Huberman Lab - Using Caffeine to Optimize Mental & Physical Performance
Episode Date: December 5, 2022In this episode, I explain how to use caffeine to enhance mental and physical health and performance, including the optimal dosages and intake schedules for caffeine. I explain how caffeine powerfully... reinforces the consumption of certain foods and drinks—thereby increasing how much we like their tastes and seek them out. I discuss the mechanisms by which caffeine increases focus, alertness and mood and reduces sleepiness. I also explain many practical tools for caffeine use, including delaying caffeine intake after waking, intermittent caffeine use, during fasting, before and during exercise, and the use of theanine to curb jitters caused by caffeine. I also discuss the positive effects of caffeine on overall health and longevity and address several myths about caffeine. Since caffeine is one of the most commonly used substances (more than 90% of adults use caffeine daily!), this episode provides actionable tips for adjusting caffeine consumption to positively impact performance and health, including sleep. For the full show notes, visit hubermanlab.com. Thank you to our sponsors Athletic Greens: https://athleticgreens.com/huberman LMNT: https://drinklmnt.com/huberman Supplements from Momentous https://www.livemomentous.com/huberman Timestamps (00:00:00) Caffeine (00:02:58) Tool: GLP-1, Yerba Mate, Satiety & Weight Loss (00:11:22) Sponsor: LMNT (00:15:23) Caffeine Benefits for Mental & Physical Performance (00:20:23) Caffeine in Nature & Positive Reinforcement (00:26:44) Caffeine Effects on Brain; Reward Pathways (00:29:55) Caffeine as a Reinforcing Agent (00:35:55) Sponsor: AG1 (00:38:01) Caffeine, Adenosine & Reduced Sleepiness (00:45:16) Tool: Caffeine Dosage, Caffeine Adapted (00:53:44) Tool: Delayed Caffeine Intake, Afternoon Crash & Sleep (01:04:46) Morning Exercise & Residual Caffeine Effects (01:07:56) Tool: Theanine & Jitteriness; Fasting, Intermittent Caffeine Use (01:13:00) Theanine: Effects & Dosage (01:18:41) InsideTracker (01:19:45) Other Effects: Osteoporosis, Hormone Levels, Depression (01:27:41) Afternoon Caffeine & Sleep (01:31:45) Tool: Caffeine & Mental/Physical Performance; Cortisol & Caffeine Abstinence (01:46:04) Caffeine, Performance & Menstrual Cycle (01:47:27) Tool: Memory & Caffeine Timing; Adrenaline & Cold Exposure (01:54:08) Caffeine & Naps (01:56:34) Tool: Exercise, Caffeine, Dopamine & Positive Reinforcement (02:01:55) Dopamine Stacking (02:06:04) Scheduling Caffeine to Maximize Its Effects (02:08:33) Pro-Health Effects of Caffeine (02:13:38) Tool: Sugar Cravings & Reinforcing Effects of Caffeine (02:20:17) Zero-Cost Support, YouTube Feedback, Spotify & Apple Reviews, Sponsors, Social Media, Momentous Supplements, Neural Network Newsletter Title Card Photo Credit: Mike Blabac Disclaimer
Transcript
Discussion (0)
Welcome to the Huberman Lab podcast where we discuss science and science-based tools for everyday life.
I'm Andrew Huberman and I'm a professor of neurobiology and
Ophthalmology at Stanford School of Medicine. Today we are discussing caffeine.
Caffeine is one of the most widely used substances on the planet.
Estimates are that more than 90% of adults and as many as 50% of kids that is adolescents
and teenagers use caffeine on a daily basis.
Caffeine is an amazing molecule.
Most people are familiar with caffeine's ability to increase alertness and to reduce our
feelings of sleepiness and fatigue.
And indeed, it does that.
But what most people are not aware of is that caffeine acts as a strong reinforcer.
What I mean by reinforcer is that when caffeine is present in a drink or food, and yes,
indeed, caffeine is present in many foods, even unbeknownst to us, when it's present in
drinks and foods, we actively come to like those foods and drinks more than if caffeine
were not contained in those foods and drinks more than if caffeine were not contained
in those foods and drinks.
So it reinforces our liking of particular foods and drinks.
And indeed, it even reinforces our liking of the containers they are consumed from and
the company we keep when we consume foods and drinks that contain caffeine.
That is, caffeine is not just a stimulant, caffeine is a reinforcer,
and it's a reinforcer that plays an active role in almost everybody's daily life. We can say that
with confidence because, as I mentioned a moment ago, more than 90% of people are consuming caffeine,
and most people think that they consume caffeine because it makes them feel more alert. But there are
many reasons why you're consuming caffeine, and I'm not going to tell you that consuming caffeine is necessarily bad. In fact, today
I'm going to tell you about many of the positive health benefits of caffeine, including
neuroprotective effects, antidepressive effects, and certainly performance enhancing effects
both for mental performance and for physical performance. Now that said, there are certain
situations in which you want to avoid caffeine,
and there are certain people who might opt to avoid caffeine.
That's especially the case when one thinks about caffeine,
not just as a stimulant, but as a reinforcer.
In fact, caffeine is such a strong reinforcer
that if even tiny amounts of caffeine are present
in certain foods and drinks,
you will very quickly come to prefer those foods and drinks
over other choices, which can be a good thing or a bad thing,
depending on what sorts of food and drink choices you're trying to make.
So today, I'm going to inform you about how caffeine works at a mechanistic level.
I promise to do that with a minimum of nomenclature and such that even if you don't have a background in biology,
you will be able to digest that information easily.
And then I'll tell you how to use caffeine to your advantage or conversely how to avoid caffeine
at certain times to your advantage.
So today's episode will focus both on mechanisms and tools
that is the use and leverage of caffeine
to improve mental health, physical health,
and performance.
Before we go any further into today's discussion,
I want to tell you about some recent results
about a molecule that's
found in certain caffeinated beverages, and that has been proven to be very useful for
both weight loss, mental performance, and controlling blood sugar levels. And that's GLP1, or
Glucagon-like peptide-1. Glucagon-like peptide-1 is found in the brain and body. It acts both
on the brain and body. It does many different things,
but one of its primary effects
that's been discovered is to reduce hunger
and it does that two ways.
It does that by activating certain neurons
in your hypothalamus.
So that's a brain region that controls hunger and satiety.
It makes us feel full at the level of the brain.
So it makes us feel sated, that is.
And it actually makes us feel full.
Turns out that GLP1 acts on certain receptors in the gut to make us feel as if we've ingested
enough food.
It doesn't necessarily make us feel as if our gut is distended, but it makes us feel full.
That's really interesting, because if you think about it, when we eat, our stomach feels
up, obviously.
And that information has to be communicated to the brain, such that the brain can then
send satiety signals that actually shut off our hunger, and believe it be communicated to the brain, such that the brain can then send satiety signals
that actually shut off our hunger.
And believe it or not, the brain actually activates signals
to reduce the desire to chew when our stomach is full.
And GLP1, as I mentioned, works on the brain
to create these feelings of satiety,
as if we've had enough,
and to reduce our desire to eat more.
And GLP1 acts directly on the gut
to give us a slight sense of fullness in the gut,
which then is communicated to the brain.
So really there are two parallel signals being sent
when we have GLP1 present in our system.
Now, a little bit of relevant history on GLP1,
it was actually discovered in Helomonsters.
These are these reptiles that can go long periods
of time without eating and a very clever scientist
decide to study why it is that certain animals like heel monsters can go a long period of time without ingesting
anything. It's because they produce very large amounts of GLP1. They isolate the peptide from
GLP1, then they look for the analogous peptide in humans, and it turns out that does exist.
And as I mentioned, it's released in both brain and body to make you feel full and sated.
Now, why am I telling you all this? Well, today we're going to talk about caffeine and there's
one particular caffeine source, which is yerbomate, and there's some other forms of teas,
similar to yerbomate, that stimulate the release of GLP1 significantly. There are also
nowadays drugs, which are called analogs of GLP1. So these are drugs that mimic or are identical to the kind of GLP1
that you would make.
And those drugs are proving to be very effective
for the treatment of certain forms of diabetes
and for the treatment of obesity.
But they trigger enormous amounts of GLP1 pathway activation.
So those are extreme cases for people
that are really struggling for weight loss.
But the clinical trials and the data that are out there in the general population now are very, very promising for GLP1 analogs.
Yearbomata-T provided it's not the smoked variety, and I mentioned that because a number of people
have queued me to the fact that yearbomata-T's come in smoked varieties and non-smoked varieties,
and the smoked varieties are thought to perhaps be carcinogenic that is pro-cancer causing.
So I advise people to avoid smoked varieties
of yerba mate tea,
but yerba mate teas are known
to stimulate significant amounts of GLP1 release
and so they can be effective as a weight loss
to a mainly by blunting appetite.
And again, they do that both at the level of the brain
and at the level of the gut.
Now all of what I just told you has been known for some period of time, but there are new
set of findings that were just published in cell reports medicine, cell press journal,
excellent journal, which indicate exactly how it is that GLP1 stimulates both satiety
and can trigger additional weight loss through other mechanisms.
And I find the mechanism to be really interesting and actually really important,
given some other topics we've covered on this podcast before.
So the basic finding is that GLP1, whether or not it's stimulated through the release of
analogue drug that one is prescribed or by drinking your bimante T, for instance, and
stimulate release of your own so-called endogenous GLP1. Yes, it makes you feel more full at the level of brain and body, but it turns out it also
stimulates thermogenesis.
Now, thermogenesis is the active utilization of more metabolic energy and fat cells, in
particular so-called beige and brown fat cells, are a potent source of thermogenic activity
in your body.
The basic background is that you have white adipose cells, so white fat cells, you have beige fat cells and you have brown fat cells. And the beige and brown ones are fat cells that you actually
want more of. They are not abundant under your skin, they're abundant really around your
clavicles and your upper neck. They are the ones that generate heat, and the beige and brownness
of them is actually the consequence of having a lot of mitochondria in those cells.
When GLP1 is elevated in your system, it turns out that it communicates to those white
fat cells and helps convert them into beige and brown fat cells.
That is, it takes fat cells that are not doing anything useful for you except being stored
energy.
I think most people out there would like to have fewer of those white adipose cells.
There are a few of you out there that actually need more of them that are too thin, too
lean.
But most people are suffering from having too many of these white adipose cells.
Well, when you ingest your bombatte tea or you were to take a GLP1 analog or stimulate
GLP1 in any number of different ways. Yes, you stimulate increased satiety,
but you're also stimulating the conversion of these white fat cells into beige and brown
fat cells, which makes you more thermogenic. And over time, raises your basal metabolic
rate, so you're burning more calories even at rest. It also makes you feel as if you're
more comfortable in colder environments at rest. This is very much the same as the mechanism that's induced when you were to
say take a cold shower or do regular ice baths or get into cold water regularly. That
too stimulates the conversion of white fat cells to beige and brown fat cells. So I like
these findings very much because they provide a mechonistic coherence. They provide that is a really nice story as to how something like GLP1 could be so effective
for weight loss.
Yes, on the one hand, GLP1 is reducing appetite and that of course will help people maintain
or lose weight.
But it's also increasing basal metabolic rate and we now know how that's accomplished.
It's likely accomplished at least through this one mechanism
by the stimulation of conversion of these white fat cells,
which don't do much for us except as energy storage units,
to these metabolically mitochondrial rich
beige and brown fat cells, which you can think of as sort
of the oil in the candle that allows your furnace,
your metabolism to burn at a higher temperature and a higher rate.
So that's the mechanism.
And the basic tool takeaway is that if you are somebody
who's interested in losing weight
and you want to leverage the GLP1 pathway,
drinking a cup or two of yerba mate tea early in the day
would be a great way to stimulate GLP1 release.
There are other ways to stimulate GLP1 release.
You can get it through certain forms of exercise
in particular, fasted exercise. This is of exercise, in particular, fasted exercise.
This is actually a vote in favor of fasted exercise.
There's a debate as to whether or not fasted cardio burns more fat than non-fasted cardio.
The data basically say no, it doesn't really matter, but that doesn't really take into
account the longer arc of things like GLP1 release.
So that needs to be taken into consideration.
So you could do fasted cardio.
You could drink your bramatee, keeping in mind that your bromaute does contain caffeine. We'll talk more about
the specific forms of stimulants, including caffeine that mate has, but mate would be a great way to
stimulate GLP1 release. And then, of course, for those of you that are interested in more robust
activation of GLP1, then perhaps you might want to consider some of the new prescription GLP1
analogues that are out there, but that's a more severe stimulus for GLP1, then perhaps you might want to consider some of the new prescription GLP1 analogues
that are out there, but that's a more severe stimulus for GLP1, of course.
And for everybody, regardless of whether or not you're trying to lose weight, gain weight
or maintain weight, I think we're going to be hearing a lot more about GLP1 analogues
and drinks and supplements and things of that sort that stimulate GLP1 in the very near
future because it does appear to be a very important biological mechanism.
Before we begin, I'd like to emphasize that this podcast is separate from my teaching
and research roles at Stanford.
It is, however, part of my desire and effort to bring zero cost to consumer information
about science and science-related tools to the general public.
In keeping with that theme, I'd like to thank the sponsors of today's podcast.
Our first sponsor is Element.
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drinkelementlmnt.com slash Hubertman. Let's talk about caffeine. So as I mentioned
earlier, caffeine is consumed by basically most all adults every single day and
consumed at very regular times each day. In fact, if you were to take a look at
your caffeine intake or the caffeine intake of day. In fact, if you were to take a look at your caffeine intake
or the caffeine intake of somebody close to you,
what you would realize is that they don't do so well
if their caffeine intake arrives
even 10, 20 or 30 minutes past
they're expected or usual intake of caffeine.
That's pretty remarkable.
And it brings to mind ideas that we are all
quote unquote addicted to caffeine or that caffeine is somehow bad. I'm certainly not going to
make the argument that caffeine is bad. First of all, I'm a regular caffeine user. I wouldn't call
myself a caffeine abuser, but I am a regular caffeine user. And caffeine is known to have certain
health benefits. I listed off a few of them earlier, but I'll mention those again now before going
forward. Caffeine is known to have certain neuroprotective effects, and that is because of its
ability to increase neuromodulator such as dopamine, but also other so-called catacolomines
like norepinephrine. If you don't know what those names mean, these are molecules that
increase levels of alertness, motivation, and drive. And so then, therefore, not surprisingly,
the large-scale analyses of the relationship
between depression and caffeine shows that provided people
are not drinking so much caffeine that it makes them overly anxious,
that regular intake of caffeine is inversely related to levels of depression.
