Huberman Lab - Essentials: Boost Your Energy & Immune System with Cortisol & Adrenaline
Episode Date: March 13, 2025In this Huberman Lab Essentials episode, I explain how specific hormones influence both energy levels and the immune system and discuss practical tools for increasing energy throughout the day and man...aging stress. I discuss the mechanism through which cortisol and epinephrine (adrenaline) impact the brain and body and why it’s important to regulate their levels, considering factors like time of day or stress levels. I also cover the positive benefits of short-term stress and behavioral protocols to increase energy and enhance stress resilience. Additionally, I explain how to optimize hormone levels through tools like sunlight exposure, meal timing, and supplements such as ashwagandha. Huberman Lab Essentials episodes are approximately 30 minutes long and focus on key science and protocol takeaways from past Huberman Lab episodes. Essentials will be released every Thursday, and our full-length episodes will continue to be released every Monday. Read the full episode show notes at hubermanlab.com. Thank you to our sponsors AG1: https://drinkag1.com/huberman BetterHelp: https://betterhelp.com/huberman LMNT: https://drinklmnt.com/huberman Function: https://functionhealth.com/huberman Timestamps 00:00:00 Huberman Lab Essentials; Immunity & Energy 00:01:34 Cortisol, Epinephrine (Adrenaline) 00:03:32 Sponsors: BetterHelp & LMNT 00:06:03 Cortisol & Epinephrine Biology 00:07:50 Timing Cortisol Release, Tool: Morning Sunlight Exposure 00:10:07 Daytime Stress, Learning & Cortisol 00:11:30 Tool: Increase Energy, Ice Baths, Cyclic Breathing, HIIT 00:16:23 Sponsor: AG1 00:17:26 Tool: Building Resilience; Cortisol vs. Epinephrine Effects, Immune System 00:21:29 Brief Stressors & Immune System 00:25:12 Sponsor: Function 00:26:59 Chronic Stress, Cortisol, Hunger & Food Choice 00:29:18 Stress & Gray Hair? 00:29:55 Reduce Cortisol & Supplements, Ashwagandha, Apigenin 00:31:39 Optimizing Cortisol & Epinephrine, Tool: Meals, Circadian Eating, Fasting 00:34:15 Recap & Key Takeaways Disclaimer & Disclosures
Transcript
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Welcome to Huberman Lab Essentials,
where we revisit past episodes
for the most potent and actionable science-based tools
for mental health, physical health, and performance.
I'm Andrew Huberman,
and I'm a professor of neurobiology and ophthalmology
at Stanford School of Medicine.
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.
Today, we're going to focus on how particular hormones
influence our energy levels and our immune system.
We're going to talk about the hormones cortisol
and epinephrine also called adrenaline.
If you're somebody who has challenges with sleep
or you're somebody who has challenges
getting your energy level up throughout the day and getting your energy level down also called adrenaline. If you're somebody who has challenges with sleep or you're somebody who has challenges getting
your energy level up throughout the day
and getting your energy level down when you want to sleep,
today's episode is also for you.
And we're going to talk about the immune system
and how to enhance the function of your immune system.
I think it's fair to say that most people would like
to have a lot of energy during the day,
if you work during the day,
and they'd like their energy to taper off at night.
And I think it's fair to say
that most people don't enjoy being sick.
And it turns out that the two hormones
that dominate those processes of having enough energy
and having a healthy immune system
are cortisol and epinephrine.
I just want to cover a little bit
about what cortisol and epinephrine are, where they are released in the body
and brain, because if you can understand that,
you will understand better how to control them.
First of all, cortisol is a steroid hormone,
much like estrogen and testosterone,
in that it is derived from cholesterol.
So understand that cholesterol is a precursor molecule,
meaning it's the substrate from which a lot of things
like testosterone and estrogen are made.
Please also understand that cholesterol can be made
into estrogen or testosterone or cortisol,
and that cortisol is sort of the competitive partner
to estrogen and testosterone.
