Huberman Lab - The Science of Emotions & Relationships
Episode Date: March 29, 2021In this episode, I discuss the biology of emotions and moods in the context of relationships. I focus on the science of how early infant-caregiver attachment, combined with adolescence and puberty sha...pe our adult patterns of attachment. I explain the three universal aspects of emotions, the reality of right-brain versus left-brain personalities, and how the roots of adult attachment are also grounded in specific aspects of puberty. I review what factors determine when puberty starts and ends, and the role of oxytocin and other chemicals in controlling how we perceive and remember others. As always, I refer to various practical tools including new tools for understanding and predicting our emotions before they occur, and neurochemicals that shape human connection. For the full show notes, visit hubermanlab.com. Thank you to our sponsors AG1 (Athletic Greens): https://athleticgreens.com/huberman LMNT: https://drinklmnt.com/huberman Supplements from Momentous https://www.livemomentous.com/huberman Timestamps (00:00:00) Introduction (00:00:32) Sponsors: AG1, LMNT (00:05:10) Announcing New Cost-Free Resources: Captions, NSDR Link (00:07:40) Emotions: Subjective Yet Tractable (00:10:53) To Understand Your Emotions: Look At Infancy & Puberty (00:15:21) Your First Feeling Was Anxiety (00:17:36) What Are “Healthy Emotions”? (00:19:03) Digital Tool For Predicting Your Emotions: Mood Meter App (00:21:08) The Architecture Of A Feeling: (At Least) 3 Key Questions To Ask Yourself (00:24:00) You Are An Infant: Bonds & Predictions (00:27:57) Attachment Style Hinges On How You Handle Disappointment (00:32:40) “Glue Points” Of Emotional Bonds: Gaze, Voice, Affect, Touch, (& Written) (00:36:34) “Emotional Health”: Awareness of the Interoceptive-Exteroceptive Dynamic (00:37:50) An Exercise: Controlling Interoceptive-Exteroceptive Bias (00:42:19) Getting Out Of Your Head: The Attentional Aperture (00:46:59) Puberty: Biology & Emotions On Deliberate Overdrive (00:47:58) Bodyfat & Puberty: The Leptin Connection (00:50:34) Pheromones: Mates, Timing Puberty, Spontaneous Miscarriage (00:54:37) Kisspeptin: Robust Trigger Of Puberty & Performance Enhancing Agent (00:58:26) Neuroplasticity Of Emotions: Becoming Specialists & Testing Emotional Bonds (01:00:25) Testing Driving Brain Circuits For Emotion: Dispersal (01:07:48) Science-Based Recommendations for Adolescents and Teens: The Autonomy Buffet (01:11:05) “Right-Brain Versus Left-Brain People”: Facts Versus Lies (01:14:18) Left Brain = Language, Right Brain = Spatial Awareness (01:16:15) How To Recognize “Right Brain Activity” In Speech: Prosody (01:18:32) Oxytocin: The Molecule of Synchronizing States (01:20:09) Mirror Neurons: Are Not For “Empathy”, Maybe For Predicting Behavior (01:23:00) Promoting Trust & Monogamy (01:27:00) Ways To Increase Oxytocin (01:28:34) Vasopressin: Aphrodisiac, Non-Monogamy and Anti-Bed-Wetting Qualities (01:30:43) Bonding Bodies, Not Just Minds: Vagus Nerve, Depression Relief Via the Body (01:35:18) A Powerful Tool For Enhancing Range & Depth of Emotional Experience (01:30:43) MDMA and Other Psychedelic Compounds: Building A Framework (01:38:54) Roundup, Various Forms of Support Title Card Photo Credit: Mike Blabac Disclaimer
Transcript
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Welcome to the Huberman Lab podcast where we discuss science and science-based tools for everyday life.
My name is Andrew Huberman and I'm a professor of neurobiology and ophthalmology at Stanford School of Medicine.
This podcast is separate from my teaching and research roles at Stanford.
It is, however, part of my desire and effort to bring 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.
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The reason I started taking Athletic Greens and the reason I still take athletic greens
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It makes up for any deficiencies that I might have.
In addition, it has probiotics, which are vital for microbiome health.
I've done a couple of episodes now on the so-called gut microbiome and the ways in which
the microbiome interacts with your immune system, with your brain to regulate mood, and essentially with every biological
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Many of us are still deficient in vitamin D3.
And K2 is also important because it regulates
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Today's episode is also brought to us by Element.
Element is an electrolyte drink that has everything you need and nothing you don't.
That means the exact ratios of electrolytes are an element, and those are sodium, magnesium,
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but it has no sugar.
I've talked many times before on this podcast about the key role of hydration and electrolytes
for nerve cell function, neuron function, as well as the function of all the cells and
all the tissues and organ systems of the body.
If we have sodium, magnesium, and potassium present in the proper ratios, all of those
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If the electrolytes are not present and if hydration is low, we simply can't think as
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Our mood is off, hormone systems go off, our ability to get into physical action, to engage
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They're all delicious.
So again, if you want to try element, you can go to element element dot com slash Huberman.
This month we're talking all about the science of emotions
and tools related to the science of emotions.
We've talked about the science of stress and resiliency,
tools to access more calm,
tools to raise your stress threshold to become more resilient.
We've talked about motivation and the role
of the dopamine system.
I'd like to make a couple of announcements
about some new resources.
The first one is that we
have now captioned all the Huberman Lab episodes in English and in Spanish. We were able to do that
thanks to your support of our sponsors and on Patreon. So now all of the podcasts have a captioning
feature on YouTube and those were done by experts. So while there might be the occasional error,
for the most part, they're very precise.
We've done that so that people that prefer to consume
the content in Spanish or that like to read the content
from the English subtitles can do so.
And we're going to continue to expand the number of languages
that are captioned for the Huberman Lab podcast.
So we want to thank you for that resource.
It's now available for all episodes.
In addition, in previous episodes, I've talked about NSDR or non-sleep deep rest.
NSDRs come in in a variety of different forms.
There's self hypnosis.
I've pointed you to some resources for that previously.
There's yoga nidra.
NSDR is really about achieving calm quickly and doing that in a self-directed way
for many reasons in order to access sleep more readily in order to de-stress very deeply
in order to replace sleep that you've lost.
It also seems to aid neural plasticity.
It can enhance the rearrangements of connections in the brain that occur during learning.
There's scientific support for that.
There's a link in today's episode caption to a new site.
This is a YouTube video that was brought free of cost by the folks over at Made4, a company
that's been a sponsor of the podcast previously.
So this is an NSDR script that doesn't contain any of the intentions or some of the more typical language of yoga
nidra.
Instead, it's focused purely on the breathing protocols, as well as includes a sort of body
scan where you direct your attention to different locations around your body.
It has all the core elements of non-sleep deep rest, but is distinct from yoga nidra.
I just offer this to you as a resource if you'd like to use it.
It's about 30 minutes long and should be very effective in bringing you into deep
states of relaxation for all the reasons I mentioned before.
So let's talk about emotions. Emotions are a fascinating and vital aspect of our life experience.
It's fair to say that emotions make up most of what we think of as our experience of life.
Even the things we do, our behaviors and the places we go and the people we end up
encountering in our life, all of that really funnels into our emotional perception of what
those things mean, whether or not they made us happy or sad or depressed or lonely or
we're all inspiring.
Now one thing that is absolutely true is that everyone's perception of emotion is slightly
different, meaning your idea of happy is very likely different than my idea of what a
state of happiness is.
And we know this also for color vision, for instance, even though the cells in your eye
and my eye that perceive the color
red are identical right down to the genes that they express, we can be certain based on
experimental evidence, what are called psychophysical studies, that your idea of the most intense
red is going to be very different than my idea of the most intense red. If we were given
a selection of 10 different reds and asked which one is most intense, which one looks most red.
And that seems crazy. You would think that something as simple as color would be universal and yet it's not.
And so we need to agree at the outset that emotions are complicated and yet they are tractable. They can be understood. And today we're going to talk about a lot of tools to understand what emotions are for
you to understand what your emotional states mean and what they don't mean.
And in doing that, that will allow you to place value on whether or not you should hold
an emotional state as true or not true, whether or not it has meaning or it doesn't, as well
as whether or not the emotions of others are important to you in a given context.
We're going to talk a lot about development.
In fact, we're going to center a lot of our discussion today around infancy and puberty.
We're also going to talk about tools for enhancing one's emotional range and for navigating
difficult emotional situations.
I'm not a clinical psychologist.
I'm not a therapist, but I do have some background in psychology, and
today I'm going to be drawing from the psychology greats, not me, but from the greats of psychology who studied emotion,
who studied emotional development, and linking that to the neuroscience of emotion, because nowadays we understand a lot about the
chemicals and the hormones and the neural circuits in the brain and body that underlie emotion.
So while there's no one single universally true theory of emotion, at the intersection of
many of the existing theories, there are really some ground truths.
So today we're going to visit those ground truths.
We're going to talk about the tools that emerge from them, and we're going to talk about
some absolutely wild and wacky experiments that people are doing out there right now that I don't necessarily recommend you do of inhaling different types
of hormones and trying to get attached more quickly.
You're actually going to do some experiential stuff today if you like.
There are some things that you can do in real time while listening to the podcast in order
to tap into some of the mechanisms that I'll be referring to.
So today's going to be very interactive in a way that previous podcast episodes have not. If we want to understand emotions, we have to look at where emotions first
develop. In fact, this is a critical central theme if you want to understand brain science and
psychology. There's a rule in neuroanatomy. Because if you look at 50 different brains of humans,
or you compare the brains of dogs and humans, there are a lot of differences.