So it may have some antidepressant effects,
and those could be direct or indirect.
What do I mean by that? Well, you could imagine that people are
ingesting caffeine and they are more motivated to do work and pursue quality
social interactions. Then the probably that they will have depression could be
lower. It could also be that there are direct effects on the chemical systems of
the brain that relate to mood and well-being that could offset depression. It is
not clear whether or not the effects of caffeine encountering depression are direct or indirect. Nonetheless, there's a
relationship there and it's an interesting and positive one, or I should say negative correlation,
positive effect overall on mood and well-being to be exact. It's also the case that caffeine can
improve mental performance and physical performance.
This has been demonstrated in tens of thousands of studies.
I will review a few studies on this in particular today, but to just give you a sense of how caffeine
works at the level of its timing and impact on mental performance and physical performance,
when we ingest caffeine, provided that we don't have a lot of food in our stomach and
that our blood sugar
isn't particularly high. Generally, we experience an increase in alertness within about five
minutes and that increase in focus and alertness peaks around 30 minutes after ingestion of caffeine
and persists for as long as 60 minutes. Now, this is assuming that one takes caffeine in pill form
or drinks the entire caffeine drink within a short period of time.
But a little bit later I'll talk about how you can consume caffeine at regular intervals
while doing mental work or physical work in a way that can further increase mental performance
and physical performance. But let's just touch on what caffeine intake really does for
mental performance and physical performance. Perhaps the most robust finding across all of the studies that I've examined
is that caffeine reduces a reaction time. That is, it improves our reaction time. It doesn't
make it longer, it makes it shorter. So for instance, in a laboratory study where people
were asked to hit a lever every time they hear a tone, you can greatly reduce the time between
the tone and the pressing of the lever if people
ingest caffeine about 30 minutes before they do that task.
Now that seems like a trivial task, but this is also seen in the domain of sports performance
and even in cognitive performance where people have to arrive at a particular answer to
a question.
And the answer to that question has to be pulled from their memory banks within their brain,
their hippocampus, for instance, a brain structure involved in memory. And if you are asking people, for instance,
to remember the capitals of different states, or cities, or to remember certain historical facts,
they will do that at a particular rate, but if they've ingested caffeine within the hour prior,
their ability to recall that information is much, much better.
They are faster and it does not appear that accuracy is reduced.
In fact, in many cases, accuracy is enhanced.
And that's because caffeine both works on the reaction time systems of the brain and body.
I'll talk about the mechanisms for that in a little bit.
But it also stimulates certain neurotransmitters and so-called neuromodulators within the brain and body
that give the neural circuits in the brain
that are associated with learning and memory,
a lower threshold to activation.
What does that mean?
That means that we are better able to access
the brain circuitry involved in learning and memory
when we have a certain amount of caffeine circulating
in our system.
So this makes caffeine an an incredible performance-enhancing compound.
And I could give you tens of thousands of examples of this in humans.
But before I do that, I want to just touch on what we know about the existence of caffeine in nature,
and what the existence of caffeine in nature and its effects on other animals
tells us about what caffeine does in humans.
Because as I alluded to earlier, what caffeine is doing for us is not just making us more
alert, improving our memory, improving our reaction time and so on.
It's actually acting as a powerful reinforcer of experience.
And it's acting as not just a powerful reinforcer of the caffeine containing drink that we drink, but also the mug that it's contained in. Plus,
the person that we might be sitting across from when we consume that caffeine
and so on and so forth. If it's a little bit hard for you to conceptualize what
a reinforcer is and why I'm calling it a reinforcer, let me spell it out in three
specific ways.
We often hear about the word reward and we think, okay, if we do certain things and we like
the outcome, then those certain things are rewarded, right?
If we're doing something we receive praise, the praise is the reward and therefore we are
more likely to do that thing in the future.
I've had a lot of parenting as like that, and a lot of life is like that.
However, when we hear the word reward,
we often think about something that feels good to us.
And certainly if we've worked hard
and we get some praise, that's natural
for the praise to feel good to us.
Or for instance, if we work very hard
and we get a certain outcome,
a trophy, a financial outcome, a degree outcome, recognition,
etc., all of those can act as rewards, but those are all conscious rewards.
We are aware that they are happening.
Reinforcers are a little bit different because the word reinforcement can apply to conscious
rewards of the sort that I just described.
But there are also many ways in which caffeine stimulates the release of chemicals in our
body that act as reinforcers, but those reinforcers are subconscious. That is, we
are not aware that they cause this preference for the activities that cause their release.
So the study I'm about to describe beautifully, I believe, encapsulates how is it that humans came to consume caffeine and why caffeine exists in nature
and the powerful effects of caffeine as a reinforcing agent both in animals, insects, and in you and me.
And the title of the paper is caffeine and floral nectar enhances a pollinators memory of reward.
Keep in mind that caffeine is made from plants.
I'll be a say duh, but I think some of us don't realize that the reason why there is caffeine
and coffee is because coffee comes from a plant, it's a coffee bean, certain teas, which
of course are plants, that people brew.
Caffeine is contained in those teas, such as yerba mate.
Well, why would this bitter substance?
Because in fact, caffeine is quite bitter in high concentrations. Why would this bitter substance be something that fact caffeine is quite bitter in high concentrations?
Why would this bitter substance be something that insects or animals would want to consume
at all?
It turns out that in most plants caffeine is present in small enough quantities that insects
and other animals, and in fact we can't actually taste the caffeine.
If I were to give you a little bit of pure caffeine, yes it would be a stimulant for you,
but you would say that it tasted awful.
It's in a category of compounds that would strongly stimulate the bitter receptors on your tongue
and would make you cringe and pucker and essentially walk away from whatever it is that contain that
caffeine and from the experience that contain that caffeine. Well, in nature, caffeine is present in very low concentrations or is masked by other
flavors within flowers, beans, and plants.
And what this paper really points to is that caffeine in nature is acting as a reinforcer
for bees that are consuming different nectar.
So the way that it works is that bees, of course, go from flower to flower and they are consuming the nectar.
They are bringing nectar and pollen back to the hive and that provides critical
nourishment for the bee colony.
The bees are foraging in a way that includes information about color, in particular ultraviolet color things that we can't see,
but they can see because they have different photo receptors than we do.
And what the study shows is that plants and nectar
that contain very small amounts of caffeine
are the preferred sources of food for bees.
And the study is beautiful because they were able
to confirm that they could mask the caffeine taste.
So they know that the bees are not preferring
the taste of caffeine. But what they do is they pair caffeine with
different food sources for the bees, then they remove the caffeine. And what they find
is that the bees very strongly prefer flavors that contain caffeine, not because they could
taste the caffeine, but rather for the way that those caffeine-containing flavors made the bees feel.
So how do those caffeine-containing flavors make the bees feel?
The same way that they make you and I feel, a little bit more alert.
And thereby, able to do more work.
For the bee, the more work is the consumption of more food, which then has a further reinforcing
effect.
So what we're really talking about here is the fact that a, caffeine exists in nature,
in plants.
It exists in concentrations that are very low, so low in fact that they are not detectable
to the taste receptors of insects, and in many cases to the taste receptors of humans.
And of course, there can be high levels of caffeine in a plant, but if the plant also
contains compounds that mask the flavor of caffeine,
well then those plants are going to essentially be even stronger reinforcers for the flavor of
the plant. Okay, so now we're talking about strong flavors plus strong neuro stimulant effects of
caffeine. And the most important point here is that all of these effects of caffeine are subconscious.
is that all of these effects of caffeine are subconscious. It is not because the bee or you likes the taste of caffeine.
In fact, most people, when they take their first sip of coffee,
they find that it tastes bitter and kind of noxious.
They don't like it.
You may not even remember that because it happened so long ago,
and because caffeine is such a strong reinforcer
that very quickly you come to like the taste of coffee. You might even
come to like the feeling of your mug in your hand. You might even come to like the smell
of coffee and so on and so forth. And that's because caffeine stimulates the release of
certain neurochemicals in the brain, in particular dopamine and acetylcholine, two
neuromodulators, that increase our focus and alertness and our feelings of well-being.
A little bit later, I'll tell you that caffeine stimulates
the release of dopamine in a way that's very much distinct
from the classical dopamine pathway associated
with addiction and reward.
In fact, we can think of caffeine as having a somewhat
privileged access to the reward systems.
I'll give you a bit of a hint of where this is going.
Caffeine stimulates the release of dopamine in a cetylcholine, not within the classic
so-called mesolimbic reward pathway.
That's just fancy nerds speak for the reward pathways of the brain that are associated
with things like sex and food and drugs of abuse like cocaine and methamphetamine.
But rather caffeine seems to stimulate the release of dopamine in the parts of the brain
that are associated with alertness and cognition,
meaning the forebrain. This is very important. We have multiple dopamine systems in the brain
and body, and caffeine seems to stimulate dopamine directly within this components of the brain
that are associated with clarity of thought and well-being, but more so clarity of thought.
Now, I'm also talking about caffeine as a strong reinforcer in that it makes you feel
good overall, and it does, and that suggests that it also taps into the more classic reward
pathway.
But it does that in a very interesting and, frankly, almost diabolical way.
When we regularly ingest caffeine, it stimulates the increase in dopamine receptors at multiple sites throughout
the brain, but in particular within the reward pathways of the brain.
So not the areas of the brain that are associated with focus and clarity of thought and cognition,
it does that, but it is also increasing the level of dopamine receptors in the reward pathway.
And what that means is that for any dopamine that's released in response to a positive
experience, social experience, or any number of the other things that can stimulate dopamine release,
there are more receptors, more parking spots, if you will, for that dopamine to arrive at
and to exert its increases in mood, increases in motivation, and overall feelings of drive and
excitement. So there are four ways that caffeine works
that we need to understand.
First of all, caffeine acts as a reinforcing agent.
It increases the probability that you will return to
and engage in a certain activity
or consume a certain beverage or food.
Second of all, caffeine increases dopamine and acetylcholine,
which are both neuromodulators in the forebrain,
which helps us improve our ability to think,
to modify our rule sets.
That is to adjust our strategies
for different social situations
and mental demands and physical demands.
And third, it increases the number and efficacy
of dopamine receptors in the reward pathways of the brain.
That is, it makes things that would feel pretty good, feel even better.
And fourth, caffeine acts as an antagonist to a denocene, which offsets the sleepiness
that we would otherwise feel from the accumulation of a denocene that occurs as we are awake for
more and more hours throughout the day.
So let's talk first about caffeine as a reinforcing agent.
Again, it's the first most beautifully demonstrated in this study on honey bees, where the bees prefer
nectar that contain caffeine.
And that all makes perfect sense in terms of the ecology of bees and flowers that contain
nectar.
There's an advantage, at least in terms of adaptation, that the flower benefits because
of distribution of things from the flower, which is good for the flowers and the bees benefit because they're
getting food. And so there's a kind of a symbiosis there. But with humans, we're consuming caffeine
containing beverages for our sake. I don't think we have it in mind, nor do the bees have it in
mind, frankly, that we're trying to preserve the plants that provide the caffeine. I think we would
all suffer, or actually say 90% of adults would suffer greatly
if all the caffeine containing coffee and tea plants were gone, certainly.
But most of us are not consuming coffees and teas and caffeine containing foods
because we're thinking about the plants they come from and we want to help those plants.
We're thinking about how we want to help ourselves.
And yet the point of the reinforcing effects of caffeine
are that they are largely subconscious.
We are not aware of them.
Now you might say, no, that's not true.
When I drink caffeine, it makes me feel really good.
So I'm aware that it makes me feel good.
In order to illustrate how reinforcement really works,
let me give you the counter example,
which would be an aversive agent.
So we have reinforcing agents and we have aversive agents.
Let's say that there were compounds in nature that exist in plants that are aversive.
And indeed they are.
And let's say that these compounds were present at such low concentrations that you couldn't taste them.
Let's say you wake up in the morning and you go to your refrigerator and you open it up and you
are thirsty. And so you reach for a nice, you know, rich, red containing beverage in a glass jar.
It looks like cranberry juice or something of that sort.
Or even a nice clear glass of water.
It looks like a jug of water or glass of water and you drink that.
Taste fine to you.
Maybe even taste great to you.
And then let's say about 30 minutes later, you feel a little queasy, you feel a little off, you feel like going back to sleep, you just don't
feel very good. You don't know why, but your nervous system is a predictive
machine, and it has a process in which it back integrates, or I should say,
integrates backwards into your immediate experience that preceded that not so good feeling.
We can reliably say that there is a much lower probability that the next day when you wake up,
that you would reach for that same beverage, or for that same container even.
And maybe if you're in a novel environment, maybe you're staying in an Airbnb or a hotel or
something of that sort, you might even find that you don't really like the kitchen in which you consume that beverage in the first place. And you don't
know why. And unless you got very, very sick the day before, it's unlikely that you would have such a
strong response that you would entirely avoid, for instance, water or glass jars containing liquids,
et cetera. But let's say you went back to the refrigerator and you consumed beverage again,
and you just didn't feel so well,
you felt less good than you normally would.
Well, even without any ability to taste what's in that beverage,
and even without any understanding of what was happening
to you at a conscious level,
there is a very, very high probability
that you will avoid drinking that particular beverage
and certainly at that location and in the same volume in the subsequent days.
That's just the way that averse of agents work and they work by way of activating neurons
in the gut that communicate with areas in the brain that give us this feeling of queesiness.
And for some of you hearing this, that pathway and that association with times in which you felt
queasy and as if you wanted to vomit is so powerful that you might even be feeling some
of that symptomology now.
For certain people, that's going to be increased salivation, which precedes vomiting.
We know that there's a class of neurons in the brain related to an area called area postrema
that actually stimulates vomiting.
And if I keep talking about this, I'll probably feel like I want a vomit.
So I'm going to move on from this in a moment.
So when we ingest caffeine containing beverages and foods, it's the exact opposite scenarios
to what I just described.