What this means is no matter how much cholesterol
you're eating or you produce,
whether or not it's low or it's high,
if you are stressed,
more of that cholesterol is going to be devoted
toward creating cortisol,
which is indeed a stress hormone.
However, the word stress shouldn't stress you out
because you need cortisol.
Cortisol is vital.
You don't want your cortisol levels to be too low.
It's very important for immune system function,
for memory, for not getting depressed.
You just don't want your cortisol levels to be too high
and you don't want them to be elevated
even to normal levels at the wrong time of day.
Epinephrine or adrenaline has also been demonized a bit.
We think of it as this stress hormone,
this thing that makes us anxious, fight or flight.
The fact of the matter is that epinephrine
is your best friend when it comes to your immunity,
when it comes to protecting you from infection.
And epinephrine, adrenaline, is your best friend when it comes to your immunity, when it comes to protecting you from infection and epinephrine, adrenaline, is your best friend
when it comes to remembering things
and learning and activating neuroplasticity.
We're going to talk about that as well.
Once again, it's a question of how much and how long
and the specific timing of release of cortisol
and epinephrine as opposed to cortisol
and adrenaline being good or bad.
They're terrific when they're regulated.
They are terrible when they're misregulated.
And we will give you lots of tools to regulate them better.
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Cortisol biology 101 in less than two minutes.
Your brain makes what we call releasing hormones.
And in this case, there's corticotropin releasing hormone.
CRH is made by neurons in your brain.
It causes the pituitary,
this gland that sits about an inch in front of the roof
of your mouth and the base of your brain to release ACTH.
ACTH then goes and causes your adrenals
which sit above your kidneys and your lower back
to release cortisol, a so-called stress hormone.
But I would like you to think about cortisol,
not as a stress hormone, but as a hormone of energy.
It produces a situation
in the brain and body whereby you want to move
and whereby you don't want to rest
and whereby you don't want to eat, at least at first.
Epinephrine or adrenaline 101 in less than two minutes.
When you sense a stressor with your mind
or your body senses a stressor, excuse me,
from a wound or something of that sort,
a signal is sent to neurons
that are in the middle of your body,
they're called the sympathetic chain ganglia,
the name doesn't necessarily matter.
They release norepinephrine very quickly.
It's almost like a sprinkler system
that just hoses your body with epinephrine very quickly. It's almost like a sprinkler system that just hoses your body with epinephrine.
That will increase heart rate,
will increase breathing rate.
It will also increase the size of vessels and arteries
that are giving blood flow to your vital organs.
You also release adrenaline from your adrenals,
again, riding atop your kidneys.
And you release it from an area of your brain
called locus coeruleus,
and that creates alertness in your brain.
Okay, so we have cortisol and we have epinephrine,
and their net effect is to increase energy.
So the first tool is to make sure
that your highest levels of cortisol
are first thing in the morning when you wake up.
One way or another, every 24 hours,
you will get an increase in cortisol.
It's to stimulate movement from being asleep,
presumably horizontal,
to getting up and starting to move about your day.
The best way to stimulate that increase in cortisol
at the appropriate time is that very soon after waking,
within 30 minutes or so after waking,
get outside, view some sunlight.
Even if it's overcast, get outside, view some sunlight,
no sunglasses, do that,
because in the early part of the day,
you have the opportunity to time that cortisol release
to the early part of the day.
It will improve your focus,
it will improve your energy levels,
and it will improve your learning throughout the day.
So here's how it works.
On a sunny day, so no cloud cover,
provided that the sun is not yet overhead,
it's somewhere low in the sky,
could have just crossed the horizon,
or if you wake up a little bit later,
it could be somewhat low in the sky.
Basically the intensity of light, the brightness,
is somewhere around 100,000 lux.
Lux is just a measurement of brightness.
On a cloudy day, it's about 10,000 lux.
Okay, so 10-fold reduction.
