Huberman Lab - The Science of Creativity & How to Enhance Creative Innovation
Episode Date: December 19, 2022In this episode, I explain how the brain engages in creative thinking and, based on that mechanistic understanding, the tools to improve one’s ability to think creatively and innovate in any area. I... discuss how convergent and divergent thinking are essential for generating creative ideas and provide three types of meditation tools (open monitoring meditation, focused attention meditation & non-sleep deep rest; NSDR), which improve our ability to engage in these creative thinking patterns in specific and powerful ways. I also discuss how dopamine and mood contribute to the creative process and describe behavioral, nutritional and supplementation-based approaches for increasing dopamine to engage in creative thought and implementation. I explain how movement and storytelling (narrative) approaches can generate novel creative ideas and how substances like alcohol, cannabis, and psilocybin impact our creative ability. Excitingly, creativity is a skill that can be cultivated and enhanced; this episode outlines many tools to help anyone access creativity and apply creative patterns of thought to different domains of life. For the full show notes, visit hubermanlab.com. Thank you to our sponsors AG1: https://athleticgreens.com/huberman LMNT: https://drinklmnt.com/huberman Supplements from Momentous https://www.livemomentous.com/huberman Huberman Lab Premium https://hubermanlab.com/premium Timestamps (00:00:00) Creativity (00:04:47) Sponsor: LMNT (00:08:51) What is Creativity? (00:11:16) Creativity in Visual Arts, Escher & Banksy (00:23:37) Neural Circuits of Creativity (00:27:54) Sponsor: AG1 (00:33:13) Creative Ideas & Divergent Thinking (00:42:09) Testing Creative Ideas & Convergent Thinking (00:46:41) Dopamine, Convergent & Divergent Thinking Pathways (00:58:06) Tool: Open Monitoring Meditation & Divergent Thinking (01:07:38) Tool: Focused Attention Meditation & Convergent Thinking (01:11:06) Mood, Creativity & Dopamine (01:16:00) Tool: Mood Calibrating, Caffeine & Dopamine (01:23:41) Dopamine Supplementation; L-Tyrosine, Caffeine (01:30:15) Tool: Non-Sleep Deep Rest, Mesocortical Dopamine & Divergent Thinking (01:43:13) Serotonin, Psylocibin & Creative Thinking (01:49:13) Alcohol & Autobiographical Scripting; Cannabis (01:52:04) Attention Deficit Hyperactivity Disorder (ADHD) & Creativity (01:54:45) Tool: Movement & Divergent Thinking (02:01:02) Tool: Narratives & Storytelling for Creativity (02:14:47) Zero-Cost Support, YouTube Feedback, Spotify & Apple Reviews, Sponsors, Momentous, Neural Network Newsletter, Social Media Disclaimer Title Card Photo Credit: Mike Blabac
Transcript
Discussion (0)
Welcome to the Huberman Lab podcast where we discuss science and science-based tools for everyday life.
I'm Andrew Huberman and I'm a professor of neurobiology and
Ophthalmology at Stanford School of Medicine. Today we are discussing creativity.
Creativity is a topic that to many people is very abstract. That is we know when something seems creative,
is very abstract. That is, we know when something seems creative, some of us know people who are creative or perhaps are creative, and yet the ability to be creative resides in everybody. And we know
that because the neural circuits that underlie creativity have been somewhat defined, and the steps
and processes within the brain and body that lead to creativity are well known. That said, most people don't know how to access creativity, and if they do know how to access
creativity, they are only able to access creativity in a fairly limited number of domains of life,
for instance, in the visual arts, or in music, or within science, or engineering, or any
number of different domains ranging from the kitchen to sport to childhood interactions,
that is, childhood games.
In other words, some adults are able to access
their creative spirit when engaging in child-like play
with children or, for that matter, with adults.
But as it turns out, all of creativity stems
from just a small subset of neural structures in the brain
that need to be activated in a particular
sequence or order. Today, we'll talk about what those neural structures are, what particular order
they need to be activated in in order to come up with, for instance, new ideas that are creative,
and then how to implement those creative strategies. We will also talk about different ways to access
creativity that include narrative and storytelling, as well as
applying new rulesets or even entirely new world views. And we will do this in a structured way
that will allow anyone, whether or not you consider yourself creative or not, to be able to
apply these tools in different domains of life, work, family, play, and on and on. By the end of
today's episode, you will have a better understanding of what
creativity is and how to access it. And if you like to bring others into your creative
endeavors, which as you'll soon learn, can massively expand the extent to which you yourself
can express your creative talents. As is the case with all episodes of the Hubert
Mennlab podcast, today we will discuss both scientific mechanisms and nomenclature, and I promise to make all of that clear to you, even if you don't
have a background in biology or psychology. But we'll also, of course, discuss tools,
that is specific steps that you can take in order to be more creative. One particular tool that I'm
excited to share with you involves a meditation, but this is a very unusual meditation. This is not
sitting with eyes closed, focusing on your breath, or focusing on a chime, but this is a very unusual meditation. This is not sitting with eyes closed,
focusing on your breath, or focusing on a chime,
or some other feature in your sensory environment
or even in your body.