Caffeine as a reinforcer makes us feel slightly better or a lot better in the immediate minutes
and hours after we
ingest it. So it's acting as a reinforcing agent, not just while you're under the
effects of caffeine, but for the things that preceded the ingestion of caffeine,
which is why you return again and again to caffeine-containing beverages such as
coffee and tea, or maybe even foods that contain caffeine, even if the taste of
those foods is not something
that you would otherwise consider especially delicious. In fact, most people, when they take their first
sip of coffee or tea or other caffeine-containing beverage, they find it be very bitter, and that's not
because of the taste of caffeine. It's because of the taste of the beverage itself, independent of
caffeine. However, when caffeine is present in there, they come to
prefer that taste over most all tastes. In fact, they will, as I mentioned earlier, will invest a lot
of financial resources and time and energy to make sure that they get that beverage. What they're
trying to make sure is not that they get that taste, but that they get the caffeine. It is that
positively reinforcing. And the taste, therefore, takes on new significance,
new meaning, and we come to associate it as positive.
And in fact, most of us, including myself,
love the taste of espresso, love the taste of coffee,
love the taste of yerba mate,
even if the initial taste, the very first time
that we consume that beverage,
was either neutral or negative.
And that is all because of the reinforcing properties of caffeine.
And then of course, there are the more direct actions of caffeine.
That is the faster actions of caffeine and just to list those off again very briefly so
that you have them in mind going forward.
Caffeine also increases the release of dopamine and acetylcholine, both of which are neuromodulators in the forebrain, which increases clarity of thought and your ability to rule switch, your ability
to move from one context to another and change and understand the rules of engagement, social
engagement, physical engagement, mental engagement, and so forth.
And as I mentioned before, caffeine also increases the number of dopamine receptors in
the reward pathway such that any good thing that happens to you, any positive experience
that you have, will have a more potent effect on your feelings of well-being.
And last but certainly not least, caffeine acts as an adenosine antagonist.
It reduces your feelings of lethargy and fatigue
and your desire to sleep by parking in the receptors
for adenosine and not allowing adenosine
to have its pro-sleepy, if you will,
affects on your brain and body.
I'd like to take a quick break
and acknowledge one of our sponsors, Athletic Greens.
Athletic Greens, now called AG1,
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I've been taking Athletic greens since 2012, so I'm delighted that they're sponsoring the podcast.
The reason I started taking Athletic greens and the reason I still take Athletic greens once or usually twice a day is that it gets to be the probiotics that I need for gut health.
Our gut is very important. It's populated by
that I need for gut health. Our gut is very important.
It's populated by gut microbiota
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And those probiotics and athletic greens are optimal
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In addition, athletic greens contains a number
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supply of vitamin D3K2.
I'd like to just briefly talk about a denocene and some of its molecular features.
And again, if you don't have a background in biology, don't worry.
I promise to make this very clear to everyone.
First of all, caffeine is what's called a methylzanthene.
It's a plant alkaloid.
That's why caffeine itself is very bitter.
Again, if I were to give you just a tiniest little bit of pure caffeine,
you would find it to be extremely aversive.
And so these plants that have snuck small enough amounts of caffeine into them
or that have massed the flavor of caffeine with other flavors,
such that bees and humans want to consume them.
Well, we don't know what plants think, it does seem very diabolical and very clever in
that we are seeking out these caffeine-containing plants, beverages, and foods, even though
caffeine itself is this alkaloid is very, very bitter.
Metals and theine, that is caffeine, binds to adenosenosine receptors and there are really two types of adenosine receptors.
They're these so-called A1 receptors and the A2 receptors.
And they're present in different parts of the brain and body at different levels.
We don't have to get too far into receptor subtypes.
More importantly to understand is that adenosine makes us feel tired because of the way that it taps into the ATP pathway.
The ATP pathway is central to energy production and feelings of overall energy in our brain
and body in all cells and organ systems.
When caffeine binds to a denocene receptors, it prevents a denocene from breaking down
certain components of the energy production pathway, and the net consequence of that is increased cyclic AMP.
So basically, when we ingest caffeine, we are biasing our system towards the pro-energetic
aspects of these cellular pathways.
Now, it's really important to understand that in biology, even if you block a receptor
or you prevent the activity of an enzyme, and at least in this case,
you end up with more cyclic AMP, more energy, you're not really getting more energy. You're actually
borrowing energy against an overall system that is, frankly, non-negotiable. What do I mean by that?
Well, let's say that you were to wake up after six or eight hours of sleep and to drink a lot of
caffeine and keep drinking caffeine throughout the day, throughout the day, blocking those adenosine to wake up after six or eight hours of sleep and to drink a lot of caffeine
and keep drinking caffeine throughout the day,
throughout the day, blocking those adenosine receptors.
Yes, you'll offset fatigue.
You'll offset sleepiness
because that adenosine simply can't function.
But at the point where the caffeine
becomes dislodged from the adenosine receptors,
you will have a massive glut, a backlog of adenosine, and you will
feel extra, extra sleepy.
So really there's no way to create more energy in your system.
Really what you're doing is you're changing the timing in which the sleepy signals and
the more energetic signals are arriving.
And this is really important to understand as the backdrop to the various tools that we're
going to get into next.
In which you can use caffeine for enhancing mental performance and physical performance and other aspects of health.
But it's very important to understand this concept that
when you wake up in the morning, provided that you slept well and enough the night before, your levels of adenosine will be
about as low as they will ever be. Actually,
in order to get your adenosine levels really bottomed out, you want to avoid caffeine in the first
90 to 120 minutes after waking, we'll talk about why that is because it turns out there's a way
to completely clear adenosine out of your system in the hour or so after waking. But for most people,
adenosine levels are going to be close to their lowest after a good night's sleep.
But there's really no negotiating the accumulation of a denocene
that's going to occur and going to bias you towards feeling more sleepy than you would otherwise that's going to occur throughout the day. There's really no way to eliminate a denocene.
All you can really do is block its function. So it's sort of like borrowing energy
against the fatigue that you will inevitably feel. Now, this actually has very important socio-economical relevance.
Before caffeine was regularly consumed by human beings, we were really slaves to the light
dark cycle.
And this was especially true before the presence of artificial lighting.
But even before the advent of artificial lighting,
humans were largely constrained to the outside light dark cycle.
We need to be active during the day and working during the day
and we need to be asleep at night.
Caffeine allows us to divorce ourselves
from that circadian cycle.
Circadian just means about 24 hour.
Caffeine allows us to do that at least somewhat
by way of increasing our alertness that is
spiking our alertness at various times throughout the day and even at night.
This is how we can have shift workers, for instance, that can sleep during the day and then
drink a strong cup of coffee at 8 p.m. and then work into the night.
That ability completely transformed our society.
Now, of course, the healthiest schedule, we know this with certainty.
The healthiest schedule for brain and this with certainty. The healthiest
schedule for brain and body is going to be to be alert during the daytime and asleep at night.
There's no question about that. Shift workers run into all sorts of health problems and
thank you shift workers for doing the important work that you do. We need you, air traffic controllers,
paramedics, firefighters, police officers, etc. But we know that there are serious health
consequences, negative health consequences that is for shift workers.
But for most people out there, about 95% of people
follow a typical schedule with their awake shirt
in the day and a sleep at night.
And yet it used to be before the advent
of caffeine-containing beverages,
that if you were sleeping in the afternoon,
you either had to take an app or battle that sleepiness,
that your activity rhythms and your sleep rhythms
were governed by these circadian changes in availability of sunlight and when you slept.
And you just didn't have the ability to ingest a beverage that would increase your levels
of alertness because you block a denocene.
So this is important to understand that nowadays we certainly live in a time in which we use, in fact 90% or more of adults and half or more of adolescents and teenagers,
use caffeine as a way to negotiate with, to borrow against this natural pattern of a denocene
making us sleepy. But again, you're just offsetting the effects of sleepiness that a denocene
causes. You can't eliminate the adenosine entirely.
The important point is that adenosine
as a pro-sleepy molecule is a non-negotiable aspect
of your biology.
In fact, it's so non-negotiable that every 24 hours
you are going to release adenosine
and you're going to release adenosine in direct proportion
to how long you've been awake.
So the longer you've been awake,
the more adenosine circulating your system.
They're really only a handful of ways to completely clear out adenosine.
The major one being to get sleep.
The other is to take a short nap, which of course is sleep, but it's shallow sleep
or non-sleep deep rest, so called NSDR has been shown to reduce levels of adenosine.
And there are certain things such as viewing morning sunlight, which because of its effects
on cortisol can quote unquote, clear out adenosine.
We'll talk about this in more detail in a few minutes.
And there's also evidence that certain forms of exercise provided that it's brief and
intense can also reduce adenosine, not just block its effects.
Now that we've talked about some of the incredible mechanisms by which caffeine changes our
experience of life, increases alertness, and mood, etc.
I want to talk about the use of caffeine as a tool.
Now, caffeine is a very potent and useful tool for enhancing mental health, physical
health, and performance.
But there are certain considerations one has to keep in mind. In particular, dose.
Now, first off, not everybody will respond to the same dose of caffeine the same way,
but we can reliably say that your body weight is a good measure by which you can estimate
what a healthy, useful dose of caffeine would be.
So for most people, ingesting one to three milligrams
of caffeine per kilogram of body weight
is going to be the range in which caffeine
can have positive effects without making us feel overly anxious
and give us that feeling that we're jumping out of our skin
and turn the otherwise positive experience of caffeine
into an aversive one.
For those of you that aren't familiar with thinking in terms of kilograms and normally thinking
pounds, I'll just quickly give you some general estimations that, for instance, 100 kilograms
equals 220 pounds. So for me, I weigh 100 kilograms. That means that one to three milligrams,
again, milligrams, thousands of a gram,
one to three milligrams of caffeine per kilogram
of body weight would mean for me.
I could safely ingest 100 to 300 milligrams of caffeine
in a single dose, in a single drink,
if that's the way I'm consuming it,
or pill form, if that's the way that I'm consuming it.
And it's very likely that that would be a tolerable dose.
However, if you are not somebody that's accustomed to drinking caffeine on a regular basis,
I suggest you start on the lower end of that one to three milligrams per kilogram of
body weight range.
So for instance, if you're somebody who weighs 50 kilograms, that's approximately 110
pounds. for instance, if you're somebody who weighs 50 kilograms, that's approximately 110 pounds,
and you would be pretty comfortable
ingesting somewhere between 50 and 150 milligrams of caffeine.
So what I recommend is that people who are considering
using caffeine as a tool, or who are already ingesting
caffeine, start to think about the dosage of caffeine
that you are ingesting or plan to ingest,
and the timing in which you ingest that caffeine relative to certain tasks throughout your day, you're waking and you're sleeping.
We'll talk about that in just a moment.
But the first step for you is to figure out how much you weigh in kilograms and then
to go to that number of one to three milligrams of caffeine per kilogram of body weight.
And that's a good range in which you might want to explore
the use of caffeine in a single application,
meaning in a single dose.
Now, I do realize that some people out there
are drinking coffee all day long
or having coffee in the morning and then again in the afternoon.
What I'm referring to here is the ingestion of caffeine
in a single bout, right?
One cup of coffee or two cups of coffee,
for instance, to achieve that 100 to 300 milligram range
if that's what's appropriate for your body weight.
But to avoid any confusion,
when I talk about dosage of caffeine,
what I'm really talking about
is not the total amount of caffeine ingested per day.
I'm talking about the total amount of caffeine ingested
in one sitting or setting, that is.
And if you're somebody who's drinking caffeine multiple times throughout the day, you could
imagine, for instance, let's say the appropriate dose for you in order to get an enhancement
in mental performance or physical performance is 200 milligrams.
And you are somebody who's doing some work in the morning and you want to have that lift
in the morning to be able to focus better.
And you're doing some physical exercise in the afternoon or vice versa
that you would ingest 200 milligrams of caffeine at two separate times per day separated by about four hours.
Now you don't have to separate them, you could put them two hours apart for instance,
but we'll talk about half-life of caffeine and so forth. Just keep in mind that if you're ingesting 200
milligrams of caffeine and that's the appropriate dose in mind that if you're adjusting 200 milligrams of
caffeine and that's the appropriate dose for you based on your body weight and then you are
ingesting another 200 milligrams of caffeine an hour later, you are effectively ingesting approximately
400 milligrams of caffeine, which is going to start exceeding the dose in which you can normally
tolerate without feeling anxious and jittery. With all of that said, there is a range of tolerance for caffeine that's based on two things.
One is a pre-existing disposition that is whether or not your genetics and nervous system in the backdrop of your life, how much stress you're experiencing, tends to make you feel more anxious and alert in jittery before you ingest any caffeine.
And the other is how so-called caffeine adapted you are. We often hear about tolerance. Tolerance means something very specific.
It's the ability to ingest more and more of something
with a plateau that is a non-increase
or an actual reduction in the effectiveness of that thing.
But here we're not really talking about tolerance
to caffeine, what we're talking about
is being caffeine adapted.
A simple way to understand whether or not
your caffeine adapted or not is that if you drink caffeine and it tends to increase your heart rate and make you feel more
alert and a bit more anxious, the chances are you are not caffeine adapted. Provided the
amount of caffeine is within the healthy range for you. That is the range as we talked about a moment
ago. However, here's somebody who drinks caffeine and you actually feel alert and relaxed.
Chances are you are caffeine adapted.
And so at various times during today's episode, I'll talk about people who are caffeine
adapted and people who are not caffeine adapted.
We'll talk about the use of caffeine every other day.
I know for you habitual caffeine drinkers, including myself, just the simple mention of
that probably sounds aversive, but there is actually great utility to using caffeine every
other day as opposed to every day.
But just keep in mind that some people will drink caffeine and not get much of a lift from it at all.
Other people will drink caffeine and they will feel extremely anxious,
even at dosages far lower than that one to three milligrams per kilogram of body weight range that I described a moment ago.
So you have to take into account individual differences.
That said, 1 to 3 milligrams of caffeine per kilogram of body weight for a given sitting,
you know, for your morning coffee or your morning urmata tea is a good range from which
to start. And I do encourage you to go online and look up the various beverages and foods
that you might be eating that contain caffeine. For instance, some people are surprised to discover that the coffee that they get from
some of the more standard popular vendors out there, the small coffee or the median coffee,
for instance, can contain as much as 400 to 600 milligrams of caffeine and the large
coffee that is often sold at those commercial vendors can contain as much as 1 gram, 1,000 milligrams of caffeine and that the large coffee that is often sold at those commercial vendors can contain as much as one gram
1,000 milligrams of caffeine
Now you may be adapted to that such that it doesn't make you feel anxious
But if you wonder why you feel irritable and you get a headache when you don't get that caffeine or that amount of caffeine
at
Precisely the time that you're used to getting it each day. That's because you are consuming quite large quantities
of caffeine on a regular basis.
