Huberman Lab - Essentials: Controlling Your Dopamine for Motivation, Focus & Satisfaction
Episode Date: August 14, 2025In this Huberman Lab Essentials episode, I explain how dopamine regulates motivation and provide science-based tools to help improve focus, discipline and overall drive. I explore how particular acti...vities affect dopamine levels and discuss how the highs, lows and baseline levels of dopamine shape your motivation and long-term satisfaction. I also explain practical strategies to boost dopamine levels, such as deliberate cold exposure, caffeine, effort-based rewards and specific supplements. Whether you're looking to enhance motivation for school, work or daily life, this episode explains how to get and stay motivated while supporting healthy dopamine levels. Read the episode show notes at hubermanlab.com. Thank you to our sponsors AG1: https://drinkag1.com/huberman LMNT: https://drinklmnt.com/huberman David: https://davidprotein.com/huberman Function: https://functionhealth.com/huberman Timestamps (00:00) Dopamine & Drive (00:33) Neuromodulators; Dopamine Effects, Parkinson’s Disease; Brain Circuits (03:36) Motivation & Dopamine Levels (04:55) Sponsors: AG1 & LMNT (07:29) Subjective Experience & Dopamine, Activities that Increase Dopamine (10:55) Dopamine Highs, Lows & Baseline; Evolutionary Context, Addiction (16:16) Dopamine Reward Prediction Error, Tool: Intermittent Rewards (18:16) Caffeine & Dopamine; Tool: Yerba Mate & Protecting Dopamine Neurons (19:40) Sponsor: David (20:53) Amphetamine, Cocaine & Challenges for Learning (22:22) Tool: Increase Dopamine & Deliberate Cold Exposure (25:06) Hard Work & Motivation, Intrinsic vs Extrinsic Rewards, Tool: Growth Mindset (30:25) Sponsor: Function (32:04) Experiences & Shifting Perception, Dopamine Balance (33:17) Compounds to Increase Dopamine: Wellbutrin, L-Tyrosine, PEA, Alpha-GPC (36:54) Social Connection; Recap & Key Takeaways Disclaimer & Disclosures Learn more about your ad choices. Visit megaphone.fm/adchoices
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Welcome to Huberman Lab Essentials,
where we revisit past episodes
for the most potent and actionable science-based tools
for mental health, physical health, and performance.
I'm Andrew Huberman, and I'm a professor of neurobiology
and ophthalmology at Stanford School of Medicine.
Today, we are going to talk all about dopamine
and what drives you to do the things that you do.
We're going to talk about motivation and desire and craving,
but also how dopamine-related
to satisfaction and our feelings of well-being.
So let's talk about dopamine.
If ever you've interacted with somebody
who just doesn't seem to have any drive,
they've given up,
or if you've interacted with somebody
who seems to have endless drive and energy,
what you are looking at there in those two circumstances
is without question a difference in the level
of dopamine circulating in their system.
Dopamine is what we call a neuromodulator.
Neuromodulators are different than neurotransmitters.
are different than neurotransmitters.
Neurotransmitters are involved in the dialogue between neurons,
whereas neuromodulators influence the communication
of many neurons.
In the nervous system, what this means
is that dopamine release changes the probability
that certain neural circuits will be active
and that other neural circuits will be inactive.
So how does dopamine work and what does it do?
Well, first of all, it is not just responsible for pleasure.
It is responsible for motivation and drive,
also for crazy,
those three things are sort of the same motivation drive and craving it also controls
time perception this turns out to be important to not end up addicted to substances
but it also turns out to be very important to sustain effort and be a happy
person over long periods of time which I think most everybody wants dopamine is
also vitally important for movement I'll explain the neural circuits for dopamine
and mindset and dopamine in movement in a moment but in diseases like Parkinson's or
or Louie's body's dementia,
which is similar to Parkinson's in many ways.
There's a depletion or death of dopamine neurons
at a particular location in the brain,
which leads to shaky movements, challenges in speaking,
challenges in particular in initiating movement.