Certain things are the same, but certain things are different.
And the rule that every good neuroanatomist knows is that if you want to understand what
a part of the brain does, you have to address two questions.
First, you have to know what connections does that brain area make?
What is it connected to?
Where does it get inputs from? and where does it send inputs?
So for instance, if there's an area of the brain that gets direct input from the neurons
in the nose, you can be pretty certain that it has some role in analyzing smell, in measuring
something about odors or analyzing something about odors.
Now, if it also gets input from the eye, you can also conclude that it gets input from the
visual system that it cares about light and photons.
This is sort of obvious.
And yet you need to know that connectivity and you need to know what's called the developmental
origin of that structure.
You need to know where it was early in development because things move around a lot as the brain
develops.
The brain, of course, is this more or less squishy thing floating around in some liquid
that's stuffed inside your skull.
And as a consequence, things move around a lot.
They are not always in the same place in two different species or two individuals of the
same species.
So you have to know where they started out because where they started out informs what
they do as well.
And when we're talking about emotions, we cannot point to one area of the brain.
We can't say that's the area of the brain that's responsible for emotions.
There is this so-called limbic system that has been linked to emotions in various ways.
We're going to talk about that today.
But the limbic system is just one component of the inputs to create emotions.
It's not the place for emotions.
You can't go in and lesion one location in the brain and eliminate emotions entirely.
Just doesn't work that way.
So first of all, we have to ask, what are the circuits for emotion?
What are the brain areas for emotion?
And nowadays, there's a lot of debate about this.
For years, it was thought that there might be circuits, meaning connections in the brain that
generate the feeling of being happy, or circuits that generate the feeling of being sad, etc.
That's been challenged. In fact, Lisa Feldman-Barritt has been the person who's really challenged
this head on and has very good evidence for the fact that such circuits probably don't exist. And yet, I think there's good evidence for circuits in the brain, such as limbic circuits
and other circuits, that shift our overall states or overall level of alertness or calmness
or whether they're not they bias us toward viewing the outside world or paying more attention
to what's going on inside our bodies.
If none of this makes sense right now, I promise it will make sense soon.
But the important thing to understand is that emotions do arise in the brain and body.
They arise because there are specific connections between specific areas in the brain and body.
And if we want to understand how emotions work, we have to look how emotions are built. And they are built during infancy, adolescence, and puberty.
And then it continues into adulthood.
But the groundwork is laid down early in development
when we are small children.
So let's think about what happens to a baby
that comes into the world.
A baby comes into the world.
You were born into this world without really any understanding
of the things around you.
Now there are two ways that you can interact with the world and you're always doing them
more or less to some degree at the same time.
Those are interoception, paying attention to what's going on inside you, what you feel
internally and exteroception, paying attention to what's going on outside you.
Hold that in mind, please, because the fact
that you're both interocepting and extra-ocepting
is true for your entire life,
and it sets the foundation for understanding emotions.
It's absolutely critical.
As an infant, you didn't have any knowledge of what you needed.
You didn't understand hunger, you didn't understand toys when you first came into the world.
You didn't understand cold or heat or any of that.
When you needed something, you experienced that as anxiety.
You would feel an increase in alertness if you had to use the bathroom.
You would feel an increase in alertness if you were hungry.
And you would vocalize.
You would cry out.
You would act
agitated, you might coup, you might do a number of different things, but all you knew was
what you were feeling internally, and then your caregiver, whoever that might have been,
would respond to that.
So you would feel some agitation, a caregiver would come and make a decision, oh, you need
food and give you milk, or change change your diaper or wrap you in a blanket
if you were cold.
But they didn't know if you were cold, they could just assume that you were cold.
So this is actually really important to understand that a baby, when you were a baby and when I
was a baby, we didn't have any sense of the outside world except that it responded to
our acts of anxiety, essentially.
Now, this isn't Freudian theory, right?
It's their components of it that are embedded in Freudian theory
but all developmental psychologists agree that babies lack the ability
to make cognitive sense of the outside world.
But in this feeling of anxiety and registering one's own internal state
and then crying out to the outside world either through crying or subtle vocalizations
or even just cooling, making some noise,
we start to develop a relationship with the outside world
in which our internal states, our shifts in anxiety,
start to drive requests and people come and respond
to those requests, hopefully.
And the reason I say hopefully is that we've all heard
presumably about these cases of neglect.
There are a lot of cases where if you neglect a baby,
you neglect an adolescent or a teenager,
development doesn't go well.
And we'll touch on some of those,
but those are really extreme cases.
They're sort of like the apparelel
to experiments that are often done in the laboratory
with animals where you've probably heard
of these enriched environments where they'll give mice a bunch of toys and they'll give them
some different foods every once in a while and they'll house them together with other mice and what you find is that the animals
they will say, oh, you know, their brain is thicker and their neurons have more branches to them and all that but that's really
comparing deprivation with normalcy. What we want to center on today instead is what happens when things go well.
And why things might not go well in certain circumstances is interesting, but to me, not
as interesting as what healthy emotional development looks like.
And if you haven't achieved healthy emotional development, what can be done as an intervention
at later times in order to rescue that. So the baby, you as a baby, you're flopping around there in your crib, you're getting
care where you need it and when you need it, presumably.
And this gets to the basis of what emotions are about, which are emotions are really about
forming bonds and being able to predict things in the world.
That's really what emotions are about.
Whether or not the baby feels angry or happy or sad,
we don't know.
We can guess, but we don't know.
In fact, most of the time,
we don't even know how we feel,
let alone how other people feel.
And that's true for adults.
So if I ask you how you feel right now,
I don't know that you could tell me
in any kind of rich language that
would say, oh, I really understand. If you said you were very, very depressed or very,
very happy, I'd have some sense because of how extreme that is, but I don't know that
I would really know, and I don't think you know how I feel right now either. I could
be furious right now, or I could be very happy. You don't have any idea. Now, of course,
we have these things called expressions, our pupils dilate. They're various cues of how people feel. We're going to talk about those cues, but you really
don't know. At this point, I actually just want to pause and mention a really interesting
tool that is trying to address this question of what are emotions and what do they consist
of, that you can use if you like. This is an app. I didn't develop it. I don't have any
relationship to them, but the app was developed by people at
Yale, by groups at Yale who do research, and it's called
mood meter. And it's actually quite interesting. I think it's
either free or it's 99 cents. Again, no business relationship
to them. But what they're trying to do is put more nuance, more
subtlety on our words and our language for emotions and be able
to allow you to predict how you're going to feel in the future.
It's actually quite interesting.
I'm on the app right now and I know you can't see this, but it's called mood meter and
you can find on Apple or Android.
You go into it and ask you, you know, it says to me, hi Andrew, how are you right now? And I clicked a little tab that says, I feel and I can either pick high energy
and unpleasant, high energy and pleasant, low energy, unpleasant or low
energy pleasant. And I would say right now, I feel high energy pleasant.
So I just revealed to you how I feel. So I click on that.
And then it gives you a gallery of colors and you
just move your finger to the location where you think it matches most and as you do that
little words pop up. I know some people are looking at this on audio listening to this
on audio only so it's a motivated, cheerful, inspired. I would say I'm feeling right now
cheerful. So you click that and then you just go to the next window and it just says
what are you doing and this feels like play to me, but I'm gonna call it work.
And then that's it.
And then what it does is it basically starts to collect data
on you, you're giving it information.
And it starts to link that to other features
that you allow it access to if you like.
And it starts helping you be able to predict
how you're going to feel at different times a day.
And it's actually quite accurate in certain ways,
quite interesting. And it points to a couple really interesting features, which is that we don't
really have enough language to describe all the emotional states. And yet there's some
core truths to what makes up an emotion. And I want to review that twice during today's
podcast, because this can really help people, kids and adults understand
better what they're feeling and why and when best to engage in certain activities and thankfully
when best to avoid certain activities too.
So the way this works is the following.
You need to ask yourself at any point, you could do this right now if you like, what's your
level of autonomic arousal?
Autonomic arousal is just the continuum, the range of alert to calm.
So if you're in a panic right now, you are like 10 out of 10 on the arousal scale.
If you're asleep, you're probably not comprehending what I'm saying, although maybe a little
bit, but let's say you're very drowsy. You might be at a one or a two
So you always have to ask where are you on the arousal scale and then there's this other axis this other question
Which is what we call valence now valence is a value do you feel good or bad?
I would say I feel pretty good right now on a scale of one to ten
I'm like a I don't know. I feel like a seven got good night sleep last night
Had a good walk with Costello this morning bed. I'm hydrated. I feel good. So I'm like a seven so I'm alert and I feel pretty good
And then there's a third thing which is how much we are
Interocepting and how much we are exterocepting.
All right, so how much our attention is focused internally
on what we're feeling and how much it's focused externally.
And this is always going to be in a dynamic balance.
So for instance, if you're really, really stressed,
oftentimes that puts you in a position
to be really in touch with what's going on in your body.
If you start having a lot of somatic, a lot of bodily sensations, like your heart is beating
so fast that you can't ignore it, then you're really strongly interoceptive.
But also sometimes you're really stressed because someone stressing you out or somebody sends
you a text message or makes a comment about a YouTube thing you posted or something and
you're really triggered by it.
That never happens to me.
But if it does happen to you, then you're extra accepting.
So there's three things.
How alert or sleepy you are, that's one, how good or bad you feel, that's two, and then
whether or not most of your attention is directed outward or whether or not directed inward.
And much of what we call emotions are made up by those three things.
And so let's return now to development, but tuck that away and just kind of think about
it. Alert versus asleep, good versus bad and focused internally or focused externally.