So I do recommend whether or not you drink soda or coffee
or tea that you figure out the source of that.
Okay, so figure out what vendor you purchase it from,
what kind of coffee and go online
and spend a little bit of time
because the information is out there to discover
what levels of caffeine you're actually ingesting. Now, if you happen to be ingesting more
than one to three milligrams per kilogram of body weight of caffeine, that's not necessarily bad.
However, you do want to be careful about ingesting very high levels of caffeine over long periods
of time in your life because there can be issues that start to arise, in particular,
a bias towards higher levels of anxiety and depletion of certain electrolytes because caffeine is a
diuretic and causes you to lose sodium and other things of that sort. And also just from simply a
dependent standpoint, it does appear that if you ingest high levels of caffeine that is exceeding
the dosages that normally you could get away levels of caffeine that is exceeding the dosages
that normally you could get away with and get just as much mental enhancing and physical
enhancing benefits, that you can cause some disruption to the microvascular, you can
bias yourself towards headaches, anxiety attacks, and you can become actually quite irritable
when you're not getting those higher levels of caffeine.
So I do encourage you to figure out not just what an appropriate caffeine dosage would
be for you, but also how much caffeine you might already be ingesting.
The first tool I'd like to talk about is one that I've mentioned before on this podcast
several times.
And it's something that if you haven't heard of, we'll be very useful to you.
And if you have heard this tool before, I'm going to add some additional features to the
description of this tool that should make this worthwhile for you as well.
And that is to delay your caffeine intake to 90 to 120 minutes after waking up on most
days. And I'll be very clear as to days in which you might want to ingest caffeine more
closely to when you wake up. Why would you want to delay your caffeine intake
to 90 to 120 minutes after waking?
The answer to that is very simple.
Many people wake up in the morning,
they drink caffeine within 10, 20, 30,
sometimes within two minutes of waking,
and they feel more alert, naturally, that makes sense,
because of the effects of caffeine
in blocking the effects of adenosine that I talked about earlier and it's effects on other
neurotransmitter systems. But then what they find is that in the early afternoon, in particular
after lunch, they experience a dramatic dip in their overall levels of energy, the so-called afternoon
crash. And in most cases, the way they respond to that is to ingest more caffeine, which indeed
can increase their levels of mood and alertness.
However, as we'll soon talk about, there is a problem with ingesting caffeine in the
afternoon.
If it falls within eight or ten or dara, I even say 12 hours of going to sleep, and that
is the caffeine ingested in the afternoon
for most everybody, I'd say for 95 plus percent
of people disrupts the architecture and quality
of their nighttime sleep.
And I should say that it doesn't necessarily impact
their ability to fall asleep and maybe even sleep
through the night, but that the depth and quality
of that sleep is disrupted by consuming
caffeine in the afternoon.
A little bit later, I'll talk about how you can offset some of those negative effects if
you absolutely require caffeine in the afternoon.
But there's a huge advantage to restricting your caffeine intake to the early part of your
day, but not consuming caffeine within the first 90 to 120 minutes after waking.
In fact, many people find that if they delay their caffeine intake to 90 to 120 minutes after waking. In fact, many people find that if they delay their caffeine intake
to 90 to 120 minutes after waking up,
that they feel more alert in the morning
and they completely avoid that afternoon crash.
Now that said, many people, including myself,
do need a short nap or non-sleep deep rest
or other form of relaxation
for 10 to 30 minutes in the afternoon.
That is natural and healthy.
I'm not referring to the need for that when I refer to the so-called afternoon crash.
What I'm talking about in the afternoon crash is a inability to recover energy and focus
and a need to consume more caffeine just to make it through the afternoon.
By delaying caffeine intake from 90 to 120 minutes after waking,
there are a couple of things that are accomplished.
First of all, you offset that afternoon crash,
and this is an effect that many people experience
the very first time they start delaying their caffeine intake
to 90 to 120 minutes after waking.
And the reason this works so well is the following.
As I mentioned earlier,
adenosine is a molecule that builds up the longer that we are awake. It is a molecule that is reduced or
Clear from our system by sleep. So when we emerge from sleep regardless of how long we've slept our
Adenosine levels are lower than they were when we went to sleep the previous night if you slept
well enough and long enough, those
adenosine levels can be very, very low, but they are never completely zero. When you wake
up in the morning, even if you're one of these people that spring is out of bed and is ready
to attack the day, and here I'm certainly not describing myself, I'm not one of those
people tend to wake fairly slowly. But if you're one of those spring up in an attack the day
or you're one of the people who moves more slowly
into your day, regardless,
there's still some residual adenosine in your system.
And this is particularly the case,
if you did not get enough sleep or enough depth of sleep
the night before, the correct ratios of slow wave sleep
and rapid eye movement sleep.
And for those of you interested in optimizing sleep, I'll just refer you to our Master Your
Sleep episode of the Hubertman Lab podcast, the Perfect Your Sleep episode, the Hubertman
Lab podcast.
And we have a toolkit for sleep, all of which are available, zero cost, timestamp, et cetera,
at HubertmanLab.com.
You wake up in the morning and your adenosine levels are low, but they're not zero.
And if you didn't sleep that well,
or deeply enough the night before,
you're going to have more adenosine in your system.
You might think the logical thing to do
is therefore to drink caffeine
and to block the adenosine that's there.
But what happens if you do that is there's an accumulation,
a sort of glut of adenosine that hangs around.
And then in the afternoon, when the effects of that caffeine start to wear off, you will
experience this so-called afternoon crash.
As I mentioned earlier, there is a way to clear out the adenosine that's present when
you wake up in the morning and to clear it out, essentially completely, without just blocking
its receptors and letting it accumulate or hang around.
And the way to do that is to deliberately spike your cortisol. Now, many of you have heard of cortisol,
the so-called stress hormone, as a bad thing, and indeed chronically elevated cortisol is a bad thing.
It depletes your immune system. It's bad for psychosocial effects. It tends to make us feel anxious
and on and on. But cortisol itself is not bad. Cortisolcial effects. It tends to make us feel anxious and on and on.
But cortisol itself is not bad.
Cortisol is wonderful.
Cortisol enhances the efficiency of the immune system.
It makes us alert and focus.
It stimulates our metabolism.
It does a huge number of positive things
provided that it is released in a circadian fashion
that is at the appropriate times every 24 hours and that it tends to peak very close to waking.
In fact, one of the reasons you wake up in the morning,
assuming that you weren't woken up by some noise
or sleeping in an environment that's too warm, et cetera,
is that your cortisol levels start to rise.
And shortly after waking, your cortisol levels
will start to reach their peak.
And when I refer to a cortisol pulse,
that's just, I mean,
biology nerd speak for a rise and peak in cortisol. You want that cortisol pulse to occur
early in the day close to waking, and you want that for a couple of reasons. First of all,
if you don't restrict that cortisol pulse to early in the day, it will tend to bleed into
the later parts of the day. And actually a late shifted cortisol
peak is one of the hallmark signatures of depression, low level depression and serious depression.
And it can start to disrupt sleep and certainly can disrupt mood metabolism and your immune
system. So you want that cortisol peak early in the day. How do you ensure that that happens?
Well, you wake up in the morning and whether or not you're a bounce out of bed type or you're more groggy, you know, kind of wade slowly into the day type like I am, you wake up and you
don't ingest caffeine, fine and in fact beneficial to hydrate with water and electrolytes.
Terrific, in fact, I would say necessary to get bright light in your eyes, ideally from
sunlight. I've talked about this many, many times before in the podcast.
If you wake up before the sun comes out, then turn on bright artificial lights.
But then certainly once the sun is out, and even on cloudy days, in fact, especially on
cloudy days, get outside for anywhere from five to 20, maybe even 30 minutes.
Do some work outside.
Take your breakfast outside if you're a breakfast eater.
Get something done outside, even if it's
just to get outside and get bright light in your eyes. Why? Well, because it's been shown
in studies on humans that getting bright light in your eyes in the first hour after waking
or as soon as possible after waking increases the peak of that cortisol pulse by 50% 5.0.
And that cortisol pulse yes increases mood, yes And that cortisol pulse, yes, increases mood, yes, increases
alertness, but it does one other very important thing, which is that through an indirect pathway,
it can clear out any residual adenosine that might be present in your system when you wake
up in the morning. Again, this is going to be especially important for those of you that
are not getting as much sleep or as much quality sleep as you would like.
It's going to be very important for you to get that morning bright light, ideally from sunlight. Get that cortisol peak going. Other ways to increase that cortisol peak would be to do some physical
activity. If you don't have time to do a full workout, well then getting some movement,
you know, 10 minutes of skipping rope or even five minutes of skipping rope or jumping jacks or
walking if that's all you have time for, ideally while getting the sunlight in your eyes, but that's
going to zero out the adenosine present in your system.
If however you were to wake up and immediately drink caffeine, caffeine itself can stimulate
the release of cortisol a little bit more than it would otherwise be present in your system,
but by blocking those adenosine receptors and because of the indirect effects of caffeine
on the cortisol system, you actually are reducing the clearance of adenosine that would
otherwise occur.
So, I realize that's a mouthful.
Just to be very clear, if you wake up and you ingest caffeine right away, you're blocking
the adenosine receptor, but you're not clearing it out. You're also preventing
cortisol from having its normal increase in rise such that it can directly clear out adenosine.
Because cortisol can clear out adenosine. And that's what you want. You want to be at
maximum alertness and focus in your morning and throughout your day.
And by delaying your caffeine to 90 to 120 minutes after waking, you set up your system
so that you get that morning cortisol peak, ideally a peak that's even greater because you're
getting your bright light viewing.
And then when you ingest your caffeine 90 to 120 minutes after waking, not only will you
be craving it just a little bit, but you
will be drinking that caffeine on an already existing backdrop of increased alertness for
two reasons.
One is adenosine is zeroed out, and your cortisol peak is higher.
And so now when you ingest caffeine, you can actually ingest levels of caffeine that are
a little more reasonable, that almost with certainty are going to fall in this 1 to 3 milligrams per kilogram
dosage and will allow you to feel really alert and will carry that alertness well into
the afternoon hours without the need to drink more caffeine and thereby will prevent you
from drinking caffeine and disrupting your nighttime sleep.
And of course, by getting better nighttime sleep, you're going to zero out your adenosine even more. So what I'm describing
here are essentially two tools. I'm telling you to get morning sunlight and maybe some exercising
conjunction with that, even if it's brief exercise. But the main tool of delaying caffeine 90 to 120
minutes after waking has immediate effects, but it also sets in motion a cascade or
domino falls that lead to better sleep and more wakefulness the next night and the next
day and so on and so forth.
Now, I realize there are some people who just simply cannot or will not delay their caffeine
90 to 120 minutes after waking for whatever reason.
First off, let me say that if you are somebody
who likes to wake up and do very intense exercise within the first 90 minutes after waking,
well, in that case, it would be appropriate to ingest your caffeine just prior to doing that exercise,
not a problem, not a problem, but you should expect that the combination of drinking caffeine
very shortly after waking plus exercising very intensely shortly after waking will increase the
intensity of that early afternoon and afternoon fatigue that you feel now for some people
That's a great thing they can afford to take a nap or do non-sleep depressed
Step away from work and so forth
In that case, I strongly encourage you to do whatever it is that allows you to get regular exercise, because regular exercise is going to be very beneficial. In fact, we did an entire episode called
Toolkit for Fitness that describes a couple of different, but really one main structure that
allows you to get the appropriate amount of resistance training and cardiovascular training
and flexibility training throughout the week. I happen to follow that program, and it works very
well, and it does involve some of those workouts to come very early in the morning
shortly after waking and in those cases I do ingest caffeine just prior to those so within you know 10-20 minutes of waking.
However, on other days I personally delay my caffeine intake 90-120 minutes and I've done that to great benefit.
And most people, if not all people that try that
have reported the same.
I should mention that some people will find getting out
to that 90 minutes to be excruciatingly difficult
because they're so accustomed to ingesting caffeine
close to waking up.
In that case, maybe just push out your caffeine intake
by about 15 minutes each day until you hit that 90
to 120 minute mark.
And that will make it much easier.
It might take you a week or so to get there, but once you get there, you'll find it to be quite easy
to maintain. The other thing is that if you are somebody who insists on drinking caffeine
very shortly after waking, I would encourage you to drink half of your caffeine then,
and then the other half of your caffeine about an hour later. That also will help offset some
of the afternoon crash. For reasons related
to the so-called kinetics of caffeine, caffeine has a quarter life of about 12 hours. That
means that if you were to ingest a cup of coffee at, let's say, 8 a.m. and let's say,
100 milligram coffee just for sake of simplicity. That about 25 percent of that caffeine action,
we wouldn't really say 25 milligrams, but about 25 percent of that caffeine action. We wouldn't really say 25 milligrams, but about 25% of that caffeine
action will still be present at 8 p.m. that night, which is pretty remarkable. So there's a long
arc of caffeine effects, and this is why it can impede sleep if it's if we take caffeine in the
afternoon. But again, if you're somebody who wakes up and you really need caffeine right away and
you refuse to do this 90 to 120 minute delay thing that I'm talking about, well, then in that case,
I would drink half of your caffeine upon waking and then a little bit more or the other half
about an hour later.
And that will extend the arc of that caffeine effects such that you don't need it again
in the afternoon because you won't experience the afternoon crash.
Because of the way caffeine works, I should mention that if you ingest caffeine
on an empty stomach,
it will have a more potent stimulant effect.
That will also tend to increase the level
of jitteriness that caffeine can produce.
Later, I'll talk about ways to offset that jitteriness,
but I'll just tell you one tool now.
Many people opt to take 100 milligrams of Thienine,
THE, AN, IN, Thienine, as a way to offset some of that jitteriness.
Theinein will reduce the jitteriness of caffeine,
which is why many energy drink manufacturers,
and even some coffee manufacturers, are now putting theinein
in energy drinks and in ground coffee,
because no surprise, it allows people to consume more of that
beverage, and they're by purchase more of that beverage, and they're by purchase
more of that beverage, which is what these vendors want, without feeling overly anxious in
jittery.