And because dopamine is depleted elsewhere,
to people with Parkinson's and Louis, excuse me,
Louis body dementia also experience drops in motivation
and affect, meaning mood, they tend to get depressed.
and so on.
When those people are properly treated,
they can recover some fluidity of movement,
some ability to initiate movement,
and almost without question,
those people feel better psychologically,
not just because they can move,
but also because dopamine impacts mood and motivation.
So what are the underlying neural circuits?
You have two main neural circuits in the brain
that dopamine uses in order to exert all its effects.
one mainly for movement, right?
This is the substantia nigra to dorsal striatum.
And we've got this other pathway,
the so-called mesocortical limbic pathway
that's for reward reinforcement and motivation.
Now the other things to understand about dopamine
is that the way that dopamine is released
in the brain and body can differ.
There's local release, what we call synaptic release,
and then there's volumetric release.
So volumetric release is like dumping
all this dopamine out into the system.
So dopamine is incredible because it can change
the way that our neural circuits work at a local scale
and at a very broad scale.
So if I were to just put a really simple message around dopamine,
it would be there's a molecule in your brain and body
that when released tends to make you look outside yourself,
pursue things outside yourself,
and to crave things outside yourself.
Dopamine is a universal currency
all mammals, but especially in humans,
for moving us toward goals
and how much dopamine is in our system at any one time
compared to how much dopamine was in our system
a few minutes ago, that dictates your so-called quality of life
and your desire to pursue things.
This is important.
Your experience of life and your level of motivation and drive
depends on how much dopamine you have relative,
to your recent experience.
This is why when you repeatedly engage in something
that you enjoy,
your threshold for enjoyment goes up and up and up.
So I wanna talk about that process
and I want to explain how that process works
because if you understand that process
and you understand some of these schedules
and kinetics as we call them around dopamine,
you will be in a terrific position
to modulate and control your own dopamine release
for optimal motivation and drive.
I'd like to take a quick break
and acknowledge our sponsor, AG1.
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While most experiences and most things that we do
and take and eat and et cetera
won't create enormous highs and enormous lows in dopamine,
even subtle fluctuations in dopamine
really shape our perception of life
and what we're capable of and how we feel.
And so we want to guard those
and we want to understand them.
All of us have different baseline levels of dopamine.
Some of this is sure to be genetic.
Some people just simply ride at a level a little bit higher.
Some people are a little less excitable.
What dopamine does is dopamine really colors
the subjective experience of an activity
to make it more pleasurable,
to make it something that you want more of.
So what sorts of activities,
what sorts of things increase dopamine?
And how much do they increase dopamine?
Well, let's take a look at some typical things
that people do out there.
there or ingest out there.
And let's ask how much dopamine is increased above baseline.
Chocolate will increase your baseline level of dopamine
1.5 times.
So it's a pretty substantial increase in dopamine.
It's transient, it goes away after a few minutes
or even a few seconds.
Sex, both the pursuit of sex and the act of sex,
increases dopamine two times.
Nicotine.
In particular, nicotine that is smoked,
like cigarettes and so forth increases dopamine
two and a half times above baseline.
It is very short lived.
Cocaine will increase the level of dopamine in the bloodstream
two and a half times above baseline.
And amphetamine, another drug that increases dopamine,
will increase the amount of dopamine in the bloodstream
10 times above baseline, a tremendous increase in dopamine.
Exercise.
Now, exercise will have a different impact
on the levels of dopamine,
depending on how much somebody subjectively enjoys that exercise.
So if you're somebody who loves running,
chances are it's going to increase your levels of dopamine
two times above your baseline, not unlike sex.
People who dislike exercise will achieve less dopamine increase
or no increase in dopamine.
from exercise.
And if you like other forms of exercise
like yoga or weightlifting or swimming or what have you,
again, it's going to vary by your subjective experience
of whether or not you enjoy that activity.
This is important and it brings us back
to something that we talked about earlier.
Remember that mesocortico-limic pathway?