But bright artificial light, very bright artificial light,
is somewhere around 1,000 lux.
And ordinary room light is somewhere around 100
to 200 lux.
So even if you have a very bright bulb sitting right next
to you, that's not going to do the job.
Your phone will not do the job, not early in the day.
To get the cortisol released at the appropriate time,
you need to get outside.
So let's just set a couple general parameters.
If it's bright outside and no cloud cover,
get outside for 10 minutes.
If it's a cloudy day, dense overcast,
you're probably going to need about 30 minutes.
If it's light cloud, broken cloud cover,
it's probably going to be somewhere between 10 and 20 minutes.
This is why it's vital to get this light on a regular basis,
to get that cortisol released early in the day.
That sets you up for optimal levels of energy.
Now, throughout the day,
you're going to experience different things.
Most of you are not spending your entire day
trying to optimize your health.
You know, some of you might be,
but most of you have jobs and you have families
and you have commitments.
Life enters the picture and provides you stressors.
Those will cause increases in cortisol and epinephrine.
The key is these blips in cortisol and epinephrine
need to be brief.
You can't have them so often or lasting so long
that you are in a state of chronic cortisol elevation
or chronic epinephrine elevation.
This system of stress was designed
to increase your alertness and mobilize you towards things,
get you frustrated,
and provide the opportunity to change behavior.
And the reason it works is that cortisol,
when it's released into the bloodstream,
it actually can bind to receptors in the brain.
It can bind receptors in the amygdala,
fear centers and threat detection centers,
but also areas of the brain
that are involved in learning and memory
and neuroplasticity.
And this is why I say that neuroplasticity,
the brain's ability to change itself
in response to experience is first stimulated
by attention and focus and often a low level
state of agitation.
So understand that and you won't be quite so troubled
about the little stress increases
that you experienced throughout the day.
Now, there are ways to leverage stress,
epinephrine and cortisol in ways that serve you
and to do it in a deliberate way.
There are also ways to do that,
that increase your level of stress threshold,
meaning they make it less likely
that epinephrine and cortisol will be released.
So I want to talk about the science of those practices
because I get asked about these practices a lot,
things like Wim Hof breathing,
which is also called tumor breathing,
things like ice baths,
things like high intensity interval training.
All of those things have utility.
The question is how you use them
and how often you use them.
Those tools, just like stress from a life event,
can either enhance your immunity or deplete it.
That's right.
Those same practices of ice baths, tumor breathing,
high intensity interval training or training of any kind
can deplete your immune system or it can improve them.
Excuse me, they can improve it,
meaning they can improve your immune system.
The key is how often you use them and when.
And so I want to review that now
in light of the scientific literature,
because in doing that, you can build practices
into your daily or maybe every other day routine
that can really help buffer you
against unhealthy levels of cortisol and epinephrine.
Meaning cortisol increases that are much too great
or that last much too long.
Epinephrine increases that are much too great
or that last much too long.
Let's say somebody tells you something very troubling
or you look at your phone and you see a text message
that's really upsetting to you.
That will cause an immediate increase in epinephrine,
adrenaline in your brain and body.
And chances are it's going to increase your levels
of cortisol as well.
Let's say you get into an ice bath or a cold shower,
that will cause an equivalent increase
in epinephrine and cortisol.
Let's say you go out for high intensity interval training,
you decide you're going to run some sprints,
you do some repeats,
or you're going to do some weightlifting in the gym,
or you decide that you want to do some hot yoga,
you're going to increase your epinephrine
and cortisol levels.
And guess what?
They increase your levels of energy and alertness.
So if you're somebody who struggles
with energy and alertness,
it can be beneficial,
provided you get clearance from your doctor,
to have some sort of protocol built into your day
where you deliberately increase your levels of epinephrine
and your levels of cortisol.
So it's really important to understand
that the body doesn't distinguish
between a troubling text message, ice, tumour breathing,
or high-intensity interval training
or any other kind of exercise, it's all stress.