So you can take pill-form theane, if you want, with your caffeine.
I don't tend to do that.
Rather, I control the total dosage of my caffeine.
I do tend to consume caffeine on an empty stomach because I do restrict my caffeine intake
to the early part of the day.
And I generally eat my first meal somewhere around 11 a.m. and then I generally eat my last
meal sometime around 8 p.m. or so.
Those are averages, I would say, plus or minus an hour.
And that's not because I'm religiously following any kind of time restricted feeding.
It's just though, that's tends to work best with my schedule and my appetite.
But again, that's
a general theme. There are days in which I wake up and I'm very hungry and I might ingest
something, um, small snack or something, or if I'm meeting somebody for breakfast, sometimes
I'll have breakfast, sometimes I won't, and so on and so forth. The point is that you
can get away with drinking less caffeine to get the stimulant effect if you do it on an
empty stomach. And if you're somebody who likes to exercise
on an empty stomach, and I'm one of those people,
well then, ingesting caffeine just prior to exercise
can be a fantastic tool.
A little bit later, we'll talk about some of the
physical performance enhancing effects of caffeine,
but I'll just briefly jump to a point about that
as we relate to morning exercise.
If you are somebody who regularly ingest caffeine, and we can define regularly, buy, if you
ingested caffeine every day for the last two weeks, you're a regular consumer of caffeine,
whereas if you're somebody who only ingest caffeine somewhere between two and four times
per week, well, then you are not a regular consumer of caffeine.
You're an intermittent user of caffeine.
Well, if you're somebody who's a regular user of caffeine,
the performance enhancing effects of caffeine
are going to be most dramatic if you take two or three days
off from drinking caffeine, which, to my mind,
as I don't want to call myself a caffeine addict,
but a regular caffeine user, that's a horrible notion to me.
It is aversive notion because I do like the effects
of caffeine so much.
But if you really want to see the maximum performance
enhancing effects of caffeine,
you will do either one of two things.
You will either abstain from caffeine for a few days
or three days prior to ingesting caffeine
or you will use caffeine on an empty stomach.
It's very clear that caffeine on an empty stomach
enhances both the mental and physical enhancing
effects of caffeine.
And of course, all of that has to be stated
on the backdrop of consideration that if you,
you're very, very hungry, it can be,
make it hard to concentrate and so on and so forth.
So I'm not encouraging people to starve themselves
by any means, certainly don't do that.
But if you want to maximize the performance
in enhancing effects of caffeine,
you will consume it on an empty stomach. And then as a final point to that, caffeine is a diuretic.
It causes us to lose fluid and along with that fluid to excrete sodium because of the effects of
caffeine on various processes within the kidney. So one thing that works very well to maintain
mood and alertness, longer given a certain amount of caffeine intake and to avoid the jitteriness and what can sometimes feel like a crash or low blood sugar feeling or even blurry vision,
is to make sure that you consume at least an equal volume of water with your caffeine.
And ideally that water would contain maybe a small pinch of salt or some sort of electrolyte drink or powder rather.
For me, I use element.
Full disclosure, they are a podcast affiliate and sponsor, but you don't need to do that.
You could simply just have a glass of water alongside your coffee or espresso or your
your your bromante and just put a small pinch of sea salt in that or even just plain table
salt.
And that will help offset some of the jitteriness of caffeine.
A lot of people think that when they ingest caffeine,
they get the jitteriness and crash
because their blood sugar is low.
And while that can be the case,
oftentimes it's simply because of the excretion of sodium
that's occurred when they've ingested caffeine.
So I encourage you to hydrate well
and to hydrate with something that contains
a little bit of sodium.
Obviously not so much of the increases hypertension
or something of that sort, but a small amount of sodium
or an electrolyte drink like element
and there's other electrolyte drinks out there
that can accomplish the same, of course.
Just a couple of quick notes about theinein
because there are a growing number of products out there
that contain theinein and there's certainly a growing number
of people out there who are using theinein
for the effect that I described before,
which is to offset some of the jitteriness associated with caffeine containing beverages or foods.
And of course, I should mention that I've talked about the effects of Thienine on sleep.
At that sleep toolkit that you can find as a free download, you don't even have to sign
up for anything.
You just download it from hubermanlab.com, go to the menu, go to newsletter, you'll see
the toolkit for sleep. You'll see that the so-called sleep stack that I use and recommend includes magnesium
three and eight, something called Apogenin and Theonin.
Although that sleep stack is designed to be taken 30 to 60 minutes prior to sleep and I
make the point there and I'll make it again here, that ingesting Theonin prior to sleep
is not a good idea
if you are somebody who tends to have very vivid dreams,
night terrors or sleepwalking, excuse me, et cetera.
In that case, eliminate theanine from the sleep stack.
However, a number of people are using theanine
and products are using theanine to offset jitteriness
from caffeine-containing products during the daytime,
daytime consumption, that is.
A couple of notes about theinein.
Theinein is something that is present in green tea.
It's now been created as a supplement.
It's what's called a non-protein amino acid.
So while there are amino acids and proteins,
there are of course amino acids and non-proteins.
And theinein is one such non-protein amino acid.
Theinein tends to stimulate
the so-called glutamate and glutamine pathway.
It's actually very similar to glutamate and glutamine.
And it has a lot of effects on a lot of different aspects of the nervous system.
But the general effect of theinine is to compete for the receptors for certain neurotransmitters.
And the neurotransmitters I'm referring to are all excitatory neurotransmitters,
things like glutamate.
And they govern a tremendous amount
of our daily thinking and action and feeling, et cetera,
because they're present at so many connections
between neurons and the brain.
Theinine competes for the receptors for glutamate
and tends to reduce our overall levels of alertness.
So really when people take thinning along with caffeine,
what they're doing is they're really taking a slight,
I don't wanna call it depressant to the point
where it misleads people and makes people think
that it will make you depressed,
the word is a little bit misleading,
but tends to reduce or blunt some of the more excitatory,
pro-alertness actions of neurons in the brain.
So when you take it alongside caffeine,
it tends to quote unquote even things out a bit.
I should mention that the dosages of theinine that are effective
for offsetting the jitteriness of caffeine
is 200 to 400 milligrams,
and the studies that I was able to find
showed that essentially up to 900 milligrams per day
can be safe, but that's a very high dosage of theinine.
In fact, so much so that it might increase sleepiness
to the point where it wouldn't feel good.
There are also some positive effects
of daytime consumption of theinine
that are independent of reducing the jitteriness of caffeine.
For instance, there's a study demonstrating
that 17 days of ingesting theinine
at the 200 to 400 milligram dosage of 1 to 3 times per day
can reduce depression and anxiety. There are also some good data out there showing that theine can
have positive effects on endothelial cells, so blood vessels capillaries and so on, and increase some
of the functional blood vessels allowing them to pass more blood through them, give them a little
bit more elasticity, if you will.
So theinine has certain pro-sleep effects, if it's taken prior to sleep.
It can enhance the quality, depth, and duration of sleep.
Again, if you're a sleep walker or somebody who has extremely vivid dreams from which you
wake up in the middle of the night, probably best to leave out theinine or maybe reduce
the dosage down to 100 milligrams, and if that's still too much, then eliminate it completely. But theine can be terrific for enhancing quality
depth and duration of sleep. It can also reduce the jitteriness associated with caffeine containing
beverages and foods. And it has certain anti-depressant and proendothelial effects. That is, it can offset depression,
it can offset anxiety, although those are minor effects,
okay, subtle effects.
And it has been shown to improve endothelial cell.
That is vessel and capillary function and structure
in ways that can be beneficial for both brain and body.
Now, one final point about theinein
that's worth paying attention to
is that the kinetics of theinein are such
that you don't need to take theinein
every time you ingest a caffeinated beverage.
When we ingest caffeine, the peak effects of caffeine
occur about 30 minutes after we drink it.
And there I'm assuming one takes it all at once
and this is a key point that we'll
come back to later, right, rather than sipping your coffee slowly over a couple of hours.
Or an hour, if you drink all 200 or 300 milligrams of caffeine in your coffee,
or 600 milligrams of your coffee, if you're getting one of those commercial coffees.
And you take theinein along with it. Theinein will block some of the jitteriness and anxiety
inducing effects of caffeine that can occur for much longer
than the effects that caffeine lasts.
So the peak in theinein occurs about an hour after ingestion.
I suppose if you want to get really fancy
and really dial in the kinetics, you could ingest theinein
about half hour before you ingest your caffeine.
But I think that's getting a little bit excessive in terms of controlling your microenvironment
if you will.
I think it would be perfectly fine to take a 100 to 200 milligram capsule of theine, along
with your coffee or tea and so forth, and just realize that if you drink more caffeine
or you extend your caffeine intake over several
hours, that you don't necessarily have to take theine repeated times throughout the day.
Let's talk for a moment about when to avoid caffeine.
And in the same stroke, let's also talk about some of the myths around caffeine.
For instance, one of the major myths around caffeine is that it can increase osteoporosis.
Turns out that while there is a relationship, of course, between calcium and osteoporosis. Turns out that while there is a relationship,
of course, between calcium and osteoporosis,
that is reductions in bone density,
and it is the case that caffeine can extract calcium
from certain tissues.
The large scale studies that are out there
essentially prove that if people are ingesting
enough calcium through their diet,
which most
everybody is, although certainly there are some people that need to supplement calcium,
or make it a point to consume more calcium-containing foods.
But assuming that you are getting adequate levels of calcium, there is no direct relationship
between caffeine intake and osteoporosis, at least not that I'm aware of.
I know this was debated for a number of years in the literature, but the literature seems
to have arrived at a general consensus now that caffeine itself is not going to create
or exacerbate osteoporosis.
Provided people are getting enough calcium through their diet, that is through foods, through
supplementation, or both.
Some of the other myths around caffeine
are that, for instance, caffeine will reduce testosterone levels
or will reduce estrogen levels.
Other myths out there are in exact opposite to that
that caffeine will increase testosterone levels
in particular free testosterone levels.
There have been some large scale studies
addressing the hormone effects of caffeine.
They are a little bit difficult to do.
I should just mention that caveat.
And the reason they are difficult to do is because 90% of adults are consuming caffeine,
and therefore you can imagine.
It's very hard to find a control group to compare the caffeine consumers to.
In particular, a control group that's well controlled
for other things like lifestyle, diet, exercise, et cetera.
However, when one controls as well as one can
for all the various factors that could impact hormones,
what one discovers is that caffeine intake,
at least at the dosages we talked about earlier,
one to three milligrams for kilogram of body weight, or even up to double that, that there are no consistent
increases or reductions in testosterone or estrogen in men or women that can be directly attributed
to the caffeine intake. And I say directly attributed because in these association studies,
one always has to wonder, for instance, if because people are ingesting more caffeine, they have more
energy, and therefore exercising more and exercises known to have effects on testosterone
estrogen and other hormones, whether or not the effects of caffeine on those hormones
is indirect and so on and so forth. And this all just underscores the challenges of doing
studies on humans in the wild in their natural habitat of living as opposed to an acute study as it's called to bring someone into the laboratory
and studying them just for those hours or moments.
With all that said, there does appear to be a relationship between caffeine intake and
so called sex hormone and binding globulin, which is a protein present in the body, of both men and women,
that binds to the sex-storyd hormones,
testosterone and estrogen,
and prevents them from being in their free or active form.
It has been shown that,
ingestion of caffeine,
even in the sorts of dosage ranges
that are considered safe
and that we've been discussing,
can increase sex hormone binding globulin,
such that it can slightly reduce overall levels of free
testosterone and free ester dial in women. Now, those effects are
relatively minor, but they do exist. If any of you are interested
in reading further into the effects of caffeine on hormones, I'll
just refer you to a couple of studies. We will link to this in the
show note caption. The title of the study is consumption of caffeinated beverages and serum concentrations of sex steroid hormones in U.S. men.
And within this study, there's a reference to a equally sized and powered study done on women,
both of which converged on the same conclusion. By examining more than a thousand,
so in this case, 1,410 men or more than a thousand
women that there are increases in sex hormone binding globulin associated with increased intake
of coffee in particular, but they were able to narrow that down specifically to ingestion of caffeine.
So it's not coffee per se that's causing the increase in sex hormone binding globulin. It's not coffee per se that's causing the increase in sex hormone binding globulin. It's actually caffeine itself.
Now again, the increases in sex hormone binding globulin were not so significant that at
least to my mind, they seem like a concern.
Although I think that it is worth noting that if you're going to consume caffeine that
you probably want to consume caffeine in a way that is in dosages and with the sort of
timing that will allow you to get away with
ingesting caffeine but not to excess.
So to derive the benefits of caffeine without, for instance, driving up sex hormone binding
libulin too far.
Now why would that be a good idea?
Why would you want to make sure that you have enough free testosterone and free estrogen?
Well, some of that is related to the acute effects of those hormones in terms of well-being
and libido and strength and mood, etc.
But some of it is also related to the longer term effects of sex-troid hormones.
Many people don't realize this, but the sex-troid hormones operate on the receptors at the surface
of cells to have immediate effects, but they also can enter cells and actually go into the
nucleus of cells
where the DNA of those cells are contained and control gene expression in those cells.
So the sex-story to hormones, testosterone and estrogen are controlling a lot of different
cellular functions over long periods of time.
So blunting their action over long periods of time is probably not a great idea.
But again, at the dosages of caffeine that we're talking about today, one to three milligrams per kilogram of body weight, unlikely that the increases in sex hormone
binding globulin that one experiences from that are going to be detrimental. And certainly,
the positive effects of caffeine that one experiences in terms of mental performance and physical
performance and the fact that it increases energy to do the sorts of things like exercise
that we know can profoundly improve hormone profiles.
Twofold or threefold improvement in hormone profiles.
In that case, it seems that ingesting caffeine is overall a good thing provided it's not in excess.
That also makes this the appropriate time to mention one of the more impressive effects of caffeine,
which is on overall levels of mood and mental health.
There are several studies on this,
but the one that I'm particularly fond of was published in 2019
in psychiatry research, and the title of the paper is
Inverse Association between caffeine intake
and depressive symptoms in US adults,
and these are data from the National Health
and Nutrition Examination Survey.
And the basic takeaway is that while, of of course there are a ton of different factors that
are going to relate to whether or not people are depressed or not, life circumstances, genetics
and so on, that, and here I'm quoting from the study, caffeine, psychostimulant properties,
that just means the ability to make us feel more alert and positive, appear to protect
against depressive symptoms.