Well, the cortical part is important.
The cortical part actually has a very specific part,
which is your prefrontal cortex.
The area of your forebrain that's involved
in thinking and planning and involved in assigning
a rational explanation to something
and involved in assigning a subjective experience to something.
So certain things, chemicals have a universal effect.
They make everybody's dopamine go up.
So some people like chocolate, some people don't of course,
but in general it causes this increase in dopamine.
But sex, nicotine, cocaine, amphetamine,
those things cause increases in dopamine.
in everybody that takes them.
Now I've been alluding to this dopamine peaks
versus dopamine baseline thing
since the beginning of the episode.
Now let's really drill into what this means
and how to leverage it for our own purposes.
In order to do that, let's take a step back
and ask why would we have a dopamine system like this?
Why would we have a dopamine system at all?
Well, we have to remember what our species' primary interest is.
Our species, like all species, has a main interest.
and that's to make more of itself.
It's not just about sex and reproduction.
It's about foraging for resources.
Resources can be food, it can be water,
it can be salt, can be shelter,
can be social connection.
Dopamine is the universal currency
of foraging and seeking.
We sometimes talk about motivation and craving,
but what we mean in the evolutionary adaptive context,
what we mean is foraging and seeking,
seeking water, seeking food, seeking mates,
seeking things that make us feel good
and avoiding things that don't make us feel good,
but in particular seeking things
that will provide sustenance and pleasure in the short term
and will extend the species in the long term.
Once we understand that dopamine is a driver for us to seek things,
it makes perfect sense as to why it would have a baseline level
and it would have peaks
and that the baseline and peaks would be related
in some sort of direct way.
Here's what I mean by that.
Let's say that you were not alive now,
but you were alive 10,000 years ago.
And you woke up and you looked and you realized
you had minimal water and you had minimal food left.
You need to be able to generate the energy
to go seek those things.
So dopamine drives you to go out and look for things.
Maybe you hunt an animal and kill it
or you find an animal that was recently killed
and you decide to take the meat.
You are going to achieve,
or I should say experience,
some sort of dopamine release,
you found the reward, that's great.
But then it needs to return to some lower level.
Why?
Well, because if you just stayed there,
you would never continue to forage for more.
It doesn't just increase your baseline
and then stay there, it goes back down.
And what's very important to understand
is that it doesn't just go back down
to the level it was before.
It goes down to a level below
what it was before you went out seeking that thing.
We really all,
all have a sort of dopamine set point.
And if we continue to indulge in the same behaviors
or even different behaviors that increase our dopamine
in these big peaks over and over and over again,
we won't experience the same level of joy
from those behaviors or from anything at all.
Now that has a name, it's called addiction,
but even for people who aren't addicted,
even for people don't have an attachment
to any specific substance or behavior,
this drop in below baseline after any,
peak in dopamine is substantial,
and it governs whether or not we are going to feel motivated
to continue to pursue other things.
Fortunately, there's a way to work with this
such that we can constantly stay motivated,
but also keep that baseline of dopamine
at an appropriate healthy level.
Earlier, we were talking about how dopamine
is released between neurons, and I mentioned two ways.
One is into the synapse where it can activate
the post-synaptic neuron,
and the other was what I called volumetric release,
where it is distributed,
more broadly, it's released out over a bunch of neurons.
In both cases, it's released from these things
we call synaptic vesicles, literally little bubbles,
tiny, tiny little bubbles that contain dopamine,
they get vomited out into the area or into the synapse.
We can only deploy dopamine that is ready to be deployed
that's packaged in those little vesicles and ready to go.
It's just the readily releasable pool.
And now it should make perfect sense
why if you take something or
do something that leads to huge increases in dopamine,
afterward your baseline should drop
because there isn't a lot of dopamine around
to keep your baseline going.
Fortunately, most people do not experience
or pursue enormous increases in dopamine
leading to these severe drops and baseline.
Many people do, however, and that's what we call addiction.