Cognitively reframing that and telling yourself,
I like this, I enjoy it, is not going to change
the way that that molecule impacts your body and brain.
I sort of chuckle because people would love to tell you
that all you have to do is say, oh, this is good for me.
No, what it does to tell yourself that it's good for you
or that you enjoy it is that it liberates other molecules
like dopamine and serotonin
that help buffer the epinephrine response.
Now, the way that it does that,
I've talked about previous episode,
but I'll just mention that dopamine
is the precursor to epinephrine.
Epinephrine is made from dopamine.
And that's why if you tell yourself you're enjoying
something and because dopamine is so subjective
that you can in some ways, as long as you're not completely
lying to yourself, you can get more epinephrine.
You get more mileage or more ability to push
through something and you can sort of reframe it.
But it's not really cognitive reframing.
The cognitive part is the trigger,
but it's a chemical substance
that's actually occurring there.
It's dopamine giving you more epinephrine,
a bigger amplitude epinephrine release,
and it gives you some sense of control.
So here's a protocol that anyone can use
if you want to increase levels of energy,
if you suffer from low energy during the daytime
or whenever it is that you'd like to be alert.
Pick a practice that you can do fairly consistently,
maybe every day, but maybe every third day
or every fourth day.
Maybe it's an ice bath or a cold bath.
Maybe it's a cold shower.
Maybe it's the cyclic inhale, exhale breathing protocol
I described, if that wasn't clear.
And people always ask for a demo.
I'm not going to do the whole thing right now,
but I'm willing to do a few rounds of this
or a few cycles, I should say.
So it's inhale.
I would do that more deeply, more like,
you do that 25, 30 times repeatedly.
You will start to feel warm.
People in the yoga community, they say you're generating heat.
You're not generating heat, releasing adrenaline.
Inhale, exhale, inhale, exhale 25 or 30 times.
You will feel agitated and stressed.
That's because you're releasing adrenaline in your body.
And that's because you're releasing norepinephrine
in your brain.
And you'll be more alert.
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So if all these protocols, all these activities
are just equivalent, they're just stress,
then how do we make them good for us?
How do we actually benefit from them?
Now, of course, the cold itself
can have some health promoting effects.
It can increase brown fat, thermogenesis and metabolism,
high intensity interval training or other forms of exercise
of course has cardiovascular effects
that can be good for us as does weight training, et cetera.
But what we're talking about here
are ways to increase energy and to teach our brain and body
to teach ourselves how to regulate the stress response.
So in addition to the benefits of the actual practices,
what we're talking about is building a system
so that when you experience increases in epinephrine
and cortisol from life events,
you're able to better buffer those.
And we are also talking about ways
that you can increase energy overall,
because that's what today's episode is all about,
energy and the immune system.
There's a biological mechanism that's very important
if you want to do those things,
increase energy and your immune system on demand,
learn to buffer stress on demand in real time.
And it means taking these protocols, these practices,
whether or not it's cold water or ice bath or exercise
or any of those and making one small
but very powerful adjustment in how you perform them.
But in order to make that adjustment,
I can't just tell you the adjustment.
I have to tell you the mechanism
so that you know if you're doing it correctly or not.
This is really a case where if you can understand
a little bit of mechanism,
you will be far better off than just adopting protocols.
Cortisol, as I mentioned, is released from the adrenals.
It can have action both in the body and in the brain.
Cortisol can cross the blood brain barrier.
Epinephrine cannot.
That's one of the reasons why it's released
both from the adrenals in your body
and released from this brainstem area,
the locus coeruleus in your brain.
That's a powerful thing because what it means is
that the body can enter states of readiness and alertness
while the mind remains calm.
So I'm presuming at this point
that you're getting your morning light
to time your cortisol increase. I'm presuming that this point that you're getting your morning light to time your cortisol increase.
I'm presuming that you want more energy
or that you want to increase your immune system function
and its ability to combat infections of various kinds.