And of course they acknowledge that
additional studies are needed. But this is just one of several studies pointing the fact that people
who regularly ingest caffeine in the appropriate dosages do seem to enjoy an anti-depressive effect
overall. I wouldn't want anyone to consider caffeine a treatment for severe depression, or at least
not alone a treatment for severe depression, but provided least not alone, a treatment for severe depression,
but provided the anxiety inducing effects of caffeine can be kept in check through use
of thinning or making sure that the dosage and the timing of caffeine ingestion is correct.
Then caffeine overall seems to be good for our mood and prevent depression or at least
keep depression at bay when depression might otherwise surface or be more severe.
And of course, there are the don'ts surrounding caffeine intake as it relates to sleep.
And to put it very simply, sleep, that is getting enough quality sleep each night, is the
foundation.
It is the bedrock of mental health, physical health and performance.
Sleep and the power of sleep far exceeds any neutropic you could ever take any prescription drug you could
ever take any health promoting tool for your immune system,
your metabolism, your mental function, your physical function,
you could ever take. Sleep is the bedrock. I know a lot of people
experience challenge with sleep. Nobody is perfect about sleep.
That's important to keep in mind. I think a good goal is to get
enough quality sleep of sufficient duration, 80% of the nights of your life, and then as much as
possible, to make sure that the remaining 20% of nights you're not getting enough sleep for good
reasons, as opposed to hard reasons. Good reasons would include raising children. That's important.
After all, every species desires to make more of itself and to preserve and extend
the well-being of its young. So child rearing is a perfectly legitimate reason to get a lack of sleep,
but you really want to strive to get quality sleep most nights of your life, which means that even
if you're somebody who can quote unquote drink an espresso and then fall right asleep,
that you avoid caffeine intake in the 12 hours
prior to sleep.
I realize not everyone will be able to do that.
In fact, I sometimes violate that.
So I tend to go to sleep around 10 PM every night,
sometimes 11, occasionally 12 midnight,
but usually around 10 p.m. every night.
I confess that my last ingestion of caffeine is not always 10 a.m. or prior to that.
So sometimes I will have caffeine up until 11 a.m. or maybe noon.
And very, very rarely I'll have an afternoon coffee or espresso or noncontaining soda or tea or something of that sort.
But I really tried to restrict my caffeine intake to the early part of my day, that is before
noon, given that I go to sleep around 10 pm each night.
And I strongly encourage everyone out there to try and limit their afternoon caffeine intake. This is
something that Dr. Matt Walker, who's an expert sleep researcher, had a
University of California Berkeley, Psychology and Neuroscience Department there,
author of the incredible book Why We Sleep. He's been on this podcast, many other
podcasts, talking about the importance of sleep. He will remind us, and I'll
remind you now, that the quarter life of caffeine is 12 hours.
I mentioned this earlier, but I'm going to repeat it again.
That means that if you ingest caffeine at noon, 25% of its effects, more or less, I'm using
broad stroke here to talk about quarter life.
25% of that is still going to be bioactive at midnight that night, which will disrupt the early phase
of your night, the amount of slow wave sleep, which then in turn will disrupt the amount
of rapid eye movement sleep, which will disrupt your emotional processing during the following
day and so on and so forth.
Okay, none of this is to say that you have the occasional cup of coffee in the afternoon
that's going to completely demolish your sleep wake cycle forever. But I really encourage people to avoid drinking caffeine in the 12 hours prior to sleep.
And if you can't do that within the 10 hours prior to sleep.
And if you can't do that within the 8 hours prior to sleep, so really try and limit your
caffeine intake in the 8 to 12 hours prior to going to sleep at night.
And of course, slow wave sleep, aka deep sleep is the sleep that's associated with somewhat
mundane dreams, which makes it sound like it might not be that important, but it's also
the sleep that's associated with growth hormone release, which is important for protein synthesis,
repair of all bodily tissues and metabolism, and slow wave sleep is also critically attached
to your immune system's ability to clear out
bacteria and viruses that might otherwise infect your tissues.
Now I'd like to talk about caffeine and its positive effects on performance,
when used correctly. And here we are referring to both mental performance and physical performance.
The exploration of caffeine as a pro-performance tool has been explored since the 1930s.
At least that's some of the earliest documented literature on this.
Although I have to imagine, given that people have been using caffeine for much longer than
that, that long ago, somebody realized that by ingesting a certain plant that they felt
much more alertness and were able to hunt and gather or do any number of different things
better, and as a consequence, decide to consume more of that plant.
These days we consume a lot of caffeine in the form of coffee and tea mainly and some
people consume it in the form of caffeine tablets or energy drinks, etc.
Across the board one finds that caffeine intake at a level of 1 to 3 milligrams per kilogram
of body weight
improves reaction time.
That is, it reduces the amount of time to take a physical action or to answer a question
correctly with a verbal response.
It can also improve coordination.
It can also improve memory, although I do want to mention that whereas most studies of the effects of caffeine
on improving mental and physical performance involve taking caffeine at one to three milligrams per
kilogram of body weight before the mental task or physical task, there is also a pro-performance
effect of caffeine on memory if one takes caffeine after learning certain material or I should
say being exposed to certain material.
We'll come back to that in a few minutes.
If one examines reaction time, mood, alertness, focus, and memory, or the ability to call
up information from memory, or physical dexterity, power output, endurance, and overall
feelings of well-being during exercise and exertion.
Caffeine has been shown in numerous studies in both men and women to improve all of those
metrics significantly.
So, this is all just to say that caffeine is an incredible performance enhancing tool.
Now what's not obvious from the statement that caffeine is a performance enhancing tool across the board
and men and women and in different contexts, finding controls for studies of caffeine is
really challenging.
That is finding people who don't ingest caffeine regularly is a very challenging task for
the researcher.
And as a consequence, many of the studies of caffeine on human beings involve depriving
regular caffeine users of caffeine and then examining the effects of caffeine
given after a period of say five to fifteen days of abstinence
in a person that is essentially experiencing mild withdrawal
symptoms because they haven't had the caffeine that they were used to getting. So this is an important point and it's a point that likely
exacerbates the observed
pro-performance effects of caffeine.
Now all of that isn't necessarily a problem provided you keep it in mind, and it actually
points to a way in which even if you're a regular caffeine user, you can extract more
of the benefits of caffeine.
The simplest way to do this, for instance, is to look back to what we talked about earlier
in terms of the need to have most of your cortisol
increase restricted to the hour or hours just after waking
in terms of mood and alertness and performance.
One of the ways to increase the peak of that cortisol
early in the day is to consume caffeine
shortly after that peak occurs.
And this was really nicely demonstrated in a study
entitled caffeine stimulation of cortisol secretion
across the waking hours in relation to caffeine intake levels.
We will provide a link to this study.
It's a somewhat complicated study
because they looked at a bunch of different times of day
for caffeine intake.
And I should mention this study,
they used this 300 milligrams per day
or 600 milligrams per day.
So that's quite high,
although for people of sufficient body weight
and who are accustomed to taking caffeine,
it's certainly not going to be in excess
of what a lot of people out there are taking.
But basically what they observed was the following.
Cortisol responses to caffeine are reduced,
but not eliminated in people who consume caffeine
on a daily basis.
What this means is that if you wake up and, as I recommended earlier, you avoid drinking
caffeine for the first 90 to 120 minutes after waking, but you do get some sunlight or other
bright light in your eyes in that time.
Maybe even get some exercise in that time, which would be even better.
And then you ingest caffeine, you'll get a further increase in cortisol, which provided
it's restricted to the early part of the day is a good thing overall for mood and alertness.
So this is a simple performance enhancing tool, which is to stack caffeine on the tail
of that early cortisol peak.
I should also mention, however, that in this this study they had people do a five-day
caffeine abstinence prior to being tested with 300 milligrams or 600 milligrams of caffeine.
So the simple tool to extract from this and other studies like it is that if you want to experience
the maximum alertness promoting effects of caffeine when you ingest it early in the day,
you would abstain from caffeine for five days,
and then ingest caffeine 90 to 120 minutes after waking.
I would still hope that you were doing all the other things
that I described morning sunlight, exercise, et cetera,
correctly, but regardless,
it's very clear that a five-day abstinence from caffeine,
however painful that might be,
will increase the performance enhancing effects of caffeine
when you take caffeine on that sixth day. Now, I'm sure many of you out there are saying, why would I ever want to abstain from caffeine
for five days in order to just get this sixth day performance enhancing effect?
Well, there are a couple of reasons for doing that.
Perhaps you're planning to travel to a new time zone and you want to use caffeine as a
stimulant to stay up during the day in the new time zone.
That's a somewhat unusual case.
Others of you might be interested in the pro-physical performance effects of caffeine.
We'll talk more about these in a little bit, but you want to get the maximum strength
increase or the maximum endurance increase from ingesting, in this case, 300 to 600 milligrams
of caffeine.
Well, in that case, abstaining from caffeine for five days will greatly exacerbate
the pro-performance effects of caffeine when you take it on that sixth day, although admittedly,
those five days are likely to be pretty painful if you're a regular caffeine user. Another variation
on this, however, might be to have the amount of caffeine that you ingest on a daily basis,
and then go back to your regular level of caffeine intake on that day in which you need the caffeine to really boost your mood energy and performance.
Another reason why you might want to abstain from caffeine or reduce your caffeine intake for a period of time and then go back to your regular caffeine intake is
simply to identify how much of an effect caffeine is really having on your overall level of daily functioning and mood. This was something that was actually covered in beautiful detail in a book by Michael Pollan,
all about caffeine.
It's available and audible.
I really enjoyed that book.
It describes his experience with the decision to completely abstain from caffeine for a
period of months.
Although I confess that after hearing that book, what it basically made me want to do is
never quit drinking caffeine because it sounded as if, at least my interpretation was, that even
after several weeks or months of abstaining from caffeine, that he still fantasized about
the effects of caffeine.
But he did mention that when returning to ingesting caffeine after a period of long abstinence,
that it had almost a, let's not call it a psychedelic property, but it had such obvious effects on mood and alertness and feelings of well-being, that it really highlighted for him the extent to which caffeine normally was allowing him to just function what he thought was normally.
So, in other words, many of us don't even really know what our normal basal level of cognitive and physical functioning is, because
we're ingesting caffeine on such a regular basis.
I confess that as much as I enjoyed that book and as intriguing as his description of caffeine
abstinence and then the return to caffeine was, I don't intend to ever find out personally.
Now, a very good reason why you might want to abstain from caffeine for a deliberate period
of time and then return to caffeine intake is for
its physical performance enhancing effects.
And here we can look to a really interesting study title of which is Time Course of Tolerance
to the Performance Effects of Caffeine.
What I like about this study is that, well, yes, it does say that abstaining from caffeine
and then returning to caffeine intake can enhance physical performance in a very specific
way.
It also says that if you take caffeine regularly, you can still see the physical performance
enhancing effects of caffeine, although they are not quite as robust as they would be
had you abstain from caffeine.
The design of the study is pretty straightforward.
They had people either ingest 3 milligrams per kilogram of caffeine for 20 consecutive days.
Many people are already doing that, I realize, but they had people do that or ensure that
they were doing that, or others ingested a placebo for 20 days.
So they abstained from caffeine without realizing it.
Then after that 20 days of either ingesting caffeine or a placebo, their peak performance was measured
in terms of aerobic output,
but prior to that measurement, they had caffeine, okay?
So it's 20 days of caffeine,
and then a 21st day of caffeine,
and then the physical task on that 21st day,
or it's 20 days of abstinence from caffeine,
and then on day 21, you get caffeine,
and you get the same physical test.
And what they discovered was that the ingestion of caffeine
increased peak performance in this aerobic output,
dramatically if people had abstained from caffeine,
but for people that had consumed caffeine
all the way through up until that day,
it still was effective to ingest caffeine on day 21,
but not as effective as it would have been had they abstained. And in fact, the magnitude of the
what they call air-gogenic effect, which is the pro-performance enhancing effective caffeine,
was higher on the first day than in subsequent, when they allowed people to continue caffeine intake.
So the takeaway from this study is really straightforward.
If you want to get the maximum physical performance
in Hansing Effects of Caffeine,
you abstain from caffeine for 20 days,
then on day 21, when you're going to do the physical thing,
the task, you ingest caffeine about 30 minutes to an hour
before you do that physical challenge.
Now, 20 days of absandence is going to be rough for a lot of people. about 30 minutes to an hour before you do that physical challenge.
Now, 20 days of abstinence is gonna be rough for a lot of people.
I certainly don't wanna sign up for this study
in which case you might wanna do five days of abstinence
as we talked about before.
And then on day six is the day that you ingest caffeine
and do the physical task.
There are even some studies showing that you can abstain
from caffeine for just two days, for just 48 hours.
And in particular, if you are a regular user of caffeine, this allows you to, on day three,
ingest caffeine at the dosage that's appropriate for you, and do the physical or, as you mentioned,
mental performance task, and perform significantly better than those that have been taking caffeine
throughout the entire period leading up to the challenge.
So you don't necessarily need to abstain for 20 days in order to get the pro performance
effects of caffeine on day 21.
You could do five days of abstinence prior or even two days of abstinence prior or if
that's intolerable to you as it is in my mind to me to just reduce your caffeine intake slightly
or even perhaps have it if you can tolerate that in
the week or two weeks or maybe even three weeks preceding some physical or mental challenge.
Now again, this sort of implies that you're going up against a marathon or you're going up against
a series of long tests, maybe standardized tests in one day.
There I just really want to point out that there is an abundant literature showing that people perform best on mental tests if they are in the state that they were
when they studied for that material. In college, I knew a number of people who took this to
the extreme thinking that if they were to study under the effects of alcohol that they would
be best off consuming alcohol prior to taking exams. And it turns out to not be the case.
Here, we're talking in particular about psychostimulant effects of caffeine and other compounds.
So don't think that you can drink or be under the influence of THC and then take,
when you study and then take an exam under the same influence and do just as well as you would
had you not ingested anything.
Please don't let that be the takeaway.
However, do let it be the takeaway
that caffeine's effects are made more potent
by a brief to not-so-brief period of abstinence
prior to taking a dosage of caffeine.