When somebody pursues a drug or an activity
that leads to huge increases in dopamine,
and now you understand that afterwards,
that afterward the baseline of dopamine drops
because of depletion of dopamine,
the readily releaseable pool.
The dopamine is literally not around to be released
and so people feel pretty lousy.
And many people make the mistake of then going
and pursuing the dopamine evoking,
the dopamine releasing activity or substance again.
Thinking mistakenly that it's going to bring up their baseline,
it's going to give them that peak again.
Not only does it not give them a peak,
their baseline gets lower
and lower because they're depleting dopamine
more and more and more.
And eventually what typically happens
is they will stop getting dopamine release
from that activity as well.
And then they drop into a pretty serious depression.
Now, of course, we all should engage in activities
that we enjoy.
The key thing is to understand this relationship
between the peaks and the baseline
and to understand how they influence one another.
So let's talk about the optimal way
to engage in activities or to,
to consume things that evoke dopamine.
How are we supposed to engage with these dopamine evoking
activities in ways that are healthy and beneficial for us?
How do we achieve these peaks,
which are so central to our well-being
and experience of life without dropping our baseline?
And the key lies in intermittent release of dopamine.
The real key is to not expect or chase
high levels of dopamine release
every time we engage in these activities.
Intermittent reward schedules are the central schedule
by which casinos keep you gambling,
the central schedule by which elusive partners
or potential partners keep you texting and pursuing
on either side of the relationship.
Intermittent schedules are the way that the internet
and social media and all highly engaging activities
keep you motivated and pursuing.
There's something called dopamine reward prediction error.
When we expect something to happen,
we are highly motivated to pursue it.
If it happens, great, we get the reward.
The reward comes in various chemical forms,
including dopamine.
And we are more likely to engage in that behavior again.
This is the basis of casino gambling.
This is how they keep you going back again and again and again,
even though on average, the house really does win.
You can transplant that example
to any number of different pleasurable activities.
Now, some activities naturally have
this intermittent property woven into them, right?
We sometimes have classes that we like
and other classes we don't like.
We don't always get straight A's.
Sometimes we don't get rewarded with the outcome
that we would like.
But understand that your ability to experience
motivation and pleasure for what comes next
is dictated by how much motivation and pleasure
and dopamine you experienced prior.
There's one exception, which is caffeine,
because it does upregulate these D2D3 receptions.
So it actually makes whatever dopamine is released by that activity
more accessible or more functional
within the biochemistry and the pathways of your brain and body.
While coffee or tea or other forms of caffeine
will have this effect of increasing dopamine receptors,
Yerba Mote, something I've talked about before on this podcast,
has some interesting properties.
First of all, it contains caffeine.
It's also high in antioxidants.
It also contains something called GLP1,
which is favorable for management of blood sugar levels.
Yerbamate, it turns out,
has also been shown to be neuroprotective
specifically for dopaminergic neurons.
Ingestion of Yerba Mata and some of the compounds
within Yerbamate can actually serve
to preserve the survival of dopamine neurons
in both the movement-related pathway
and the motivation pathway.
If one were going to consume caffeine,
you might consider consuming that caffeine
in the form of Yerbamate,
both for sake of,
upregulating dopamine receptors
and getting more of a dopamine increase
and of course for the stimulant properties of caffeine
if that's what you're seeking.
And in addition to that,
because Yerbamate does appear to have
some sort of neuroprotective
and in particular dopamine neuron protective properties.
I'd like to take a quick break
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There's also evidence that two substances that greatly increase dopamine, namely
amphetamine and cocaine, can cause long-term problems with the dopaminergic pathways.
This is largely based on a study that was published some years ago, 2003, and the title
of the paper pretty much tells the story, amphetamine or cocaine limits the ability of
later experience to promote structural plasticity in the neocortex and nucleus.
accumbens. Neocortex is the outer shell of the brain, more or less. And the nucleus
accumbens is part of that mesolimbic dopamine pathway for motivation, drive, and reinforcement.
