not going to belabor the point, you want to minimize your light exposure,
especially overhead bright light exposure in the evening
from about 10 PM to 4 AM.
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.
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 stimulate the release of tryptophan
and the transition to sleep.
I tend to achieve that state using carbohydrates
and it also replenishes glycogen.
The next piece of scientific data
that I'm going to 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.
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 temperature is lowest right before waking.
Then as we wake up, our body temperature goes up
and into the afternoon, it continues to go up, up, up, 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
that signals the peak of alertness and wakefulness
about an hour before bedtime.
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.
I anticipate a peak in alertness and 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 going to do anything,
it's going to be very mundane tasks like cleaning
or things that require almost zero effort.
And that probably speaks to my cleaning abilities too.
I tend to go to sleep somewhere around 10, 30, 11.
And if all goes well, I stay asleep for four or five hours.
Typically it's three or four, and then I wake up.
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 midnight.
We were meant to go to sleep and wake up
with the setting and arising of the sun.
So I think that's the natural pattern
and we've just deviated from it with artificial lights.
So waking up at 3 a.m. or 4 a.m.
doesn't necessarily mean
that there's something screwed up about you.
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 want to be there,
than it is to wake up when you're exhausted
and you're fast asleep.
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 p.m.
A lot of good things happen between 8 p.m. and 11 p.m.
And so I want to 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 three or four a.m.
And so it makes sense that I would wake up if I wake up in the middle of the night and
I'm anxious for whatever reason and 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 is 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.
Those for me have been very useful at helping me turn off
kind of 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 want to be very clear.
Those hours for me are occupied by pretty,
not mundane tasks, but things that are kind of random.
Those are things like email or attending to Zoom meetings
or meeting with colleagues and students
and things of that sort.
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 really where I'm trying to stretch and grow
what I'm able to do on a regular basis reflexively.
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 your other obligations and things
that you need to do.
But you want to do that in an intelligent way
that's anchored to your biology.
And then you want to do a number of things
which I've talked about today
in order to optimize those sessions
to get the most out of them.
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 going to make you more alert
or more calm, more focused or less focused.
That's kind of the two axes here
is that we need to think about.
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 the 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.
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.
The 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
because 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 and should be sleepy
and not trying to go to sleep when you are naturally,
you know, 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, go, go, go, go,
and no go.
And some people are just calmer
and have a harder time getting into action and 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.
And so 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 always, thank you for your interest in science.