Because when I looked at the whole of the, of all the theories of emotion that were out
there, there were a lot of different components to them, but they all seem to center back to
these same three features in some way or to some degree or another, and it can be
very powerful to understand and look at your emotions through that lens.
So let's return to the infant.
There's the baby in the crib.
It's mostly interrecepting.
As caregivers, bring it what it needs.
You hope milk, diaper changes, et cetera,
a warm blanket if it's cold, pull off the blanket
when the baby's fusing and it's too warm
because babies get too warm.
Also, it starts to an X-terocept.
Excuse me, I misspoke, I wanna be very clear.
It starts to X-terocept.
The baby starts to look into the outside world
and start making predictions.
It starts wondering how much it needs to cry or predicting,
well, if I cry like a little bit, then mom comes over and I get my milk.
Or if I cry a lot, mom doesn't come over and give me milk,
so I need to really scream at the top of my head.
Okay, so babies are starting to evaluate and do all this, but they're not doing it consciously.
They're doing this strategically in order to relieve anxiety.
And I won't propose that that's what we do into adulthood, but a lot of what we do in
adulthood is when we feel something, we start exterocepting.
Some people are much better at just sitting as a container
and just interocepting and paying attention
to what they're feeling internally.
But most people do a little bit of a balance of both.
We don't feel good, so we look for an item of food
that might make us feel better.
We're feeling anxious, heading into the dentist
or something like that, so we text somebody.
We do this almost reflexively, it's not always conscious.
So infants do this and we continue to do this almost reflexively. It's not always conscious. So infants do this and we continue to do this.
We start to now balance our interoceptive
and extraoceptive focus, our looking inward
and looking outward.
And as we do that, we're trying to figure out
what gets our needs met.
Remember, emotions are really there to form bonds
and to make predictions.
And so our needs are going to be met to some degree or not.
Sometimes, sadly, there is neglect.
Sometimes people don't show up for us the way that we would like.
And in general, our response is to that, have to do with whether or not we predict whether
or not they would or not.
When we expect something and it doesn't happen, it's a big let down.
That was the discussion about dopamine last episode. So, the many theories of emotion, the triune
brain theory that you have a primitive and involved brain, something that's a little bit on
shaky ground these days. The idea that Darwin proposed that they're these universal expressions
of emotions. The work of Helen Fisher on love that you have circuits in the brain for
lust, circuits in the brain for love, and circuits in the brain for long-term bonds, as well as the work of Lisa Feldman
Barrett saying that emotions are contextual, that they have a social component.
And I'll be talking more about this, but the work of Alan Shore, a clinical psychologist
and researcher at UCLA about right brain, left brain, and its role in
emotional development. All of them have strong elements of this idea of paying attention to what's
going on inward and outward. As a young creature, an infant, and young toddler, you were mainly focused
inward and you started to understand what was going on outward as a way of predicting what would bring you
relief, what would remove your anxiety. And that's where the fundamental rules of your experience, your emotional experience, were laid down. Now, I realize that's a lot of information and it's
somewhat of an academic talk, but there were two tools in there that I just want to highlight. One
is the mood meter app. If you're interested in it, can give you some insight into the different
kinds of nuance within emotions and allow you to actually
predict emotional states. If you want to try that, then you might find that interesting.
The other one is this idea that there are three axes to emotion. Three continuum that interact.
The level of alertness and calmness, how good or bad you feel, and whether or not you're
mainly focused inward or outward. Because those are going to form a useful tool kit for the information going forward.
So now let's talk about what kind of baby you were because that actually informs your emotionality now.
These are classic, they're actually famous experiments done by Bulby and Ainsworth. Anyone that studied psychology or has taken a psychology class might have learned about this.
This is this classic experiment of what was called the strange situation task in which
and I'm describing it very coarsely here I realized, but a mother and child come into the laboratory.
Yes, this has now also been done with fathers.
The baby and the mother or father
play together for a bit. And then the mother leaves. The mother leaves for some period of
time and then comes back. And the research is devoted to understanding the response of
the child when the caretaker, the mother, the father returns.
Most all children, not every child, but most children will cry when their primary caretaker leaves.
They don't like that. And there are good reasons for that. They've formed a bond in an attachment.
And we will talk about some of the deeper chemical reasons for those bonds.
the deeper chemical reasons for those bonds. However, the experiment is focused on the return of the caregiver because Bulby and Ainsworth
and many of their scientific offspring and colleagues identified at least four patterns
that babies display when their caretaker returns.
And they group these into group A, B, C, D so much so that
the kids were referred to as A babies, B babies, C babies or D babies
You may know which one you were but the categories are really interesting the first babies are the A babies
So these were kids that would get upset when their caretaker would leave, but when their caretaker would return,
the infant would respond with happiness with what looked like delight.
They would go to the caretaker.
They seemed happy.
If they had been fussy before or sad, they felt relieved.
These are referred to as secure attached kids.
So they have a healthy response to separation and they have a healthy response to re-engaging
with the caretaker. The B babies, as they're called, were less likely to seek comfort from their
caregiver when the caregiver would return. So they would sometimes continue to play with their toys
or they would be with the they had an adult in the room while the parent was gone. They would stay with them.
It was sometimes complicated and nuanced, but these were referred to as avoidant babies.
Don't run away with any conclusions about the language here just yet.
It's not clear that avoidant babies become avoidant adults, but bear with me.
The C babies would respond to the return of the caregiver with acts of
annoyance. They seem kind of angry, right? So it wasn't that they ignored them. They seem
kind of angry. And those were referred to as ambivalent babies, not to be confused with
a babies. These are the sea babies were the ambivalent babies. So the infant's reaction
to the returning caregiver were inconsistent.
They, it seemed like they wanted to bond with them again, but that they seemed kind of annoyed.
I think we've all felt this way before with people that we care very much about, especially
people we care very much about. And then the third category, the D babies, were the disorganized
babies. That's what they called them. They weren't disorganized in that they were messy. The child avoided interactions with everyone and acted fearful when the caregiver returned.
Their behavior didn't really change whether or not the caregiver was there or not.
That fourth category was actually added rather late in the course of this research.
I should mention these experiments have been repeated with a huge variety of different contexts.
There was work done by Mary Main at UC Berkeley
and many others looking at all sorts of variations
on this theme.
But over time, it made it clear that certain babies
are able to feel secure upon re-engaging with their caregiver
and others don't, or they're confused about it.
So we probably don't know whether or not you were in A or B or C or D baby, unless you
were in these experiments and somehow you had that knowledge.
But this work, this classic work, opened up a huge set of important questions that relate
to what is the reestablishment of the bond really about?
I mean, what's actually being figured out here is not whether or not there are four categories
of babies. That's interesting, but it presumably is more interesting to focus on what is it that
defines a really good bond, a secure attachment or an insecure attachment or an avoidant attachment.
or an insecure attachment or an avoidant attachment. And the four things are gaze, literally eye contact,
and doesn't have to be direct beaming eye contact
with no blinks like people who accused me of before.
It can just be gaze that people look at each other.
You see couples they look at each other,
they don't always stare each other
in long periods of time, sometimes they do.
Vocalizations, so what we say and how we say it, affect or emotion,
so the way that we express, you know, crying, smiling, et cetera, and touch those four
things. And you probably could add a fifth dimension once language and written language
develops, which is written word. Exchange of letters, exchange of texts, exchange of
things of that sort, emails are another way in which people can bond. But gaze, vocalization,
affect and touch are really the core of this thing that we call social bonds and emotionality.
Now that's important. We know for instance that there are brain areas like the
fuchsiform face area, which is deep in the brain, that is responsible for the processing of faces.
Children's recognition of their parents faces and voices is extremely accurate and strong.
Likewise, parents recognition of their child's vocalizations, not just voices, but cries
are remarkable.
If you've ever had the experience of being in a party with somebody who has small children and you're talking to them and all of a sudden, they hear something but you are remarkable. If you've ever had the experience of being in a party with somebody who has
small children and you're talking to them and all of a sudden they hear something but you don't,
it's as if they've got wolf hearing and all of a sudden they go running into the other room and
indeed, you know, the kid is like, I don't know, some kid is beating up their kid or their kids
beating up some other kid or the kid has done injured themselves or feels emotionally injured.
This perception of voices, there's very good evidence to support the fact that we are tuned
to the frequencies of voices and vocalizations of people that we care about.
It's not just true in rodents and in birds and other mammals, it's definitely true in humans
as well.
And babies are very tuned in to the sound of their mother's voice, even the yes while
they're in the womb.
There's this whole world of what's
called mother ease, which is the particular style of speech that mothers and other caretakers
now we know use with children.
So those are the core elements, right?
How you look at somebody and how they look at you, what you say, what they say, what they
seem to be feeling, and how that makes you feel.
Smiles, frownss if you know someone really well
You can read inflections and like even little subtle things like you know, they don't they don't really believe me or oh they
They're really excited by this or oh
You know now I know what they're thinking that kind of
Processing some people are more are better at it than others
But everyone's better at doing that with people that we recognize and know in fact couples come to know each other exceedingly well so much so that it can both benefit and injure their relationship to constantly be making these perceptions.
But there's a range some people are more tuned into this than others and that probably has roots in the sorts of attachments that you form early on. So Bulby and colleagues developed these ABCD thing and has a lot to do with face processing
and gaze and vocalizations and touch.
All of those happened on return with the mother, but they weren't parsing those.
They weren't looking at them individually.
So this raises a really interesting question, which is, what is it when we feel something?
Is it because of something that happens spontaneously in us?