Now, the simplest way to describe how to do that
would be in the context of cold water
or a breathing protocol.
Let's presume cold water.
So let's say you decide you're going to take a cold shower.
You get into the cold shower and if it's cold enough,
that will be stressful.
You will experience an increase in epinephrine.
It will increase your alertness.
Now you're using this as a practice,
as a tool to build, you could call it resilience,
but the ability to stay calm in the mind
while being stressed in the body,
epinephrine's in the body.
And you do that by subjectively trying to calm yourself.
Now you can do that by telling yourself it's good for you,
by emphasizing your exhales,
anything that you can do to try and stay calm,
despite the fact that you are in a heightened state
of alertness.
You do this with exercise, you could do this with music,
pretty much anything that will give you
a really heightened state of alertness
offers you the opportunity to try and stay calm in the mind.
What you're trying to do at a mechanistic level
is to have adrenaline released from the adrenals,
but not have adrenaline epinephrine released
from the brainstem to the same degree.
So you're not just trying to buffer this,
you're not trying to say, oh, this is good for me,
this is good for me, I'm going to grind this this. You're not trying to say, oh, this is good for me. This is good for me.
I'm going to grind this out.
You're not trying to grind it out.
You're trying to move through this calmly
while maintaining alertness.
In the immediate period following that practice,
your system, your entire brain and body are different.
Your body is actually primed to resist infection
when you have high levels of epinephrine in it
for short periods of time.
So the scientific study that explored
how increasing adrenaline in the body
can improve immune resistance
is grounded in a well-known phenomenon
that increases in stress actually protect you
against infection in the short term.
So I want to look at the classic data first,
describe what was done,
and then I want to talk about the more recent study,
which is immediately actionable.
There are classic set of studies
that are really based mainly on the work
of somebody named Bruce McEwen,
who was at the Rockefeller University in New York.
I'm not going to go through all the details of the study,
but essentially what they were doing was exposing subjects
to some sort of infection,
either bacterial or viral infection and inducing stress.
Sounds like a double whammy, right?
You'd think that maybe getting a little electric foot shock
or cold water exposure
or something to increase your levels of stress
and adrenaline would just make the effects
of the infection worse.
But no, quite the opposite.
Brief bouts of stress, which now you should be thinking
about in terms of cortisol and epinephrine release,
were actually able to increase immune system function.
The duration here is really important
because if stress stayed too high for too long,
then yes, indeed, stress can hinder the immune response.
But for a period of about one to four days,
it actually can protect you
by way of increasing the immune response.
There's a human study that I definitely want to point out
to you because it was published more recently
than the McEwen work.
The title of the paper is Voluntary Activation
of the Sympathetic Nervous System.
That's the system that causes fight or flight
and AKA stress.
This is COX, K-O-X at all, P-N-A-S,
Proceedings of the National Academy of Sciences, 2014.
And they incorporate the ever famous Wim Hof breathing.
Here's what they did.
They injected people with E. coli
and they had groups that either did the sorts of breathing
I've been describing that increased adrenaline release.
Although I should say, I don't think you need that breathing
to get adrenaline release.
You could do it with cold exposure.
You could do it with other things,
high intensity interval training as well.
And what they found was that the response to the E. coli
was quite different in the people that had a protocol,
in this case, breathing, to increase adrenaline.
So this is a remarkable study because what they found
was that the fever, the vomiting,
all the negative effects of E. coli, many of them,
and some cases, all of them were greatly attenuated
by way of engaging the adrenaline system.
The point is you can control your immune system
by finding a way that you can increase adrenaline.
And this runs counter to what we always hear,
which is don't get too stressed or you will get sick.
Learn to control adrenaline, turn it on and turn it off.
Learn to control cortisol,
turn it on with light in the morning,
try and turn it off.
And then when it spikes because of life events,
learn to turn it off.
Learning to turn on and off adrenaline, AKA epinephrine,
and learning to turn on and off adrenaline, aka epinephrine,
and learning to turn on and off cortisol affords you the ability to turn on energy
and focus in your immune system.