Neuroplasticity, of course, is the brain's ability to change in response to experience.
And neuroplasticity is the basis of learning and memory and essentially remodeling of our neural
circuitry in positive ways of all kinds. And this study was really one of the first to show
that ingesting amphetamine and cocaine because of the high peak in dopamine that it creates
and the low dopamine state, the baseline drop that it creates afterwards limits plasticity
and learning subsequent to taking amphetamine and cocaine. This should serve as a serious
cautionary note that amphetamine and cocaine not only can cause a drop in baseline dopamine
but can actually put the brain into a state in which it cannot learn and moderate.
to get better at least for some period of time.
There are activities that we can do
that will give us healthy, sustained increases in dopamine,
both the peaks when they happen
and to maintain or even increase our baseline levels of dopamine.
What are some of these activities?
Well, in recent years, there's been a trend
toward more people doing so-called cold exposure,
getting into cold showers, taking ice baths,
exposing oneself to cold water of various kinds.
can in fact increase our levels of dopamine
as well as the neuromodulator neuropenephrine.
First of all, some of the safety parameters.
Let's establish those first.
Getting into very, very cold water, you know,
30 degree Fahrenheit or even low 40 degree Fahrenheit
can put somebody into a state of cold water shock.
I mean, people can die doing that.
So obviously you wanna approach this with some caution.
But for most people, getting into 60 degree water
or 50 degree water can have tremendously beneficial
results on your neuromodulator systems,
including dopamine.
What temperature of water you can tolerate
will depend on how cold water adapted you are
and how familiar you are with the experience
of getting into cold water.
Now, the study, human physiological responses
to immersion into water of different temperatures.
It's a really interesting study.
They looked at people getting exposed to water
that was warm, moderately cold or very cold.
Upon getting into cold water,
the change,
Changes in adrenaline and noradrenaline,
epinephrine and norapinephrine,
were immediate, but then what was interesting
is they observed that dopamine levels started to rise
somewhat slowly and then continued to rise
and reach levels as high as 2.5 times above baseline.
That's a remarkably high increase.
Why would that be good?
Up until now, I've basically said,
getting increases in dopamine are detrimental to your baseline.
Well, this.
does appear to raise the baseline of dopamine
for substantial periods of time.
And most people report feeling a heightened level
of calm and focus after getting out of cold water.
So cold water exposure turns out to be a very potent stimulus
for shifting the entire milieu,
the entire environment of our brain and body
and allowing many people to feel much, much better
for a substantial period of time.
It can be very stimulating,
so typically doing it early in the day,
It's going to be better.
Some people will indeed do that seven days a week,
other people three days a week,
other people every once in a while.
What I can say is once you become cold water adapted,
once it no longer has the same impact of novelty,
then it will no longer evoke this release.
Now I'd like to talk about the positive aspects
of rewards for our behavior
and the negative aspects of rewards for our behavior.
And from that, I will suggest a protocol
by which you can achieve a better relationship
to your activities and to your dopamine system.
In fact, it will help tune up your dopamine system
for discipline, hard work and motivation.
Hard work is hard.
Most people work hard in order to achieve some end goal.
End goals are terrific and rewards are terrific,
whether or not they are monetary, social, or any kind.
However, because of the way that dopamine relates
to our perception of time,
working hard at something for sake of a reward
that comes afterward can make the hard work
much more challenging and make us much less likely
to lean into hard work in the future.
Let me give you a couple examples by way of data and experiments.
There's a classic experiment done actually at Stanford
many years ago in which children in nursery school
and kindergarten drew pictures,
And they drew pictures because they liked to draw.
The researchers took kids that liked to draw,
and they started giving them a reward for drawing.
The reward generally was a gold star
or something that a young child would find rewarding.
Then they stopped giving them the gold star.
And what they found is the children had a much lower tendency
to draw on their own.
No reward.
Now remember, this was an activity that prior
to receiving a reward,
the children intrinsically enjoyed and selected to do.
What this relates to is so-called intrinsic
versus extrinsic reinforcement.