It's a memory or it's something that we realize, we saw on the internet or we got news about
somebody.
Nowadays, people get so much information about the people they know, both the people they
like and dislike, by way of viewing online activities, right?
So they're extra accepting and then it's impacting your internal state. And
it's clear from most all of the theories of emotional health,
that an ability to recognize when your own internal state is
being driven primarily by external events, as important for
being able to emotionally regulate, right? People who are constantly being yanked around by the external happenings in the world,
you would say are emotionally labile.
They are not in control of their emotions.
Even if they're calm all the time,
if that calmness only arrives because they're in a placid environment
and then you put a cracker in that environment and they freak out,
well then they're not really calm. They're calm in so far as there isn't something disturbing in that environment and they freak out, well, then they're not really calm.
They are calm in so far as there isn't something disturbing in the environment.
So how much the outside environment disrupts your internal environment, has everything
to do with this balance of interception and extraception.
And it very likely has roots in whether or not you were secure attached or insecure attached
disorganized or ambivalent as a baby.
Of course, you can't travel back in time and know, but there are some hints as to what
kind of emotionality each of us has by examining two periods of development.
One is adolescence and puberty, and the other is adulthood.
So while we can't travel back in time, there is an exercise that you can do to address at least in this moment,
whether or not you have a bias for extra reception or a bias for interoception, whether or
not you are better, at least in this moment, at paying attention to what's going on internally
or externally.
Of course, this will vary with circumstance.
I think we all know people that maybe it's you, you go to a party and you
get there and everyone seems to be talking and having a really good time and you're wondering
whether or not you have any food in your teeth or whether or not there's something on your
face or whether or not your hair is right or whether or not you said something the wrong
way, whether or not you're turning red, people also experience this a lot with public speaking.
It's not just about learning to clamp your level of stress.
It's also about how much you're extra-ocepting, how much you're out of your head, they call
it, but how much you're focused on the events around you versus the events inside you.
Actually, it's interesting when you talk to people who are very effective athletes or
they have very high stress, high consequence jobs, they talk
about this notion of, you know, getting out of your head. You only have so much attention
on resource, and it can be split between two things. You'll see that in a moment. They
can be anchored to one thing. It can be fully focused on what's going on internally, or
it can be fully focused on what's going on externally. And if you want to be effective in the world, effective being in quotes, it is useful when in very dynamic environments, especially
social environments, to have a lot of your attention focused outward as opposed to trying
to pay attention to whether or not you're saying things correctly or the timbre of your own
voice. That is more or less destructive for the ability to engage socially.
So here's the exercise.
You can do this.
Please don't do this if you're driving.
But let's just try and illustrate or allow you to experience this interoceptive, extra
receptive balance and the extent to which you can move interoception and extra reception
deliberately. If you close your eyes right now
and concentrate on the contact of any portion of your body, say the chair or your car seat,
although please again, don't do this while you're driving, anywhere that you are, even if you're
just standing up or you're in the kitchen, you're lying on the couch, and trying to bring as much of your attention to that point of contact as possible.
And then from there, you're going to move your attention even more deeply into, say, the
sensation of what's going on in your gut.
Are you full?
Are you empty?
Are you hungry?
Are you not?
Is your heart beating at what rate?
What's the cadence of your breathing?
Basically bringing your focus and attention to everything at the surface of your skin and inward.
So I'm going to do a rare thing on the Hubert and Lab podcast.
I'm going to introduce about five to eight seconds of silence in order to allow you
to do that a little bit.
Okay.
Now this is an exercise that you can continue afterward if you want to extend how long you do
this.
But now try and do something that for most people actually is a little bit harder, which
is to purely extracep.
Put your eyes or your ears or both on anything in your immediate space. One thing,
and I would restrict that thing to something small enough that at least in your field of view,
it would occupy 20% of your field of view. So it doesn't have to be a pin point unless the pin
is right in front of you and you're holding it real close. I would say look across the room,
pick a panel on the wall or a leg of a table or something and try and bring as much of your
attention to that as possible. And again, I'll take about five seconds of silence to
allow you to extraocept.
Okay, so what you probably found is that you're able to do that,
but that some degree of interception is maintained.
It's hard to place 100% of your attention on something
externally unless it's really exciting, really novel.
If you've ever watched a really great movie,
presumably you're extra-ocepting more than you're interocepting
until something exciting happens and then you feel something. You're actually
tethering your emotional experience to something external. And now you can
also do this dynamically. You can decide to focus internally and then externally.
You can decide to split it 50%, 50% or 70%, 30. One can develop, you can develop a heightened ability to do this.
And the power of doing that is actually that when you are in environments where you feel
like you're focused too much internally and you'd like to be focused more externally, you
can actually do that deliberately.
But as you notice, it takes work.
It involves taking your attentional spotlight and what we call the aperture of your attention and
narrowing that aperture to either the self or something externally or
splitting the two. And yet there are practices that have been developed that
center on moving interception and extraception from one being more heavily weighted than the other,
more focused outward or more focused inward.
And it's dynamic.
And the circuits in the brain that underlie,
intero and exteroception aren't exactly known,
but they are anchored in the areas of the brain
that are involved in attention,
like the frontal eye fields and areas that,
when you third person yourself,
when you can see yourself doing something,
like if you put your hand out in your environment and you focus on your hand,
you know that that's your hand as opposed to some random object.
There are areas of the brain, they're involved in that,
in recognizing location of self relative to the rest of your body.
These exercises are really what are at the core of these development of emotional bonds
because as we mentioned before, these four things, the gaze, vocalization, touch and affect,
those are happening very dynamically.
So if somebody winks at you, you're paying attention to their wink, but then you also
notice how you feel, then they might say something, then you might say something, this is very
dynamic.
So if it seems overwhelming to try and intercept and exterocept and then shift the balance, you
do that all the time.
Your brain and nervous system are fantastic at doing this.
Now, some people have a very hard time breaking out of a very strongly interoceptive mode.
Some people have a harder time breaking out of their exteroceptive mode. It's very interesting to note the extent
to which we have biases in how interoceptive or exteroceptive we are. Remember those three
axes that we talked about earlier, you have valence, good or bad, you have alertness,
alert or calm, and you have interoceptive or exteroceptive bias, right? And it's going
to differ across the day. It's going to differ across the lifetime. It's herosceptive or extra-oceptive bias, right? And it's going to differ across the day.
It's going to differ across the lifetime.
It's certainly going to differ according to whatever it is that you're engaged in.
But early in development, you start off with this inter-oceptive bias.
You are starting to develop expectations, predictions about how the outside world is going to work.
And you are trying to figure out the reliability of outside
events and people and where things are reliable. When people are reliable, we are able to give
up more of our interception. There's literally trust that our interceptive needs, our internal
needs, will be met through bonds and actions of others. This starts to veer toward the discussion about neglect and trauma.
We are going to devote entire episodes, probably an entire month, to trauma and PTSD, but
these, those have roots in what we're talking about now, and it's important to internalize
and understand what we're talking about now in order to get the most out of those future
conversations.
So, if all of this seems like a lot of information
and very complicated, I just invite you to pay attention
from time to time, how much you happen
to be interocepting or exterocepting.
Because emotions and the intensity of those emotions
will grow or shrink depending on how much we're interocepting.
If we are feeling extremely sad
and there is an outside event
that made us sad, chances are there's going to be a balance, but that the extreme grief,
the extreme sadness is going to lead us to mostly interocept. Whereas when we're feeling
extremely happy, the same is true. You know, something great happens in the world and
we're just going to feel it.
Most of our perception, most of our awareness
is going to be on an internal state.
So we are always tethered to the outside world,
to some degree or another.
It's that was true when you were an infant,
and it was true when you were an adolescent,
and it's true as an adult.
So now I want to just pause,
just shelve the discussion
about inter-reception, next-terreception for a moment, and I want to just pause, just shelve the discussion about interception,
next-terception for a moment, and I want to talk about what is arguably the second most,
if not equally important aspect of your development as it relates to emotionality.
And as it relates to this, what I call trust, but this ability to predict whether or not things
in the outside world are reliable or not reliable in terms of their ability to help you meet your interceptive needs.
And that period is puberty. So up until now, we've been talking mainly about psychology,
not a lot of biology, not a lot of mechanism. And now we're going to transition into talking
about mechanism, hormones, receptors, etc Puberty is a absolute biological event.
It has a beginning, and it has a specific definition, which is the transition into reproductive
maturity.
So, there are a lot of hormonal changes.
Yes, there are also a lot of brain changes.
Most people don't realize it, but the brain changes occur first.
The brain turns on the hormone systems that
allow puberty to occur. Puberty is occurring earlier. Nowadays, then it did in the past.
The current numbers that I was able to find is that in females and girls, the transition
is starting around age 10. Whereas in boys, it's about age 12.
That's going to differ by way of a number of different factors.
Those are averages.
So, depends on where you are in the world,
depends on all sorts of things.
One of the primary triggers for puberty is actually body fat.
This is interesting.
The peptide hormone leptin,
some people call it a peptide, some people call it a hormone,
but it meets both definitions depending on how you look at it, is made by fat.
So leptin had a lot of popularity in the 90s because it was discovered as being produced
by fat, and it was seen in animal studies that it could promote leanness.
It actually communicates to the brain
that there's enough body fat in order
to allow the metabolic factors and processes
to occur to liberate more fat.
This is why people have trouble losing that last five pounds.
It's because leptin levels are very low.
This was actually the basis for the whole cheat day refeed thing
that the idea was if you eat a lot for one day a week while dieting hard
that you can signal to the brain that there's enough leptin. I don't know if that's the reason
or whether or not the cheat days just provided some psychological relief probably both.