And then the final point to make
is that if you are somebody who is not accustomed
to drinking caffeine, meaning your hypersensitive caffeine
or you don't regularly ingest caffeine,
please do not ingest caffeine on the day of any important mental or physical challenge or performance because
what you will find is that because you are not caffeine adapted, you will experience
changes in your thermal regulation in your levels of anxiety and jitteriness and your levels
of focus that could be very detrimental to mental or physical performance.
So you don't want to throw yourself in the deep end
by ingesting caffeine if you're not used to it.
And I should mention that for people that are not accustomed
to ingesting caffeine or are very sensitive to caffeine,
even 25 to 50 milligrams of caffeine in the amount
that's found in, for instance, a piece of certain types
of chocolate can actually cause anxiety.
So be careful there.
Here I'm referring only to people that are accustomed
with caffeine intake. So what careful there. Here I'm referring only to people that are custom with caffeine intake.
So what I recommend is to explore the ergo genetic effects of caffeine during your training and then
to make a decision about what you can reasonably and reliably do in terms of abstinence and then
pulse with caffeine on the day of the challenge. I get a lot of questions as to whether or not caffeine
has different effects on the nervous system and on performance in particular depending on phases of the menstrual cycle.
So I explored that in my research for this episode and I found two studies both of which we will
reference in the show note captions. The first one is entitled caffeine consumption and menstrual
function. So it's actually the relationship between caffeine and menstrual function. We will do an
entire episode about the menstrual cycle and menstrual function. But the other one as it relates to performance was
published in 2020 in the European Journal of Nutrition, which is air-gogenic effects of caffeine on
peak aerobic cycling power during the menstrual cycle. And the basic takeaway of this study,
frankly a very nice study showed that, quote, caffeine increased peak aerobic cycling power
study showed that, quote, caffeine increased peak aerobic cycling power in the early follicular, pre-avulatory and mid-ludial phases of the menstrual cycle. Thus, the
ingestion, and again, here they use three milligrams of caffeine per kilogram of body mass,
might be considered an air-gogenic aid for women who are in the menstrual cycle during
all three phases of their cycle. So keep that in mind, women, for those of you,
their regular users of caffeine, or you're using caffeine to enhance physical performance,
there does not seem to be any menstrual cycle phase-dependent effects of caffeine on performance.
That is, caffeine seems to always increase physical performance,
regardless of the phase of the menstrual cycle you might happen to be in.
I'd like to touch on a little bit more of the use of caffeine for enhancing mental performance.
Yes, it is the case that ingesting one to three milligrams of caffeine per kilogram of body weight
in the 30 minutes or so prior to doing a memory task or sitting down to doing some studying or
learning of any kind, physical or mental
performance of any kind is beneficial for all the reasons we talked about before
related to dopamine and acetylcholine, etc. But it turns out that it is also the case
that spiking ones adrenaline and other so-called catacolamine, so this would be
dopamine, norapinephrine, and epinephrine after about of learning can greatly enhance memory for the information that one was trying to learn.
That's right. Spiking your adrenaline after learning can greatly increase memory for the material
you're trying to learn. In fact, this is a practice that dates back centuries and was written about in a beautiful
annual review of neuroscience on the biology of memory by James McGaw, where he talks about
medieval practices of children being taught information and then being thrown literally
into cold water to stimulate the release of adrenaline and that increase in adrenaline
while the mechanism wasn't completely understood.
It was understood that that sort of shock to the system
from the cold water led to better memory
and retention of the information
that these children had been exposed to.
And it turns out the exact same thing
is true for adults in the laboratory or kids in the laboratory.
And here I'm not suggesting throwing anyone into cold water.
If you want to get into cold water,
there's a reason we call it deliberate cold exposure
on the podcast is that it should be deliberate and controlled by you, not by somebody else.
If it's controlled by somebody else, that might be, you know, military screening or something.
But here we're talking about deliberately increasing your levels of adrenaline and other catacol
amines, dopamine, neuropene, et cetera.
You can do that certainly by deliberate cold exposure
with a cold shower or getting in up to your neck
and cold water of any kind.
But the other way to do that is to spike your adrenaline
by ingesting one to three milligrams per kilogram
of caffeine after sitting down to try and learn some
material.
I confess that more often than not,
I use caffeine the same way that most people use it,
which is, okay, I'm gonna sit down,
I'm gonna research information for a podcast
or assemble some information for a paper or grant,
and I want to focus, so I will drink a cup of coffee
at the beginning of that, and maybe even throughout that,
or a couple of year of amate at the beginning or throughout that, or I'll sip on one or both throughout trying to learn.
And that works quite well in terms of maintaining focus and alertness and retention of information.
But it is indeed the case, that is the research supports the fact, and I've experienced
the fact that if I abstain from caffeine while I'm trying to learn something, but then I drink caffeine immediately after, somewhat surprisingly to me, but certainly,
in a way that's consistent with the research literature, memory for the information that I was
focused on prior to ingesting that caffeine is much greater. And here I'm talking about it as a
personal anecdote, but this is actually what the data point to,
both in animals and in humans.
And if you think about it makes perfect sense,
because the way that the memory systems of the brain
are organized is that we go through life experiencing
things, we encounter surprises, both good and bad,
we go through the motions of things,
both typical, mundane, exciting, and novel, and not novel.
And then every once in a while, something will happen that will spike our catacolomines,
dopamine, typically if it's a positive surprise, adrenaline, which can be associated with both
positive surprise or positive events and negative events, or surprises, and without fail, increases in the catacoleumines tend
to lock in memories for things that preceded the increase in those catacoleumines.
Again, the catacoleumines being dopamine, epinephrine, and norepinephrine.
Sometimes, all three in combination, sometimes just two of those, sometimes just one of those,
depending on the experience.
So it makes perfect sense that using caffeine at the end of a learning
about would enhance our memory for the information that we're trying to learn.
So if you decide that you want to try and extract this performance enhancing
effect of caffeine, what I recommend would be to try and abstain from caffeine
for a day or two prior, but if you can't, to just continue with your normal caffeine intake,
but then when you sit down to study or learn something,
to not ingest any caffeine as you do that,
but then afterward to ingest caffeine.
Now in theory, you could probably further enhance
the memory encoding effects of adrenaline
and the other catacolomines by drinking caffeine
and then taking a cold shower,
doing deliberate cold exposure, if you really wanted to or had the ability to, or doing some sort of
intense form of exercise. And we'll talk in a moment about how caffeine exercise
and the adrenaline system interact. But as a brief but relevant aside,
brief bouts of intense exercise ranging from 10 to 50 minutes or so have been shown to improve
memory for information that one was trying to learn prior to the intense exercise.
This is work from Dr. Wendy Suzuki's lab at NYU, as well as other laboratories, some
of the work that's being done, it's Stanford in the mind body, laboratories, and our laboratory
points in the direction of these kinds of effects as well.
They all come back to the same general neurochemical theme, which is that when we experience an increase in these catacolamines that included adrenaline, dopamine and norepinephrine,
the memory systems of the brain flip on in a way that try to capture the information and the perceptions and the experiences that
we were exposed to just prior to that increase in catacolomines and caffeine, but also exercise
and also cold water. And of course, any of those alone or in combination all increase
the levels of catacolomines. So it makes perfect logical, mechanistic sense as to why this would
work. And in fact, it does work.
If you want to remember specific information, you might consider using caffeine as you move through an absorb and are exposed to that information,
but you might also consider using caffeine after being exposed to that information, because studies and animals and humans show that that is a potent way to increase memory for what you were just exposed to.
I should mention that what I just described also pushes back
on something that I know a number of people perhaps have heard about
and maybe even use, which is this notion of the Napa Chino.
I remember hearing about this a few years back,
it was sort of trend, if you will.
The trend involved drinking a cup of coffee or double espresso
and then going down for a nap,
typically in the afternoon and then going down for a nap, typically
in the afternoon and then waking up and the idea was that the caffeine would hit your
system right at the time that you awake from the nap and that you would be better able to
focus and exercise.
There are a couple of things about that practice that I don't like.
First of all, it implies in most cases that you're napping and ingesting caffeine in the
afternoon, which
I realize for many students and for people that are comfortable staying up until the
wee hours of the night and then waking up late the next day might be compatible with their
schedule.
But again, because of the sleep diminishing effects of caffeine, and we talked about earlier,
not crazy about the idea of people ingesting caffeine in the late afternoon in order to perform better in the late afternoon.
Far better would be to restrict caffeine intake to the early part of the day as we talked
about earlier.
The other reason is that the data on things like non-sleep deep rest and naps in the afternoon
and again the rule here is that you don't have to nap, but if you want to nap
It's been shown that naps of 90 minutes or less or
Non-sleep deep rest protocols and you can find those for instance
There's one with me speaking you just put nst r huberman into YouTube
You can hear that it's completely zero cost there other nst r scripts out there now
Of course that if you prefer those that those can all lead to increases in
One of the catacoleomines at least, which
is dopamine.
That's been shown in a really nice neurotransmitter labeling study, not from my laboratory, but
from another laboratory, but also can improve mood focus and alertness on its own without
the need to ingest caffeine prior to going into those states.
In fact, ingesting caffeine prior to a nap or ingesting caffeine prior to NS into those states. And in fact, ingesting caffeine prior to a nap, or ingesting caffeine prior to NSDR,
is most certainly going to reduce the effectiveness
of that nap in NSDR in restoring natural levels
of alertness and focus that would lead
to the performance enhancing effect.
So I'm not such a fan of the so-called napachino,
although if any of you out there
have derived great benefit from it,
definitely let me know your protocol
and what you've experienced.
Put it in the comment section if you would.
I'd appreciate that.
There's another very important and potent use of caffeine
for enhancing performance.
And this relates not just to the dopamine and epinephrine
and the arousal inducing effects of caffeine.
And it doesn't even just relate to the effective caffeine on enhancing
frontal lobe function. It does include all that, but it also includes those reinforcing effects of
caffeine that we talked about at the beginning of the episode. And the best way to illustrate these
performance enhancing effects of caffeine that stem directly from its association with reinforcement is to highlight a study.
And the title of the study is Blood Dopamine Level Enhanced by Caffeine in Men After
Treadmill Running.
And as the title suggests, this was carried out in men, but there's no reason to think
that the same results wouldn't also be present in women.
There are some sex dependent effects of caffeine.
I'll touch on just briefly at the end, but those are largely present in kids, that is adolescents and teens as opposed
to adults. So this study is really interesting. What they had people do was run on a treadmill
and either ingest caffeine, again, three milligrams per kilogram of body weight or to not ingest caffeine. And then they looked at levels of dopamine and other neurotransmitters and hormones such
as prolactin and cortisol.
The basic takeaway is as the title suggests that exercise while on its own can increase
cortisol in healthy ways provided it's not too intense and too long.
Little note here, if you have trouble recovering
from exercise or you want to continue to derive
the benefits from exercise, in general,
best not to do high intensity exercise
for longer than 75 minutes or 90 minutes,
only being the outer threshold.
I realize that there are some genetic freaks out there
or people that are chemically assisted
that can recover from very intense
long bouts of exercise, but most people don't do well, long bouts of intense exercise
on a regular basis and limiting their intense exercise
to 60 minutes or less,
that doesn't include the warm up,
is going to be beneficial.
See the episode on toolkit for fitness,
if you'd like details on that.
Exercise is known to increase levels of dopamine, cortisol,
and other catacolamines and neurotransmitters,
very potently, and things like testosterone
and estrogen in ways that we know are beneficial to us.
And of course, have all these positive effects on the musculoskeletal system
and cardiovascular effects.
But unbeknownst to most people, ingesting three milligrams per kilogram
of caffeine prior to exercise,
further increases the dopamine release associated with exercise specifically.
And this has two important effects.
First of all, that increase in dopamine is great because it provides a long lasting increase
in focus alertness and motivation, not just during the exercise, but also after the exercise.
And second, it, that is caffeine and dopamine in combination act as a reinforcer to make
the experience of exercise and the period immediate after exercise more pleasant and in fact
reinforcing.
So in other words, one way to enjoy exercise more and to enjoy the activities
that follow exercise more and to experience a genuine increase in dopamine that's beneficial
for mood and alertness is to ingest caffeine prior to exercise. Now, this is important
because a number of people out there are exercising love, exercise, love eating great,
love doing all the things that are beneficial for their health,
but a number of people out there really don't like to exercise.
And that serves as a serious block for their willingness
and their consistency to exercise.
Ingesting caffeine gives us energy to exercise.
It increases the release of neurochemicals and hormones that are good for us during exercise.
But as I'm highlighting here, it also increases the reinforcement pathways associated with
exercise.
That is, it creates a positive feeling about the general theme of engaging in exercise and it creates a general
positive experience of the things that follow exercise.
So I think this, if nothing else, is a call for or support for the idea that ingesting
caffeine as a performance enhancing tool makes perfect sense.
But for those out there that don't enjoy exercise, in particular certain forms of exercise,
ingesting caffeine can change your relationship
to that exercise, in other words, make it more positive.
Much in the same way that ingesting caffeine alongside
a certain taste that would otherwise be neutral
or maybe even negative can actually make the taste
of that particular drink or food positive.
So again, this brings us back to the reinforcing properties of caffeine that are subconscious. It's not just about
the enhanced performance in the test or the enhanced performance on the
treadmill or with the weights in the gym. It's enhanced feelings of mood and
well-being that are genuine because of the effect of caffeine on certain
neurotransmitter and hormone systems, but it also is creating an overall milieu
of reinforcing all of the things that led into
occur during and occur after exercise.
I do wanna point out something that's very important
as it relates to combining things
like caffeine and exercise in order to increase dopamine.
This is something that came up in the episode
that I did on dopamine motivation and drive, which turns out to be one of our most popular episodes. Again
you can find that at HubermanLab.com, in links to all formats, with timestamps, etc.
This also came up in the episode on ADHD because of the relationship between ADHD and dopamine.
And that's this notion of dopamine stacking. In the episode on dopamine motivation and drive,
I pointed out that while there
are a near infinite number of things that can increase dopamine release, most notably positive
surprise or positive anticipation or experiencing a win, certainly there are compounds, both
drugs of abuse, food, sex, and certain supplements that can increase dopamine to varying levels
and to varying degrees, both healthy and unhealthy.
That's all contained in that episode
on dopamine motivation to drive.
But what I pointed out is that if you are somebody
who tends to experience difficulty with motivation
that so-called dopamine stacking, as I called it,
might be something that you want to avoid.
What is dopamine stacking?