Later we will talk about open monitoring meditations.
Open monitoring meditations are very distinct
from other forms of meditation,
and involve learning how to sit back
and simply observe your thoughts
while intentionally varying where your thoughts go.
So for those of you that find it a struggle
to focus or to refocus in more traditional forms
of meditation or maybe even in your work,
and even for those of you that may suffer
from things like ADHD or similar,
open monitoring meditation can be an extremely valuable tool for accessing
your creative abilities.
Because of the ways that it allows you to tap into specific circuits within the frontal
networks of your brain, so these are networks of the brain that include the areas just behind
your forehead, and that allow you to evaluate new and novel rule sets in a very unconstrained
way.
Because if you think about it, creativity is really the ability to take existing elements
from the physical world, or from the thought world, if you will,
or from any domain of life, mood, thinking, and information,
and to reorder those into novel combinations
that are useful for something.
And as we'll also find out later,
creativity has this incredible aspect to it,
which is that when we see or create or experience something that is truly creative, it reveals to us something
fundamental about the way that the natural world and indeed the way that our brains work.
If that sounds very mysterious and abstract to you now, I promise that by the end of today's
episode, you will not only understand what that means, but you will also understand how to use open monitoring meditations, as well as other forms of tools
in order to access your creative ability. Before we begin, I'd like to emphasize that this
podcast is separate from my teaching and research roles at Stanford. It is, however, part of my
desire and effort to bring zero cost to consumer information about science and science-related
tools to the general public. In keeping with that theme, I'd like to thank the sponsors of today's podcast. Our first sponsor is
Element. Element is an electrolyte drink with everything you need and nothing you don't.
That means plenty of salt, magnesium, and potassium, the so-called electrolytes, and no sugar.
Salt, magnesium, and potassium are critical to the function of all the cells in your body
in particular to the function of your nerve cells, also called neurons.
In fact, in order for your neurons to function properly, all three electrolytes need to be present
in the proper ratios. And we now know that even slight reductions in electrolyte concentrations
or dehydration of the body can lead to deficits in cognitive and physical performance.
Element contains a science-backed electrolyte ratio of 1000 milligrams, that's 1 gram of sodium,
200 milligrams of potassium and 60 milligrams of magnesium.
I typically drink element first thing in the morning when I wake up in order to hydrate
my body and make sure I have enough electrolytes.
And while I do any kind of physical training and after physical training as well, especially
if I've been sweating a lot, if you'd like to try element, you can go to DrinkElement, that's LMNT.com slash Huberman
to claim a free element sample pack with your purchase.
Again, that's DrinkElementLMNT.com slash Huberman.
Let's talk about creativity.
Now, on the face of it, the word creativity and creative acts might seem somewhat abstract
to us.
That is, we know when we see something
that we consider creative,
and we know when we see something that is not creative.
Things that aren't creative are things
that we see every day,
car with four tires, for instance,
say bicycle with two tires, not creative.
However, we also see things that are novel,
that are different,
and that we don't really think of as creative.
In fact, they can be downright trivial.
For instance, if I were to take a fish tank and put wings on it, that's a novel combination
of things, which is one of the key criteria for an act or an object or a piece of music
that is creative.
And yet, neither of us, I believe, would find it very creative or very interesting
that a fish tank has wings on it.
Why, or why not, I should say?
Well, it turns out that for something to be creative,
it actually has to reveal to us something fundamental
about the world or about how we work.
And I must say that oftentimes,
the most creative and the most interesting
and the most beloved creative acts
reveal to us something fundamental about the world
or the way that we work in a way that delights
and thrills and surprises us,
but that we aren't even aware
what that fundamental rule is.
I'll return to this in a few minutes,
but the time being,
let's just build up from first principles
what constitutes something creative
and what does not constitute something creative?
Creativity is a way of interacting with the world or combining or recombining things
in the world in a way that appears novel to us and to other people.
My example of a fish tank with wings on it is novel, but frankly it's not very creative
and it's not very interesting.
It doesn't reveal anything new to us.
Sure, they're flying fish, although, you know,
they just kind of jump far, they don't really fly.
And as a consequence, putting wings on a fish tank
could be used as a metaphor for the fact
that fish don't fly, but you already knew,
and I already knew that fish don't fly.
And so there's nothing novel revealed to us
about the world except something we already knew.
Now, creative acts, on the other hand, of course involve novel combinations of existing
rule sets.