But in any case, leptin is made by body fat and when there's enough leptin, it signals the brain
to trigger puberty. There was a paper published in the
mid-90s in the journal Science, excellent journal, showing that leptin could be injected
into younger females that would not have yet gone into puberty and you could accelerate
the onset of puberty with leptin. So more body fat, the earlier puberty, that's true.
Leptin is also involved in various growth effects
in the body generally, and it's interesting
very obese children don't necessarily undergo
puberty earlier, sometimes they do,
but they do tend to be larger bone,
their bones actually grow more quickly,
and they tend to have higher bone density,
because leptin is also involved in bone density.
The whole issue of onset of puberty also has some really interesting social effects. And I want
to really highlight that most of these effects are so-called pheromone effects. Remember, hormone is
a substance secreted from one area of the body, travels, and impacts tissues and cells elsewhere in
the body. A pheromone is a chemical that's released
by one member of a species that goes and acts on
and impacts other members of that species
or even other species.
So for instance, rodents are very good at detecting
the urine and the scent markings of large carnivores
that want to eat them.
So that's a pheromonal interaction. Whether or not there are fermonal
effects in humans is very debated. I did a post on this on
Instagram a little while ago about some fermonal effects that
were reported in humans. And I had a couple of people come at
me saying, look, it's never really been shown in humans that
there's a fermonal vomeron, what's called the vomeronazal
organ. There's something called Jacobson's organ. It's rudimentary, some people have it, some people don't, very controversial.
So I want to point out that human pheromone effects are controversial, although I think there's,
in my opinion, there's ample evidence for them, synchronization of menstrual cycles,
for many people report, then people say there's some studies that show that it's not true,
Many people report, then people say there's some studies that show that it's not true. Then there have been some data showing very impressive
pheromonal effects of female partners being able to detect the odor of their significant others on t-shirts
that were washed several times so they can't consciously perceive it, but they say this one smells like them.
This one smells like my partner.
And indeed, the match was way above chance.
So there does seem to be weak pheromonal effects, at least in my opinion when I look at the data, but much more needs to be done.
So one of the more interesting pheromonal effects that impacts puberty, at least in animal models, is this so-called vandenberg effect, which is if you take
a pre-puberto female, so a female that has not undergone sexual maturation, and you introduce
a novel male that is not the father or a brother, not a sibling, she will undergo puberty almost
immediately.
So, this is really striking.
For years, this was thought not to occur
in primate species, but there was a paper published last year in current biology, cell
press journal, excellent journal, showing that mandrels, a particular type of primate,
they exhibit this Van and Berg effect. There are also all sorts of other pheromone effects. There's the most infamous one is called the Bruce Effect, where the introduction of a novel
male to a pregnant female animal causes spontaneous miscarriage.
And that effect seems to be protected against by the presence of the father.
So another, you know, that these interpretation
of this, and I want to really highlight that this is these are animal studies, but the
way this works is that if a pregnant female is in the company of the male that impregnated
her, then her younger protected by his scent presence or his pheromone presence.
But if he's gone and a novel male shows up, there's a tendency for her to spontaneously
miscarry and essentially for the fetus to be lost.
Now whether or not this occurs in humans is still very controversial, but nonetheless,
these pheromone effects exist. And that one is called the Bruce
effect, named after Hilda Bruce, who is the scientist that discovered it. The one that's
relevant to the puberty discussion is the Van Enberg effect, which I mentioned a few minutes ago,
which is a novel male showing up. It has to be a sexually competent male, so he has to have already passed through
puberty.
And his presence triggers activation of puberty in a female that otherwise would have remained
pre-puberital for longer.
Again, whether or not this happens in humans, unclear.
Well, what can we be sure about when we think about puberty?
Puberty is triggered by a number of different factors.
There are changes in GABA expression in the brain
and inhibitory transmitter.
One of the more interesting molecules
that triggers puberty in all individuals
is something called Kispeptin, K-I-S-S-P-E-P-T-I-N.
Kispeptin.
Kispeptin is made by the brain and it stimulates large amounts of different hormone called GNRH,
Ganatotropin releasing hormone to be released.
Ganatropin releasing hormone then causes the release of another hormone called luteinizing
hormone or LH, which travels in the bloodstream and stimulates the ovaries of females to
produce estrogen, and the testes of males to produce testosterone.
KissPeptin has other effects as well, but those are some of the main ones as they relate
to puberty.
This is interesting because at this point, the testes in males start churning out tons of testosterone
in order to trigger the development of secondary sexual characteristics, body hair,
and all the others, deepening of voice, etc. And in females, estrogen is doing
various other things, breast development, etc. Normally, in an adult, somebody
who has passed puberty, a big increase in gonad tropin-releasing
hormone and luteinizing hormone would eventually be shut down because the way that the brain
works, the hypothalamus and the pituitary are actually measuring how much hormone is in
the blood, and if testosterone or estrogen or any other hormone goes too high, they shut
down the release of things like luteinizing hormone.
It's a way, it's called a negative feedback loop.
It basically is like a thermostat in the house.
It's more complicated than that, but once levels get too high in the bloodstream, it shuts
down.
But Kispeptin is able to drive very high levels of these hormones in an ongoing way so
that puberty can commence and can continue.
And incidentally, Kispeptin has now become yet another
of the panoply of hormones and peptides and cocktails
that athletes take in order to try and stimulate natural
hormone production, essentially to create their own
performance enhancing drugs endogenously.
No judgment there, but that's a fact.
There's a lot of Kispeptin use.
I'm not truly not suggesting anyone do this, but people are buying and injecting
kiss pepped in for the specific reason that even past puberty can stimulate the large
increases in things like estrogen, large increases in testosterone and things of that sort.
As a number of psychological effects too, seems to have big effects on libido, et cetera.
All these things, of course, are subject to feedback loops
so they don't work indefinitely.
And I'm gonna highlight, again,
I'm not suggesting anyone do it,
but I do like to pay attention to what's out there
and Kispeptin, because it wasn't discovered that long ago,
is one of the things that you don't often hear about
when people talk about performance enhancing drugs or therapeutic endocrinology.
These things also have therapeutic uses in the endocrine setting.
So for instance, kids that don't undergo puberty or kids that are hypochonatal or adults
that are hypochonatal, they're not making enough hormone, will take things like chispeptin
among other things.
So that's how puberty happens at the biological level, gets triggered by leptin and Kispeptin,
and then this young child is now a different creature to some extent, not just because they're
reproductively competent, of course, but because there's a shift in a number of the things
that underlie these social bonds.
There's a market shift in a number of the things that allow children and adults to engage
in predictive behavior about each other.
The whole nature of adolescence and puberty is to take a child that was a generalist
and to make them a specialist.
And this is very important as it relates
to the conversation about emotionality.
But it's important in terms of all aspects of brain function
and in terms of learning and in terms of who each
and every one of us will and has become.
In adolescence and in childhood,
sure there are some genetic biases, you know, hair color,
eye color, height and things like that.
A lot of that's programmed into the genome.
There are other genetic biases too, of course, that we inherit.
But it's in adolescence and puberty that we go from essentially being somewhat good at
a bunch of things or somewhat poor at a bunch of things, or somewhat poor at a bunch of things, to be coming very good at a few things and very poor
at a lot of other things. And that's because of the relationship to puberty and neuroplasticity.
This ability to change the brain in response to experience is starting to taper off,
such that by our early 20s, it's harder to achieve. Now, the transition from generalist to specialist
is one aspect of adolescence and puberty,
but the other is the formation of social
and emotional bonds.
And most of what consumes the minds and waking hours
of adolescence and children who have gone through puberty
and going through puberty is questions
about how they relate to social structures, who they can rely on, and how they can make
reliable predictions in the world, now that they have more agency, that they are physically
changed.
In fact, you could argue that puberty is the fastest rate of maturation that you'll go
through at any point in your life.
It's the largest change that you'll go through at any point in your life. It's the largest change that you'll go through at any point in your life in terms of who you are because your
biology is fundamentally changed at the level of your brain and your bodily organs, all
your organs, from the skin inward. So I want to visit a little bit of the research
about some of the core needs that occur during puberty and adolescence,
not just for parents or for the people that might be in puberty and adolescence, but also so that people can reflect on which of the sort of boxes were checked off for them
as they approached emotional maturity. So there's a terrific review article that was published in
the journal Nature, which is, if not not the premiere then certainly among the top three premier journals in the field of science about the biology of adolescence and puberty as well as some of the core needs and demands that have to be met for successful emotional maturation during that time. We will provide a
link to that, but I just want to highlight a few of the things that they place in the final
table. I don't want to go through all the results right now because you could do that on your own,
if you like. They mainly highlight a lot of the changes in neurons and neural circuits. For instance,
I'll just highlight one. There's a connection between the dopamine centers
in the brain and an area of the brain that's involved in emotion and dispersal. Dispersal is very
interesting. What you observe in animals and humans is that around the end of adolescence and
during the transition to puberty, both because of changes in the brain and changes in hormones,
of puberty, both because of changes in the brain and changes in hormones, there's an intense desire on the part of the child to get further and further away from primary
caregivers.
Not permanently, they always return, similar to a child that walks off and then looks
back and sees if everything's safe and then continues on.
During adolescence and puberty,
both in animals and in kids,
it almost seems like there's a bias for action
and the action is always in a direction
away from the primary caregiver.
Now, as soon as I say that,
I can just imagine in my mind that somebody out there
saying, well, no, my kid, as soon as they hit puberty,
they just want to stay home with us all the time.