That's the most important point from today's podcast
and understanding that it doesn't matter
what protocol you use.
Maybe it's a cup of coffee
and running up a hill five or six times.
That will improve your immune system function
if you get adrenaline in your system.
You can use an ice bath, you can use a cold bath.
It really doesn't matter.
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So up until now, we've been talking about increasing energy
and increasing the immune system
by way of cortisol and epinephrine,
but I'd be totally remiss if I didn't cover
how cortisol and epinephrine, if chronically elevated
or if elevated too high,
can have a lot of detrimental effects.
Your immune system over time will get battered
and you won't be able to fight infection off as well, right?
You can start laying down the sort of classic pattern
of cortisol induced body fat.
Why do we seek high fat and or high sugar foods
when we are stressed for a while?
Why would that be?
And the reason is that the so-called glucocorticoids
of which cortisol is a glucocorticoid,
is caused as we've mentioned before
by releasing hormones from the brain
and ACTH from the pituitary, et cetera.
But normally high levels of glucocorticoids shut off
the releasing hormones in the brain and in the pituitary.
They shut down in a so-called negative feedback loop.
Chronic stress, however,
stress that lasts more than four to seven days
causes changes in the feedback loop
between the adrenals and the brain and the pituitary
such that now the brain and the pituitary respond
to high levels of glucocorticoids cortisol
by releasing more of them,
it becomes a positive feedback loop.
And that's bad.
It's a cascade of stress
equals more stress equals more stress.
So this is why it's very important
to learn to turn off the stress response.
So there's one study that Dalman and her colleagues did
where they stimulate chronic stress
by increasing corticosteroid cortisol.
And they found that subjects
would increase their consumption of sugar and fat.
In fact, they would even eat lard.
And that led to all sorts of things like type 2 diabetes
led to dysfunction in the adrenal output, et cetera.
And so the real key is to learn
to shut off the stress response.
And you should watch yourself
next time
you experience stress.
If it's a short-term bout of stress,
typically it blocks hunger.
If it's a longer bout of stress,
typically it triggers hunger,
in particular for these so-called comfort foods,
sugary and fatty foods.
Other bad effects of stress is that,
yes indeed, stress can make you go gray.
Pigmentation of hair, just like pigmentation of skin,
is controlled by melanocytes.
Well, it turns out that activation
of the so-called sympathetic nervous system,
which is really just another name for the system
that liberates adrenaline from the adrenals
and epinephrine in the brain,
drives depletion of melanocytes in hair stem cells.
So indeed there's a rate of aging
that we will undergo based on our genetics,
but stress will make us go gray.
How do I know the difference between chronic
and acute stress and how do I keep chronic stress at bay?
Once again, getting your light and your feeding
and your exercise and your sleep on a consistent schedule
or consistent-ish is going to be the most powerful thing
you can do in order to buffer yourself
against negative effects on mental health
and physical health for that matter.
There are things that one can take,
supplements, prescription drugs, et cetera.
All supplements, of course, have to be checked out
for their safety margins for you
because they're going to differ from person to person.
You're responsible for making sure they're safe for you
if you decide to use them.
One of the most common ones is ashwagandha.
It has a very strong effect on cortisol itself.
How strong?
The decrease in cortisol node in humans
is 14.5 to 27.9% reduction
in otherwise healthy but stressed humans.
The other compound that I think deserves attention
is apigenin, A-P-I-G-E-N-I-N, apigenin,
which is what's found in chamomile.
I take it before bedtime, 50 milligrams.
The major source of action is to calm the nervous system.
And it does that primarily by adjusting things like GABA
and chloride channels,
but also has a mild effect in reducing cortisol.
So ashwagandha and apigenin together,
sort of I would consider the most potent
commercial compounds that are in supplement
non-prescription form that one could use
if they were interested in reducing chronic stress,
especially late in the day
by way of reducing cortisol late in the day.