Dopamine stacking would be combining a highly caffeinated
energy drink that also includes the amino acid tyrosine,
which is a precursor to dopamine,
plus loud music, plus getting yourself really ramped up
then an intense workout.
All of that can be great if you do it every once in a while.
But what you will quickly find is that the extent
to which your dopamine
peaks also dictates the extent to which your dopamine will drop after that peak. When I say
drop, I mean drop below baseline. So a lot of people find that they stack a lot of things
to peak their dopamine that then they experience a low and it does take some time for them to
return to baseline. And I highly recommend not engaging in activities
or consuming compounds that are in attempt
to accelerate that return to baseline
because all it will do is drive that baseline lower and lower.
So this requires being able to tolerate a drop
in dopamine baseline for a period of time, et cetera.
Now, the reason I'm bringing this up now
in the context of this caffeine episode
is I just described a study in which
using caffeine prior to exercise increases dopamine
after exercise.
And so you might be saying,
especially if you heard that earlier episode,
wait, isn't that dopamine stacking?
Aren't you encouraging me to stack my dopamine?
Well, in some sense, yes, but keep in mind,
I'm not suggesting that you do this
every time you exercise.
So just as in that earlier episode,
I emphasized the fact that while stacking multiple
stimuli, right, caffeine or energy drinks and music
and et cetera, for exercise or for mental work
or for any experience for that matter,
is okay to do every once in a while for most people.
You don't want to get in the habit of doing it
consistently every time you exercise
or every time you go
out, for instance.
And so you really want to be cautious.
That is you want to protect your both baseline levels of dopamine and your peak levels of
dopamine.
That said, for people that want to experience and increase in mood, alertness, and performance
or who want to condition themselves, because that's really what it is.
It's conditioning yourself by the reinforcing effects of dopamine to increase your liking,
or maybe even your loving of exercise, occasionally using caffeine, or frequently using caffeine
prior to exercise is fine.
But be very careful, and by being very careful, what I mean is pay attention to how you feel
in the hours and days after that dopamine increase wears off.
So for instance, if you ingest caffeine and then exercise very intensely and you're
feeling great afterwards, but then eight hours later, the next day, you're feeling a little
bit low.
I suggest you don't go back and do the exact same thing right away.
I would give you yourself a little bit of time to let that baseline of dopamine return
to normal. So, again, stacking different things, chemical and behavioral in order to increase dopamine
can be done in a safe way that's beneficial to you depending on your goals.
But be careful about not stacking too many stimuli for dopamine too often.
That's the key.
Early in the episode, I mentioned one possible caffeine consuming schedule that
works very well that doesn't fortunately subject you to long 20 day
bouts or five day or even two day bouts of abstinence and that's the every
other day schedule of caffeine. If you look at the half-life of caffeine and you
look at its effects on the dopamine system and its performance enhancing effects
and how a period of abstinence can in fact increase the performance you look at its effects on the dopamine system and its performance enhancing effects
and how a period of abstinence can in fact
increase the performance enhancing effects of caffeine.
But also take into consideration that caffeine
can be habit forming and we can develop
a sort of tolerance to caffeine.
Well then what emerges from all of that
is that being a person who consumes caffeine every other day
can actually help you maximize most of the positive effects of caffeine without subjecting you to the kind of misery that
occurs if you're accustomed to consuming caffeine every single day and then suddenly go
into a two or five or twenty day abstinence.
So I myself have never tried in every other day caffeine approach, although I'm considering
doing it based on the literature
that I've read, and I'm considering doing it in a very specific way, which would be to only consume
caffeine on the days in which I resistance train. And since I tend to do that about three or four
days per week, organized in a way that's every other day. Again, if you want to see the exercise
schedule that I follow, including cardiovascular exercise and weight training, and all the reasons
and rationale for what I do, and how it maps on to the scientific literature related to health, span, and life, and vitality,
etc. You can find that at HubertmanLab.com and we had a toolkit for fitness that ought to be posted
to our website before long. The every other day schedule of caffeine intake, to me,
seems like the most rational one if one wants to maximize on the performance enhancing effects of caffeine,
without suffering the effects of caffeine withdrawal
that are associated with being a regular consumer of caffeine
and then stopping caffeine intake,
such as headache and irritability and so forth,
not eye nor anyone in my life wants me to experience
those effects, and I'm sure you don't want to experience
those effects for you either.
So if you're somebody that decides to try the every other day protocol or you are somebody
who's already doing that protocol, please let me know what your experiences with that
are.
At least by my read of the literature on caffeine and its performance enhancing effects,
but also the effects of caffeine on neurotransmitter and hormone systems, the every other day caffeine's
schedule does seem to be the most rational and scientifically
grounded one in order to maximize on all those effects.
In addition to so-called performance enhancing effects of caffeine, there are also the
well-studied and now fairly well mechanistically understood pro-health effects of caffeine.
Now here when I talk about pro-health effects of caffeine, I want to be very clear
that if your schedule of caffeine intake, that is your timing of caffeine intake, or anything
else for that matter, offsets getting regular high-quality sleep of sufficient duration,
well then you are undermining the pro-health effects of that thing. This is true for exercise,
this is true for caffeine, this is true for supplementation, this is true for prescription drugs.
Again, you don't want to be neurotically attached to the idea that you have to get perfect sleep every night,
because that's simply not true.
But it is absolutely the case that anything, whether or not it's good for you or bad for you in the short term,
that disrupts your sleep because of the timing in which you're doing that thing,
is going to undermine your immediate and
long-term health before long. So with that said, there are several well-described health promoting
effects of caffeine ingestion. And once again, when I say caffeine ingestion, I'm referring to that
1 to 3 milligrams per kilogram of body weight dosage. There are really nice studies showing
that being a regular consumer of caffeine
can help offset some of the probability,
some of the probability of developing Parkinson's
and maybe Alzheimer's related dementia as well.
These are not terribly controversial data
because of the fact that caffeine is known
to increase the release of those catacolomines,
dopamine,
epinephrine, and nor epinephrine, as well as acetylcholine.
All those neurotransmitter and neuromodulator systems are the ones that are known to be defective
in Parkinson's and Alzheimer's, although there are other transmitter and hormone systems
that are defective as well.
There are beautiful reviews on the neuroprotective of caffeine and neurodegenerative diseases.
They're quite extensive and I'll just refer you to one and the references
they're in and we'll provide a link to this in the show note captions that title as the
topic at hand suggests is the neuro protective effects of caffeine and neurodegenerative diseases. This was published in 2016
I'm sure there have been other reviews since then, but it includes many, many quality references
and studies both in animals and in humans pointing to the fact that specific enzymes that are associated
with the health of in particular dopamine neurons are made more robust by regular ingestion of caffeine.
It also points to the fact that the increase in dopamine receptors that is induced by regular ingestion of caffeine
that are referred to earlier is another way in which dopamine, however many dopamine neurons
remain around in people with Parkinson's or people who are aging that lose dopamine neurons naturally,
that dopamine can have its maximal effect because of the increase in receptors for dopamine that
caffeine induces. And there are other biological mechanisms
that further support why caffeine ought to be neuroprotective,
including its effects on the acetylcholine system,
which is one of the major systems disrupted
in Alzheimer's dementia.
So in other words, it makes perfect sense
as to why caffeine would be neuroprotective.
Caffeine has also been shown to diminish headache, particularly when taking an incommination with
aspirin, and that's because of the effects of caffeine and aspirin on blood flow.
There's also evidence that caffeine can provide brief but substantial relief from asthma.
So, I wouldn't want people to rely on caffeine as a life-saving approach to an asthmatic
attack.
That said, for people that suffer from minor asthma,
that caffeine intake, again, of the dosages that we talked about before, has been shown to
alleviate some of the major symptoms of asthma for anywhere from one to four hours.
And I know this is a relevance to a lot of people out there because caffeine increases
the catacoleumines, and in particular because caffeine increases
dopamine transmission in the prefrontal cortex, this area of the brain associated with
focus and rule setting and context and task switching, caffeine is known to improve focus
and alertness in particular in people who have symptoms of ADHD or other attention and
focus issues.
Now, caffeine alone does not appear to be as potent for the treatment of ADHD
as are things like riddle in, adderol, modaphanol, and armodaphanol in vivants.
If you would like a sort of head-by-head comparison of prescription drugs, supplements, and things like caffeine, as
well as coverage of behavioral tools and nutritional tools, etc. that can positively offset some
of the symptoms of ADHD.
Please see the episode that I did on ADHD.
Again, that's available at HubertmanLab.com and all formats.
But that said, caffeine does increase focus, and it does it through a number of different
mechanisms, not the least of which is to increase dopamine transmission in the forebrain,
just as a drug like ridolin or adorol would, although not to the same extent as a drug
like ridolin or adorol does.
Before we close today, I do want to just briefly return to the reinforcing effects of caffeine
that we talked about earlier.
This study on the honey bees that showed that bees prefer certain nectars because they contain caffeine, even though they are not aware that
those nectars contain caffeine. They just come to like the feeling that those nectars provide
them so much that they associate that in a subconscious way with the flowers themselves and they come
to like those flowers. Or human beings, for instance, children that ingest caffeinated beverages come to adore
the taste of those beverages. And beautiful studies have been done that describe how children
and adults truly cannot distinguish between the taste of a caffeinated and non-caffeinated
beverage. And caffeine can be placed into essentially any beverage in order to give us
a preference for that beverage,
or food.
In fact, the studies have been done with yogurt.
If you put caffeine into yogurt of different flavors, even plain yogurt, which most kids
don't like, they will come to prefer whatever flavor contained the caffeine, even if then
you remove the caffeine from that flavor.
Now, eventually their preference for that flavor will be extinguished.
But all of this is just to say that so many of the things that we like, whether or not
it's coffee or tea or a given flavor of food or a given experience or even exercise,
occur because we ingest caffeine in conjunction with those activities.
Now these are not tricks that your nervous system plays on you.
These are real neurochemical reinforcing effects. And I think that we would all do well to think about and to leverage these reinforcing effects much in the same way.
We would do well to think about and hopefully not leverage aversive effects of certain compounds, right? The simple way to put this is, I or anyone could get you
to dislike something someone or someplace by making you feel slightly less good, lower mood.
I don't even have to make you feel nauseous, but less good
after ingesting something or having a certain kind of interaction or being in a certain environment.
Very straightforward to do that because of the way that your nervous system is wired for conditioning.
However, there's the positive side of all this,
which is that it's very straightforward
to reinforce the experience of a given food,
including its taste, but all the context around it,
the container, the texture, the people you consume it with,
where you consume it, et cetera.
For instance, I wonder why we are not pairing caffeine with broccoli.
And here I'm not suggesting that people actually do that experiment or play that trick on people.
But you have to sort of imagine that if caffeine is this incredible reinforcer of all sorts
of things, in particular things that we ingest and would want to ingest more of
if it's paired with caffeine. Well then you actually can use caffeine as a tool to increase
reinforcement of different things and you can avoid caffeine as a way to further reinforce
things that you would like to stop. And here I'd like to just give the example of sugar cravings.
A lot of people ask me, how do I avoid sugar cravings? I've talked about the use of,
oh, glutamine for that.
I've talked about making sure you're getting enough
essential fatty acids and essential amino acids
as a way to reduce sugar cravings.
Please note, however, that if you are somebody
who likes to have your sugar, whether or not it's a piece
of chocolate or your dessert, et cetera,
I'm not saying that's bad,
but if you're trying to reduce your sugar cravings, ask yourself, are you ingesting sugar along with caffeine?
Could be the caffeine contained in that sugar containing food like chocolate, or it could
be that you're having a cup of coffee along with your pastry, and then you're struggling
with sugar cravings. Well, think about it. You're not just being reinforced by the sugar
and the effects of sugar on dopamine, which are real and both conscious and subconscious
through the gut to the brain dopamine system and direct on the brain dopamine system.
But by co-ingesting caffeine, you are also further enhancing the reinforcing effects of
sugar.
The flip sides all of this is that you could use caffeine as a way to increase your appetite
for certain things.
I actually know somebody I won't reveal who this person is, but they are quite prominent podcaster who ingests 125 to 150 milligrams of caffeine in tablet form,
in tablet form, along with herbal tea and use this as a way to develop a preference for herbal tea
because they found that coffee was giving them other effects that weren't good for them. So it works
quite well in animals and it works quite well in insects and it works quite
well in humans, I suppose animals, insects and humans are all animals at the end of the
day.
So no surprise there, but it all underscores these scents to which caffeine is an absolutely
fascinating molecule.
I mean, it's a ability to offset the sleepiness system, if you will, this adenosine system,
and to control our schedules in that way,
to essentially take a withdrawal against the bank
that is adenosine and then pay that back later
in the form of getting sleepy later
as opposed to when we want to be alert.
It's ability to enhance focus alertness and mood,
and if taken after trying to learn something
and remember it to enhance memory, especially,
and it's ability to increase VO2 max, increase strength. We didn't even talk today about it, trying to learn something and remember it to enhance memory, especially.
And its ability to increase VO2 max increased strength.
We didn't even talk today about it, but I'll just briefly mention that caffeine ingested
in the sorts of doses we talked about earlier because it's effects on the neuromuscular system
and the calcium system associated with neuromuscular exertion and fatigue can increase peak power
output and muscle contractability.
It's enhancing performance there as well.
And of course, caffeine does a number of other things just generally related to our overall
and basal level of mood and alertness, not the least of which are these increases in dopamine.
So caffeine is really an incredible molecule.
It's affecting all these various neurotransmitter systems, but not have hazardly. It's increasing dopamine and acetylcholine in the forebrain to increase
attention. It's reducing fatigue. It's improving mental and physical performance for some obvious
and some not-so-obvious reasons. And what I think is among the more miraculous and powerful
effects of caffeine, it is a potent, potent, potent reinforcer of things, foods, people, and experiences.
And it's one that you can leverage in any direction that you like once you understand the way
that caffeine exerts those reinforcing properties.
So today, I've really tried to cover as much as I could about the mechanisms of caffeine
action in the brain and body, as well as tools and schedules and dosages in which you
can leverage caffeine in order to meet your physical performance, mental performance, and frankly,
mental health and overall health goals. If you're learning from and are enjoying this podcast,
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Thank you for joining me for today's discussion about caffeine, both its mechanisms and its many powerful uses. And last but certainly not least, thank you for your interest in science.