When we receive rewards,
even if we give ourselves rewards for something,
we tend to associate less pleasure
with the actual activity itself that evoked the reward.
If you get a peak in dopamine from a reward,
it's going to lower your baseline
and the cognitive interpretation is that,
You didn't really do the activity
because you enjoyed the activity,
you did it for the reward.
It's also important to understand
that dopamine controls our perception of time.
When we engage in an activity,
let's say school or hard work of any kind or exercise,
because of the reward we are going to give ourselves
or receive at the end.
We actually are extending the time bin
over which we are analyzing or perceiving that experience.
And because the reward comes
at the end, we start to dissociate the neural circuits
for dopamine and reward that would have normally been active
during the activity and we have the experience
of less and less pleasure from that particular activity
while we're doing it.
Now this is the antithesis of growth mindset,
which is this striving to be better,
to be in this mindset of I'm not there yet,
but striving itself is the end of,
and that of course delivers you to tremendous performance
has been observed over and over and over again
that people that have growth mindset,
kids that have growth mindset end up performing very well
because they're focused on the effort itself.
And all of us can cultivate growth mindset.
The neural mechanism of cultivating growth mindset
involves learning to access the rewards from effort and doing.
And that's hard to do because you have to engage
this prefrontal component of the Mesolimbic circuit,
You have to tell yourself, okay, this effort is great.
This effort is pleasureful.
What you find over time is that you can evoke dopamine release
from the friction and the challenge
that you happen to be in.
The beauty of this mesolimbic reward pathway
is that it includes the forebrain.
So you can tell yourself the effort part is the good part.
I know it's painful.
I know this doesn't feel good,
but I'm focused on this.
I'm going to start to access the reward.
You will find the rewards, meaning the dopamine,
mean release inside of effort,
if you repeat this over and over again.
And what's beautiful about it
is that it starts to become reflexive
for all types of effort.
When we focus only on the trophy,
only on the grade, only on the win as the reward,
you undermine that entire process.
So how do you do this?
You do this in those moments of the most intense friction,
you tell yourself that in that moment,
you are doing it by choice
and you're doing it because,
You love it.
The ability to access this pleasure from effort
aspect of our dopaminergic circuitry
is without question the most powerful aspect
of dopamine and our biology of dopamine.
And the beautiful thing is it's accessible to all of us.
And just to really underscore the things
that can interfere with and prevent you
from getting dopamine release from effort itself,
don't spike dopamine prior to engaging an effort.
And don't spike dopamine after engaging an effort.
Learn to spike your dopamine from effort itself.
I'd like to take a quick break
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As a consequence, I decided to join their scientific advisory board and I'm thrilled
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If you'd like to try Function,
you can go to Functionhealth.com slash Huberman.
Function currently has a wait list
of over 250,000 people,
but they're offering early access
to Huberman podcast listeners.
Again, that's functionhealth.com
slash Huberman to get early access to function.
Along the lines of how dopamine and dopamine schedules
and our perception of things
can shape the way that we experience things
as pleasurable or not,
there are beautiful studies,
mainly looking at sugar appetite
and our sense of pleasure from sweet things,
but also for savory foods, et cetera.
And essentially the results that come out of this
are the following.
If you ingest something that you like,
it tastes good to you,
but then you ingest something
that's even sweeter or even more savory,
and then you go back to the food
that you ate previously,
well, you don't like it as much.
And that might seem like a duh, obviously,
but that shift in
perception can be blocked by blocking the shift in dopamine.
And so this really speaks to these peaks and valleys
in dopamine that I mentioned before
and how your experience of anything
is going to depend on your prior experience
of other things that evoked dopamine.
Big dopamine release makes it more challenging
to experience more big dopamine release.
So dopamine is one of those things
that you don't want too high or too low for too long.
It's all about staying in that dynamic range,
and that's going to be different for everybody.
Now, there are circumstances in which increasing levels
of dopamine is desirable and advantageous
and clinically helpful.