That could be different combinations of music or colors or shapes or technology, etc.
But it does so in a way that tells us something fundamental and different.
Let me give an example of a few truly creative artistic acts, and I'll do that in the domain of
visual arts, but of course there are many examples that could come from music or for mother domain sport, etc.
Examples I'll give rather than a fish tank with wings are, for instance, the comparison between a drawing or a very accurate painting of a face,
an Escher painting and a Banksy.
Okay, if you don't know what those are, I'll explain.
First of all, let's talk about an accurate representation
of a face.
If I were to sit you down, or if you were to send me a photograph,
and then I were to paint or draw a picture of your face
in a way that faithfully represented
the position and shape of your nose relative to the eyes, maybe a curl of the lip, maybe
a few hairs of your eyebrows in a particular way that really captured you accurately.
I think most people would say, okay, it's accurate, it looks a lot like the photograph
for the person and on the one hand, why that could be interesting, it's accurate. It looks a lot like the photograph or the person. And on the one hand, why that could be interesting,
it's not particularly creative
because it faithfully represents what's already there.
In contrast, a painting or a picture like an Escher
and for those of you that aren't familiar with Escher's
involves a lot of repeating patterns.
So for instance, a bird image that's repeated
over and over and over and over again,
sometimes in partially overlapping manner and perhaps a building that's repeated over and over and over and over again, sometimes in partially overlapping manner, and perhaps a building that's repeated over and over and over again,
or stones repeated over and over again, or staircases over and over again.
Escher's capture elements from the outside world and faithfully represent them, but faithfully
represent them over and over and over again, which is not typically seen in the natural world.
In fact, most of what our visual system does
is to eliminate repetitive patterns when we see them.
In fact, most of what our visual system does
is trying to make us blind to repetitive patterns
in our visual environment,
and only allow us to see things that are unusual
in that visual environment.
Now, this is especially true at visual scales.
What I mean by that is if you were to go to the beach
and lie on your towel and look down at the sand,
you would start to notice that the sand
is a very, very repetitive pattern.
So at very small scales, and in particular,
at molecular scales, when you get down to the level
of atoms and so forth, everything is repetitive.
It's the same thing as just reproduced
in different combinations over and over again.
But as we move through our world,
typically we're not looking down at pebbles on the ground
or little grains of sand or the pattern of leaves in a particular clover or something of
that sort. Most of the time we're looking out on landscapes or at people's faces, et cetera.
And very seldom do we see highly repetitive patterns at that scale. So what Eshers do is
they essentially
reveal to us a fundamental feature about the way
that our visual system works, which
is that repetitive patterns tend to become noise
in our visual system, that is our brain encodes repetition
as things not to be interested in,
and the things that stand out against that repetition
as the things to be interested in, so called signal to noise.
What Escheres do is they invert the relationship between signal and noise and they make the
repetitive patterns the signal and the unusual patterns the noise.
In fact, in every Escher, there are unusual patterns and those completely disappear to
us.
Now, when you look at an Escher, what you probably see and what I see are just a bunch of
birds repeated over and over again or buildings or staircases repeated over and over again. And you may like Escher's and you may not. That's not the point.
Today, we're not talking about taste in particular creative acts, what we're trying to identify here
are the rules and mechanisms of what constitutes something creative and why it's creative.
And the key element here is that what's revealed by an Escher through these repetition patterns
is an inversion of the way that our brain normally
encodes visual images, and therefore the rule
that repetition is suppressed in our visual system
and that unusual visual features are revealed to us,
that rule is what pops out to us when we look at an Escher.
Now when I say pops out, I don't mean that you look
at an Escher and go, oh, normally I don't see repetition, normally I see the unusual stuff, et cetera, et cetera.
But there seems to be something about truly creative acts that capture the attention and sometimes
the delight of many, many people. It's that they reveal a fundamental rule about how the brain or
the world work. Let me give you a different example also from the visual art world. Let me give you the example
of Banksy. Banksy is an artist that many of you are probably familiar with and probably some of
you are not familiar with. So for those of you that are not familiar with Banksy, Banksy is an artist
that most often does two-dimensional artwork. So these would be stencils or paintings or drawings
like many artists and does them in an urban landscape, an actual city or suburban
landscape. That is, he draws our stencils or graffiti in a very cryptic way, I should say,
no one really knows who banks he is or when he does his art, he just reveals his art by putting it
up, but he does this in the context of cities and on three-dimensional objects. So a good example
would be he will stencil next to a phone booth, a police officer, or
he will graffiti next to an actual fire hydrant, a dog lifting its leg to urinate on that fire
hydrant.