So you're probably getting the impression
that cortisol and epinephrine
are a bit of a double-edged sword.
You want them elevated, but not for too long or too much.
You don't want them up for days and days and days,
but you do want to have a practice
in order to increase them in the short term.
So we should talk about protocols
that can set a foundation of cortisol and epinephrine
that is headed towards optimal.
Optimization is always going to be a series
of regular practices that you do every day.
So sleeping at certain times, light at specific times,
food at specific times, certain foods, et cetera.
And that's highly individual, but there are some universals
and we've covered a number of those in the discussion today.
Meal timing, meal schedules has a profound effect
on energy levels.
And as I mentioned before,
the energy I'm referring to is not glucose energy.
So what I'm talking about is neural energy,
epinephrine and cortisol.
Fasting and timing ones eating are two sides
of the same coin.
When our blood glucose is low,
cortisol and epinephrine are going to go up.
Anytime we haven't eaten for four to six hours,
levels of epinephrine and cortisol
are going to go up pretty substantially.
One thing that many people do to great benefit
is they follow a so-called circadian eating schedule.
They eat only when the sun is up,
they stop when the sun is down, more or less.
The other way to think about this
is they stop eating a couple hours before sleep
and they eat more or less upon waking,
assuming that they're waking up more or less
around the time that the sun rises,
maybe plus or minus two hours.
Now, let's say you decide to do what I do,
which is I skip breakfast.
I drink water, I delay my caffeine
for 90 minutes to two hours,
and then I drink my caffeine,
and then my first meal is typically around lunchtime,
11, 30 or 12.
So I've got a cortisol increase.
I've got my sunlight in the morning.
So I'm getting a big pulse in energy early in the day.
And yes, there's a little bit of agitation.
I am hungry sometimes early in the day, sometimes no,
but my ghrelin system is used to kicking in
right around noon.
At the point where I eat,
as long as I don't eat carbohydrate,
in my case, I know that my epinephrine levels
are going to stay pretty high.
So for me, it's usually meat and salad
or something of that sort or fish and salad.
So fasting is a tool for many reasons,
can increase growth hormone, et cetera.
But today I'm talking about fasting as a tool
to bias your system toward more epinephrine
adrenaline release and toward more cortisol release,
but still low enough that it's not chronic stress,
that it's not causing negative health effects.
One has to learn how to regulate these hormones
with behavior, with nutrition, perhaps with supplementation.
I also want to mention again,
that I think there's great benefit to having a practice
that perhaps you do every other day,
but if you can't maybe every third day or every other day
of deliberately increasing your adrenaline in your body
while learning to stay calm in the mind
so that you learn to separate the brain body experience.
The idea is to stay calm in your mind
so that then you can regulate your action.
So once again, we've covered a ton of material.
I hope right now you're thinking,
okay, am I in a state of chronic stress?
Am I under-activated or could I afford to increase my levels
of adrenaline cortisol to improve my relationship
to my immune system and to energy, neural energy?
And I hope that you'll think about some of the ways
in which cortisol and adrenaline are not good or bad,
that stress isn't good or bad,
but short-term stress is healthy.
Alertness and energy is healthy,
even if it puts you at the edge of agitation.
That's an opportunity to learn
how to control these hormones better.
And I hope that if you're in a state of chronic stress,
that you'll do things to start tamping down
some of that stress,
and that you realize
that your nervous system and your hormone system are linked,
but they're linked in ways that you can control,
that we don't have to be slaves to our hormones
and certainly not the hormones that cause us stress.
We can learn to control those both to the benefit
of our body and benefit of mind.
Thank you for joining me
for what I hope was an informative discussion
and an actionable discussion
about how to increase energy and the immune system
by way of cortisol and adrenaline epinephrine.
I really appreciate your willingness to learn new topics
as well as to embrace and think about new tools
and whether or not they're right for you.
And as always, thank you for your interest in science.
["Science Facts"]