Good example of this would be the drug,
Welbutrin, also called Brupriron,
which increases dopamine and norephenephrine.
Wellbutrine bupryron was developed
as an alternative treatment for depression
because some people who take the so-called SSRI
selective serotonin re-uptake inhibitors,
which, as the name suggests, increased serotonin,
suffer from serotonin related
side effects, things like decreased appetite, decreased libido, or sometimes increased
appetite, or other side effects that they don't want.
And while Butrin seems to avoid the sexual side effects, it can blunt appetite and
these sorts of things because of the increase in norapinephrine and dopamine increases levels
of motivation and craving, but also can create a state of elevated alertness that can sometimes
get in the way of healthy eating and things of that sort.
So one has to work with their clinician,
as a psychiatrist, it is a prescription drug
in order to find the dosage of oil butrin
that's correct for them.
And of course, there are a lot of people out there
who are seeking to increase their baseline levels of dopamine
without taking any prescription pharmaceutical compounds.
Many people have turned to the use of el tyrosine.
Eltyrosine is an amino acid precursor to el dopa,
so it lies further up the dopamine synthesis,
pathway. And nowadays, it's very common because altyracine is sold over the counter in the
United States that people will take el tyrosine as a way to get more energized, alert, and focused.
Eltyrosine is typically taken in capsule form or powder form, anywhere from 500 to 750 to
1,000 milligrams. And the time scale for increasing dopamine is about 30 to 45 minutes after
ingestion. Dopamine levels start to peak. Of course, if you have a preexisting
dopamine-ergic condition. So schizophrenia or psychosis of any kind, bipolar, anxiety,
altiracine will not be good for you. And if you don't, you should just understand and expect that
it's going to lead to an increase in dopamine. You'll certainly feel an elevated state. For some of you
that might be agitating, for some of you that might be really pleasurable. And then you will feel a crash
afterwards. I do use altiracine from time to time for enhancing focus and motivation. But
I want to emphasize from time to time.
I've never been one to take altiracine regularly
in order to focus or train or do any kind of mental work.
I don't want to experience the drop in dopamine
that inevitably occurs some period of time afterwards.
Now there is one compound that you are all familiar with
and you've probably actually taken without realizing it
that increases dopamine.
And that's something called P-EA for phenylethyl-Amein,
technically beta phenylethyl-ethyl-Amin.
P-EA is found in various foods.
chocolate just happens to be one enriched in PEA
and can increase synaptic levels of dopamine.
I personally take PEA from time to time
as a focus and work aid in order to do intense bouts of work.
Again, I don't do that too often,
it's usually for mental work,
and I will take 500 milligrams of PEA
and I'll take 300 milligrams of alpha GPC.
It leads to a sharp but very transient increase in dopamine
that lasts about 30 to 45 minutes.
And at least in my system, I found to be much more regulated
and kind of even than something like L-tyrosine.
And so while it's fun to think about pharmacology
and underlying neural circuitry and cold water baths
and all these different things related to dopamine schedules
and reward mechanisms and attaching reward to effort
and all the various things that we've talked about today
in terms of science and tools and protocols,
I'd be remiss if I didn't include
that social connections, close social connections
in particular, is essential to stimulating
the dopamine pathways.
So the take home message there is quite simple.
Engage in pursue quality, healthy, social interactions.
I know I've covered a lot of material today.
I've really tried hard to focus on things
that lie directly within the dopamine pathway and circuitries,
as well as things that directly stimulate
those pathways and circuitries.
I realize in given,
giving you a lot of information about science
and mechanism all the way from psychological
and biological to circuitry and synaptic transmission,
volumetric transmission and so forth,
that it might seem overwhelming.
The most important thing is to understand
are that these dopamine pathways really are under your control.
And the locus of control resides in the fact
that your previous levels of dopamine
are influencing your levels of dopamine right now
and your current levels of dopamine
and where you take them next will influence
your dopamine levels in the next days and weeks.
to come. And last, but certainly not least, thank you for your interest in science.