That's not typical, it happens, but it's not typical.
Mostly there's a desire to start spending more time with friends, more time with peers,
and less time with adults.
And I find it extremely interesting to note that that's not just true in humans.
That's true in other primate species.
That's true in rodents.
That's true in almost every other mammalian species.
So there's something about these hormones
that don't just allow sexual reproduction,
they don't just change the brain and bodily organs
in the shape of us.
They also bias us towards dispersal,
getting further and further away
from primary caregivers in particular.
So parents of teenagers or future teenagers,
it is not just normal, it is baked in to the
biology of humans to disperse around adolescence and in the teen years.
So again, I just want to highlight a few of these.
What we're listed as intervention strategies to promote healthy adolescence and puberty,
as very interesting because the entire article, I should mention, who wrote this article, apologies.
One of them is a friend of mine.
So the first author is Ronald Doll,
not the children's book author, I'm assuming.
No, from the School of Public Health
at University of California, Berkeley.
And Nicholas Allen, Linda Wilbricht, and Anna Balanhof,
Suleiman, forgive me for the pronunciation of the last one. I know Dr. Wilbricht
quite well has done the work on dispersal is quite well known for that work. And
it's a very extensive review, but I think you can find it, you'll find it
accessible. A lot of changes and thickness of the brain
at different stages, etc. But I think most people will be interested in what that translates
to in the real world. And what's interesting is during puberty, there's increased connection
connectivity as we call it between the prefrontal cortex, which is involved in motivation and decision-making,
being able to suppress action for making long-term goals possible, as well as dopamine centers, and the amygdala.
So there's this really broad integration and testing. I think this is the key element here.
Testing of circuits for emotions and reward as they relate to decisions. And I think that's useful because when you look at the behavior of adolescents and teens,
they are testing social interactions.
They are testing physical interactions with the world.
Oftentimes they're engaging in unsafe behavior.
And you can't just, I would never try and justify that with the underlying neurology.
But the neuroscience points to increased connectivity between areas of the brain that are related
to emotionality and to threat detection, like the amygdala, but also reward.
So it's a time of testing behaviorally how different behaviors lead to success or not.
It's how different behaviors lead to fear states or not.
Now, of course, you could say that of any stage of development, but it seems like puberty
is a very, very heightened stage in which testing of contingencies, good or bad, is taking place.
And of course, this is happening.
It's operating in a body that's now more capable than the infant.
So an infant can damage themselves through error, but it's harder for them to damage themselves through deliberate planning
You know, that's why it's important of course to lock up all the medications in the house make sure infants can get to them
but it's
Not likely that the infant is going to devise an extremely
Diabolical plan to get into the cabinet to get a certain substance whereas a teenager might right?
the cabinet to get a certain substance, whereas a teenager might, right?
So you can start to map the neurology
onto some of this emotional exploration.
I do realize that this episode is about emotions,
puberty is a time in which the internal state
of the person or the animal is being sampled
and tested against different,
extra-acceptive events,
only now they are able to guide those events
with more agency.
It's no longer just about whether or not the caregiver is bringing you milk or bringing
you food.
Now of course the parents will all say, yeah, but I'm paying for everything that they're
doing.
I'm paying for the car and I'm paying for the food.
Ah, true.
But the biology doesn't care about the source.
The child or the adolescent is now able,
the teen really, is able to now sample
many, many more extraoceptive events through behavior.
So some of these recommendations are interesting.
The theory is that one of the motivations
is to learn to mitigate the risk of famine
and malnutrition.
As teenagers get older, they start questioning
whether or not their parents are everything they thought
they were, whether or not they're the greatest thing
that ever was, or the worst thing that ever was, perhaps.
Including whether or not they will be able
to provide them resources.
So they test whether or not they can actually feed themselves,
whether or not they can support themselves,
although rarely, not, certainly it happens, but rarely are they really taking care support themselves, although rarely, not, but certainly it happens, but rarely
are they really taking care of themselves, although some teens are forced to take care of themselves,
of course, because parents and other caretakers aren't available. The recommendations that map
to the biology include later, there's been a big push for later start times in schools to match
their shifts in circadian rhythms and the need for extended sleep,
something we talked about during the sleep episodes, to insist on sleep interventions for youth
who are at increased risk for mental health problems. Almost every mental health issue is supported
by getting regular quality sleep of sufficient duration. Soficion durations can vary from person to person.
Leveraging different kinds of social relationships
that reinforce positive behavior.
This is starting to sound like kind of a boilerplate stuff.
And yet, really the goal is during puberty
to encourage as many safe forms of interaction
that allow children teens really, and adolescents, I keep calling them
children, but what I mean are people, children going through puberty, that allow them to test this
thing of autonomy so that they can start to make good assessments about their extra receptive events
that they are selecting and how those make them feel internally. So they're essentially doing a buffet. The buffet has now broadened to not just include the events and experiences that their parents
and other caretakers bring them, but they can now expand the buffet into things that they
can provide themselves.
And so adolescence and puberty is really seen as the period of development in which one
self-samples for these two elements that we talked
about at the beginning, which are, how do I form bonds and how do I make predictions about what
will make me feel good at a level of interoception? Some of that might sound a little transactional,
you know, that all we're trying to do is figure out how we can bond with people so we can get what
we need so we can feel how we need.
I think that's true to some extent.
Of course, there's a richer, more abstract aspect to relationships, too, which are,
you know, in relationships you can access things you couldn't do before.
You can cooperate.
There's things like teamwork.
You can do all sorts of things.
But in terms of the biology, it's clear that there's this stage of development where more
autonomy, more physical capability is triggered by these hormone changes in the brain and
these peptide changes in the brain and body.
And that, nonetheless, brings us back to the exact same model that we started with an
infancy of alert or calm. Feel good or feel bad.
Primarily extra-ocepting, primarily interocepting.
So I keep going back to this.
I'm sort of like a repeating record on that
because the same core algorithm,
the same core function is at play throughout the lifespan.
And that's a useful framework in my opinion,
because it allows you to sort through all the
data and information that's out there about, well, this area, the striatorm analysis
active, or the baselateral, migrales active, or gray matter thickening, or this hormone,
or that hormone, and return to a kind of kernel of certainly not exhaustive truth.
It doesn't cover all aspects of emotionality, but at least establishes some groundwork
from which you can start to
evaluate how different behaviors might or might not make sense.
How certain emotional responses might or might not make sense, regardless of the age of the
person or the organism.
A discussion about emotions would not be complete without talking about the right brain,
left brain stuff.
And this is a very interesting aspect of sociology,
psychology, and neuroscience.
There's a theory of emotional development that I find
particularly interesting, which is from Alan Shore at UCLA,
that talks about how most of our testing of bonds
and relationships is this sea-sawing back
and forth between very dopaminergic, so driven by dopamine, or serotonergic driven by serotonin
states.
This starts with infant and mother, or infant and father.
I talked a little bit about this in the previous episode, but just to remind you, or for
anyone that didn't hear about it, that during development, healthy emotional development clearly begins
with an ability for the caretaker and child to be in calm, peaceful, soothing,
touch-oriented eye-gazing type of behaviors.
Those really drive serotonin, the endogenous opioid system,
oxytocin, things are very calming and are centered around pleasure with the here
and now, as well as excited states of what we're going to do next.
There's actually a kind of characteristic sign of the dopaminergic interaction where both
caretaker and child have a wide eye.
The pupils dilate.
That's signature of arousal.
They get really excited.
Oftentimes, the baby will look away if it gets really excited.
Those are signatures of dopamine release in the body.
And in adolescence, these same things carry forward,
where their good bonds are achieved through hanging
around, watching TV, just kind of playing video games,
or texting together, or talking, whatever it is
that the soothing local activity
happens to be, as well as adventure and things that are exciting. So it could be sports, it could be
shopping, it could be summer adventure, it could be the next big thing. And so this kind of sea
sawing back and forth between the different reward systems seems to be the basis from which
healthy emotional bonds are created. And I invite anyone who's interested in this to look up some of Dr.
Shor's work.
I think I misspoke on the last episode.
He's not a psychiatrist.
He's a clinical psychologist and psychoanalyst, but has deep
rootings in neuroscience.
It's a, I think, a fascinating aspect.
But the way it's framed in that book and in his book and in some of the
language around that is around right brain left brain. And we've all heard this
stuff before that the right brain is thought to be the emotional side. This is
the characteristic thing that you hear out there that the right brain is
holistic, that it's emotive, and that the left brain is logical, sequential, and
analytic. And that's not what Shore was proposing. There are some right-brain
left-brain differences, but the idea that the right-brain is synthetic, holistic, and
emotive, and that the left-brain is logical, sequential, and analytic is false. There is
zero neuroscience evidence for that whatsoever. We're going to address this in more detail during a month
talking about learning and memory and dementia, but let's talk about some
truths, some differences between the left brain and right brain because we
can't have a discussion about emotion without doing that. The left brain, at
least for people who are right-handed, is linguistically dominant, meaning most of language is centered in the left side of the brain
for right-handed people.
If you were a left-hander and you were forced to become right-handed,
chances are this is still true because of when language gets laid down in the brain.
For left-hander, people that naturally write with their left hand and always did, language
is still mostly in the left side of the brain, but it's also found more often in the right side of
the brain. So it's not as lateralized as we say, it's kind of distributed between both. Okay, so
right handers, most of your language is coming from the left side of your brain. Left handers, it's probably a little bit more evenly distributed.
And there are some variations, whether or not you're a hook righty or a hook lefty, there's
all sorts of nuance to this, but that's the general aspect.
So language tends to be centered in the left side of the brain.
And that includes lexicon, grammar, syntax, all of it, except for one.
And we'll talk about one aspect of language
that seems to be more right brain,
that's very interesting.
There does seem to be some arithmetic advantage,
so ability and math in the left side of the brain.
And I'm gonna talk about how all this
was discovered in a minute.
And the right brain, however, is linguistically primitive.
Most people don't realize this because the right brain is always described as the emotive
side, it's super emotional and holistic, but it's actually linguistically primitive.
And there's a way that that's been teased out through experiment.
It's very good at manipulating spatial things and visual spatial tasks.
It's primarily handling that stuff, but it's sort of non-language, except one aspect.
And there isn't a ton of evidence for this,
but the evidence is strong, which is prosody.
Prosody is the lifting and falling of language.
So a good example would be Italian.
I don't speak Italian, I only know a little bit of Italian,
but most of the Italian I know is when my Italian colleagues have said to me,
my coseteichi, which means like, what are you trying to say or what are you saying?
I probably, you know, I think I'm getting that right. Basically, they're saying
I don't speak Italian, which is true. Or because one of them knows and loves
Costello very much, they always say, umpigrone, which means big lazy guy, which
accurately captures Costello.
So, even those few examples, right?
Mccose diichi, un piggurone.
There's a lot of lilton fall in Italian.
Other languages not so much, and it varies by language.
One of the reasons I find Italian so beautiful,
not the Italian I speak, but the Italian that other people speak.
So beautiful to listen to is that, that prosody and that,
the shifts in intonation are really quite remarkable. It's
almost like a sing song, a listening to them speak. And I used to like to go
to scientific meetings and I always hang out with the Italians because I have
some good friends in Italian labs, but also because they always knew where the
best food was. Their standards for food are incredible. They would rather starve
than eat terrible pasta and the pasta they do find and that they're willing to
eat is always fantastic.
But in addition to that, they always brought a guitar.
They were a lot more fun than a lot of my other colleagues to hang out with at meetings.
So in any event, the right brain is doing things that are more about manipulating spatial information.
And I'll talk about this more in a future episode, but this was discovered in split brain
patients, the people that lack
connection between the two sides of the brain.
And this had to be teased out through very complicated experiments, people like Roger
Sparry who won a Nobel Prize for this, who was at Caltech, Mike Gazzanaga and others, figured
out these lateralized differences.
But let's just try and demolish the myth that, you know, that the right side is synthetic and holistic and emotive
and that the left side is logical, sequential, and analytic.
That you're a left brain person or a right brain person.
Nothing could be further from the truth.
There's no scientific evidence to support that.
And there's a few lesion studies that can tease out effects
that make you think that's what's happening,
but the really careful work points
in a totally different direction.
We can't have a complete conversation about emotions and bonds and social connection
without talking about oxytocin.
Oxytocin has come to such prominence in the last decade or so and seems to be everywhere.
Anytime you hear a discussion about neuroscience in the brain or hormones in the brain, oxytocin is released in response to lactation in females.
It is released in response to sexual interactions. It is released in response to non-sexual touch.
It's released in males and females. And indeed, it's involved in pair bonding and the establishment of social bonds in general.
How it does that seems to be by matching internal state.
It seems to both increase synchrony of internal state somehow.
Maybe it sets a level of calmness or alertness that seems like a reasonable hypothesis, as
well as raising people's awareness for the emotional state of their partner.
And again, this brings us back to this alertness calmness axis and this interoceptive, extra
receptive axis.
In order for them to form good bonds, we can't just be thinking about how we feel.
We also need to be paying attention to how others feel, and we're evaluating a match.
We're trying to see whether or not there seems to be some sort of synchrony between states.
An oxytocin both seems to increase that synchrony and increase the awareness for the emotional
state of others.
Now, I know many of you are probably
screaming mirror neurons, mirror neurons, mirror neurons as some of you may know and some of you
perhaps may not. Our neurons that were discovered in animals and humans for their ability to respond
when people engage in certain physical actions like lifting of a pen, but the same neurons would
respond when somebody watched someone else lift a pen. So they were really mirrors of or representing
mirrors of behavior, both in self and in others. Mirror neurons are very controversial.
There are many neuroscientists who I respect a lot who don't think they exist because
they look at the data and the data, at least in their mind, were overinterpreted in the
realm of empathy and in assigning value to the emotional states of others.
And when I look at the literature, my opinion is that indeed there are neurons in the brain that clearly represent the actions of others,
but it's not clear that they're wired into the emotion and empathy system in any direct way.
And I think the growing consensus is that mirror neurons, while the name is terrific,
is so catchy and encompasses so much of what you would love for it to encompass, but that the data
don't really support that.
But this is controversial,
and I'm perfectly happy to get experts on here
that could debate it better than I could.
There are, however, neurons in the brain
that were discovered by my colleague, Karen Harouche,
at Stanford, when she was working in Nome Ziv's lab,
that clearly point to the fact that primate species
are making assumptions and are trying to predict
the behavior of other members of their species.
It's an experiment I don't have time to go into
in real detail, which should probably just get Karen on here.
For those of you that are familiar
with the Prisoners Delema,
which is really a model
of cooperation, you can either cooperate or one member of a given interaction can cooperate
and the other one won't, or you can both not cooperate.
There are ways in which you can solve the so-called Prisoners Dilemma by looking at previous
behavior and making predictions about the likely next behavior
that the other individual will engage in.
And there do seem to be neurons that are doing these sorts of predictions or computations.
And again, I'll go into this in more detail in the future.
So rather than think about mirror neurons, like neurons for empathy,
I think it's more correct to think about neurons that are trying
to predict the behavior of others.
And that's, as we said, one of the core features of emotions, which are to establish bonds
and through those bonds to be able to predict behavior.
So oxytocin is one component of this ability to predict others' behavior and to guide our
own behavior.
So here's some experiments that involve the administration of intranasal oxytocin.
This is actually people, now I think you need a prescription, although in some places
you don't, there are people who are taking intranasal oxytocin in order to try and increase
the depth of bonding.
And I don't recommend you do that.
I've never tried that.
I, whatever oxytocin
I've released, I've made without an intranasal exogenous application. But what's been reported
is increased positive communication among couples. So people have taken intranasal oxytocin
in studies. So that study, just if you, for those of you like, was published in biological
psychiatry, which my site, psychiatry colleagues tell me is a fine journal.
And the title is, intranasal oxytocin increases positive communication and reduces the stress
hormone cortisol levels during couple conflict.
They have them fight, or they have them fight without, with and without oxytocin.
So interesting.
Very much in line with the idea that oxytocin is the,
quote unquote, trust hormone. That's sort of in keeping with that. That was a 2009 paper.
There's other evidence, for instance, that men report a greater sense of connection and intimacy
with their partners during sex after taking intranasal oxytocin. There are studies in autistic children giving them intranasal
oxytocin as a way to try and help them establish better social connection and quote unquote empathy
or theory of mind. I've talked about theory of mind before. We're understanding of what other
children or end adults are experiencing. So, you know, oxytocin does seem to create these general effects.
And how nuanced they are in one situation or another, I don't know.
I'm aware and I was told, and I'm definitely not recommending this, that there's a marketed
oxytocin ketamine nasal spray.
Now I have no idea, maybe someone can put in the comments, why you'd want to combine
oxytocin and ketamine. I can't imagine why. Ketamine is a dissociative anesthetic that's used for
the treatment of PTSD. It used to be used as a recreational drug. It's very similar to PCP,
seems quite dangerous in fact. I don't know why those two things would be combined,
why one would wanna combine them,
but there are products out there
that seem to combine those two things,
and I'm not certain why one would do that,
but it's interesting to note that it's happening.
A particularly interesting study about oxytocin
is that that was published in the Journal of Neuroscience,
which is a good journal,
that oxytocin modulates social distance between males and females.
This is interesting.
They gave oxytocin to people that were in monogamous relationships and then they evaluated the
extent to which in this case the males in those relationships would pay attention to visual
attention to attractive other potential partners.
And it seemed like that the general takeaway from the study is that oxytocin
administration seemed to promote monogamous behavior.
So behavior that was in line with monogamy of the relationship that they were in,
as opposed to foraging for potentially new mates.
Now, of course, these are somewhat artificial experiments or very artificial experiments,
depending on how you interpret them.
But the general theme is that oxytocin is promoting,
monogamy, it's promoting parabonding,
it's promoting a understanding of the internal state
of others, which requires enhanced extra reception
for those particular others.
So not just generally having them look everywhere and see what's going on in the world,
but particularly paying attention to the emotional states of others.
I'm sure several of you will be asking, well, what can I do to increase oxytocin if that's
your goal?
There's some evidence, and I invite you again to go to examine.com or another such site,
like PubMed, if you want a forage PubMed, that
vitamin D is required for proper production and in some cases can increase levels of oxytocin
when supplemented, which is interesting, and that, believe it or not, melatonin, our
old friend melatonin, which I have pushed back against as a supplement for sleep because of some of the, what I view as
untoward side effects of melatonin in most cases, but it seems like melatonin
in some cases can, can prime the system for slightly increased oxytocin release.
There's even one report, although it didn't look that strong to me that
low doses of caffeine could increase oxytocin release.
But that, to me, falls under the category of what was once described as a drug when injected
into a person or animal is always effective at producing a scientific paper, meaning
that you can get a result, but the result isn't always so robust.
So you always want to read past the titles and the abstracts and get into the meat of the
paper.
And when I did that, the effects were pretty negligible
with caffeine on oxytocin.
But it's interesting that vitamin D and melatonin
may have some positive effects on oxytocin release.
But like I said, many people are just taking oxytocin
directly through these intranasal sprays.
I'm pretty sure it's prescription in most places,
but check.
And again, I'm not recommending anybody do that.
I've never tried it. I don't
know that I will. I think I'm going to stick with the oxytocin that I've got. The other
molecule that we make that's extremely important for social bonds and emotionality is one that
we're going to talk about more in the month on hormones. But that's vasopressin.
Vaisopressin suppresses urination. It was actually developed, it's made by the body, but it's, it was developed
as a treatment for something called diabetes insipidus where people urinate excessively,
and they actually risk dehydration and they can lose a lot of electrolytes, et cetera.
So it causes water retention, alcohol consumption, inhibits vasopressin. So large amounts of alcohol
made people excrete a lot of fluid, and so forth.
These oppressors has effects on the brain directly.
It actually creates feelings of giddy love.
It also increases memory in very potent ways.
There's a whole biohacking community that has been dabbling with these oppressors for some
time.
I have never tried it.
I certainly don't recommend it.
It is prescription and it is a pretty serious compound
to start, you know, messing with because it has so many different effects in the body.
It's interesting because it creates the sense of giddy love. It's also used somewhat as an aphrodisiac.
It's also used somewhat as an aphrodisiac. So it's similar to oxytocin.
It also has very interesting effects on monogamous
or non-monogamous behavior.
This, again, we will revisit in the future,
but there's a beautiful set of experiments
that have been done in a little rodent species
called a prairie vol.
It turns out there are two different populations
of prairie vol, some are monogamous.
They always mate with the same other prairie vol. And some are very robustly non-monogamous. They mate with as many
other prairie voles as they can. And turns out that levels of vasopressin and or vasopressin
receptor dictate whether or not they're monogamous or not. And there's actually some interesting
evidence in humans when people report their behavior, assuming they're reporting it accurately,
that vasopressin and vasopressin levels can relate to monogamy or non-monogamy in humans
as well.
We're going to talk about this in the month on hormones.
If we're talking about the neuroscience of emotions, we have to talk about the vagus
nerve.
I described what the vagus nerve is in a previous episode that's these connections between the
body and the viscera, including
the gut, the heart, the lungs, and the immune system, and the brain, and that the brain
is also controlling these organs, so it's a two-way street.
There's this big myth out there that I mentioned before that stimulating the vagus in various
ways leads to calmness, that it's always going to calm you down, and that is false.
I just want to repeat.
That is completely false. In fact, there was just a paper yet another paper published the
other day, which is fantastic, which is from David McCormick's lab up at the University
of Oregon, published in Current Biology, excellent journal showing. I'm just reading the title,
Vegas Nerve Stimulation induces widespread cortical, the Neocortex, and behavioral activation. I've read the paper, it's fantastic.
It illustrates yet again, stimulation of the vagus increases.
Dopamine release increases activation of the brain,
alertness, it is a stimulant of alertness.
It is not calming people down.
Now, this is interesting in light of emotionality,
because of work that's been done by many groups but in particular I'm going to focus on the
work of a colleague of mine Carl Diceroth at Stanford who's a psychiatrist but
has also developed a lot of tools to adjust the activity of neurons in real
time using light and electrical stimulation and so forth. I'll refer you to an article in the New Yorker
that was published about this a few years ago.
I'm going to read a brief excerpt.
I'll put the link in the caption as well.
He's talking to an extremely depressed,
suicidal, depressed patient, who has a small device
implanted that allows her to adjust her vagus nerve activity.
Now, vagus stimulation was originally
developed for the treatment of epilepsy. that allows her to adjust her vagus nerve activity. Now, vagus stimulation was originally developed
for the treatment of epilepsy.
It's now being used for various other purposes.
Vagus stimulation can even increase plasticity, it seems.
So again, increasing activity of the vagus increases alertness.
And it's just incredible to see what happens
in real time to emotionality when the vagus is stimulated.
Again, not calming,
but activating alertness. They're in his office and they're talking and he asks her how she's doing
and she describes how she's been doing as previously as quote unquote going pancake, which for her
just means totally laid out flat, not much going on. She talks about how she doesn't want to pursue a job, but she's really depressed.
He says in typical good psychiatrist fashion, that's a lot to think about.
That's actually the quote.
They talk about her blood pressure, etc.
Then she says mood's been down, just spiraling down, talks about insomnia,
bad dreams, low appetite.
So this is severe depression.
This is what we call major depression.
And then she requests, can we please go up to 1.5 on Vegas stimulation?
She'd been receiving 1.2 million amps of stimulation every five minutes to 30 seconds, but was
no longer able to feel the effects.
So he says, okay, I think we can go up a little. You're tolerating things well.
They start the stimulation and, quote, in the course of the next few minutes,
her name was Sally, under when a remarkable change, her frown disappeared. She became cheerful,
describing the pleasure she had had during the Christmas holiday and recounting how she'd
recently watched some YouTube videos of Dicer Hoth.
She was still smiling and talking when the session ended and they walked out to the reception
area.
So this is just by stimulating and activating the vagus.
Now why am I bringing this up?
Well, for several reasons.
One is the vagus is fascinating in terms of the brain body connection.
Two, I'd like to keep trying to dispel the myth that
vagus stimulation is all about being calm.
It's really about being alert.
I don't know how that originally got going backwards, but it's about being
alert. And once again, level of alertness or level of calmness is impacting
emotion. That this access of alertness and calmness is one primary access in emotion.
It's not the only one because there's also this valence component of good or bad.
And it's those two aren't the only ones because there's also this component of interoceptive,
extraoceptive that we talked about earlier.
And there will be others too.
Again, it's not exhaustive.
But I find it fascinating and it really brings us back to where we started, which is what are the core elements of emotion?
And what can you do about them? And before we close up today, I just want to make sure that even though I've mentioned some tools
I talked about the mood meter app, I talked about oxytocin and some of the things that impact oxytocin.
I talked about some of the ways that you can conceptualize emotions.
This business of how you conceptualize emotions is really the most powerful tool you can
ever have in terms of understanding and regulating your emotional state.
If you're willing to try and wrap your head around it, I realize it's not the simplest
thing to do.
But rather than think of emotions as just these labels happy sad awe depressed thinking them thinking about emotions
excuse me as
Elements of the brain embody that encompass levels of alertness that include a dynamic with the outside world and your perception of your internal state and
Starting to really think about emotions in a structured way, can
not only allow you to understand some of the pathology of when you might feel depressed
or anxious or others are depressed and anxious, but also to develop a richer emotional experience
to anything. Now of course, I don't expect that as you're out there interacting with friends
and you're watching TV and experiencing life that you should be parsing every bit of your experience in some sort of reductionist
in mechanistic way.
That's not the goal here.
But for those of you that are practitioners,
teachers of any kind, for those of you that are kids,
for those of you that are trying to understand
what your emotional life and your consciousness,
dare I say the word, really consists of,
I do believe that these are fundamental elements
that are well supported by the science
across a variety of researchers doing things
from a variety of different perspectives
and some of whom agree with one another
and some of whom don't.
So I offer it to you as a source of knowledge
from which you can start to think about
your emotional life differently, I hope,
as well as others in a way that builds more richness into that experience, not that detracts
from it.
One last point as it relates to that, many of you have asked me about psychedelic therapies
that are now emerging, things like psilocybin and MDMA.
We are of course going to dive into that topic deeply. We have an expert guest
coming on to discuss that topic. Those compounds clearly affect the aspects of emotionality
that we were talking about today, calmness, alertness, valence, good or bad, interoceptive,
extraoceptive positioning. And so rather than just do a kind of cursory exploration of those compounds and what the
therapeutic and scientific community is thinking about them and how they function, I think
it's more important to embed that framework in our thinking so that when we address psychedelics
and we address other sorts of therapies, cognitive behavioral therapy, different types of emotive therapies that relate to individuals and couples, etc.
That we are able to think about them with some sort of structure and rigor rather than
just talk about them as a bunch of chemicals that produce these amazing experiences that
people need to tell you about.
Because if there's one truth, it seems that psychedelics seem to promote activity of storytelling about psychedelic experience, but that itself
is not really what the therapeutic community and the academic and communities are interested
in. They're interested in trying to understand the universal truths, the universal biological
shifts and psychological shifts that occur in the clinical use of those compounds.
And so we're going to hold off for now, but we will get to them.
Once again, we've covered an enormous amount of material today.
It's really the equivalent of two, if not three, university lectures in one podcast episode.
I want to thank those of you that have supported the podcast and point to ways in which all
of you can support the podcast.
Many of these are cost-free. The first is to please
subscribe on YouTube and as well to hit the notifications button so that when we release new videos,
which typically is every Monday for the full-length episodes, but we also know how short clips
that you'll be notified. As well, if you could subscribe on Apple and Spotify and leave us a review
on Apple. You have the opportunity And leave us a review on Apple.
You have the opportunity to leave us a five star review
if you think we deserve a five star review.
Please tell your friends and family and coworkers
about the podcast.
If you think the material would be of interest
and informative for them.
And if you want to send them links, that's terrific too.
In addition, if you could check out our sponsors,
we always provide links to those sponsors in the captions.
That's the best way to support the podcast.
And as mentioned at the beginning of today's episode, we are now partnered with Momentus
supplements because they make single ingredient formulations that are of the absolute highest
quality and they ship international.
If you go to livemomentus.com slash huberman, you will find many of the supplements that
have been discussed on various episodes of the huberman lab, and you will find various protocols related to those supplements.
And last, but certainly not least, I want to thank you for your time and attention, and
thank you for your interest in science.