Now what's interesting about Banksy's is not simply the fact that he puts two-dimensional
art onto three-dimensional surfaces in the urban and suburban landscape, because if you think about it
that's been done many many times before. All graffiti is that. All city art and murals is that. So what's
unique about Banksy? What's unique about Banksy, or I should say Banksy's the actual art, is that he
combines two-dimensional art with a three-dimensional landscape in a way that the concept
pops out at you.
What do I mean by that?
Well, in the case of the dog lifting its leg to urinate on the fire hydrant, that's a
scene that most people, and in fact most children, are familiar with from cartoons or from our
basic understanding of the stereotype of dogs.
And I must tell you, having owned a male dog, a bulldog, Costello for many years. Hydrants were a particular target for Costello.
Of course, everything was a particular target
for Costello urinating outdoors.
Nonetheless, he liked to pee on fire hydrants.
That itself is not interesting.
Seeing a photograph of a dog raising its leg
to pee on a fire hydrant is not interesting.
Seeing a painting of that isn't interesting.
Seeing an actual dog urinating on a fire hydrant isn't interesting. Seeing a painting of that isn't interesting. Seeing an actual dog urinating
on a fire hydrant isn't interesting. In fact, seeing a painting in two dimensions of
a dog raising its leg to, of course, it can't actually urinate, but give you the impression
that it would urinate on that fire hydrant isn't particularly interesting except for the
fact that it reveals to us something fundamental, which is that we tend to pair
visual relationships between different objects that share a common theme and then the theme tends to
pop out us. So for instance, the dog raising its leg next to a fire hydrant, even if the dog is drawn in
two dimensions and the fire hydrant is in three dimensions, allows the concept of dog and fire hydrant
to emerge or pop out at us, which reveals to us something fundamental
about how our brain works, which is that our brain encodes concepts and entire stories
as symbols of interaction between different objects. Let me give you a different example just
to make sure that this hits home. One of Banksy's more famous paintings is a rather politically charged
one, which is of a girl holding a bouquet of balloons, and
this two-dimensional drawing was put onto the West wall, dividing territories in the
Middle East.
A very controversial issue, the controversies of that issue are not what I want to get
into, but I don't think anyone would doubt that it is a controversial issue.
The two-dimensional drawing of the girl with the balloons
on the actual wall turns out to be quite interesting
as an art piece because what it reveals to us
is the entire controversy around the presence of that wall
and the desire for certain people to breach that wall
and the desire for other people to insist that that wall
not be breached for whatever reason.
Again, this is not about the particular controversy.
The point is that a two-dimensional image
combined with a three-dimensional structure
allows the purpose of that three-dimensional structure.
And the controversy around that three-dimensional structure
to pop out at us in a way that if, for instance,
we had just seen a photograph of somebody
next to that wall or with a ladder,
or if we just seen a drawing of a girl holding a bouquet
of balloons on a drawing of that wall to not emerge.
In other words, it captures two fundamental features
of the visual system.
Our ability to encode things in two dimensions
and understand symbols, and our ability
to understand things in three dimensions,
and in particular, the wall as a three-dimensional object
is really interesting because it's an actual physical barrier.
So showing it as the actual physical barrier that it is in real space in three dimensions
turns out to allow the interaction between those two things, the concept, the controversy
to pop out at us and make us think about that particular controversy and perhaps where
we each individually stand on that controversy.
Now, there are many examples of what I just gave
in the visual domain.
For instance, Rothko's, which are just color on canvas,
are particularly interesting source of information
about the way that the brain encodes color.
Later on, filling exactly what that information is.
You may like Rothko's, you may not,
but I'll tell you one thing.
When you look at a Rothko,
you are seeing colors in a very different way
than you would ever see colors in any other context.
The fact that they don't have a frame typically,
and the fact that there's no white canvas
allows the colors that you see to be novel hues
of those colors that you will not see
in any other context.
And in doing so so reveals to you
what your brain does in order to understand and extract color now in the context of music for instance
you will sometimes hear a street musician play a song maybe a Bob Dylan song or Led Zeppelin song or a pink Floyd song
pretty closely pretty accurately to the way that song played, but of course that's not creative.
That's just like the photograph or the accurate portrait of somebody's face.
Or you may hear an acoustic version of what's normally an electric guitar song, or electrical
song, or vice versa.
Somewhat creative, sometimes sound even better than the original, but not particularly creative.
However, each and every one of us has a particular taste in music.
Maybe it's classical, maybe it's rock, maybe it's punk, maybe it's hip hop.
Within each of those genres, I think all of us are familiar with hearing something for
the first time and maybe even every time.
And there's something about the combination of the words and the music, or sometimes just
the music or just the words, that allows some feature of it to pop out at us as particularly exciting.
And when we feel that excitement and we feel that it's really novel, it's different than
what we've heard before, I assure you what it's revealing to you is the way that your auditory
system and often your auditory and your emotional system encodes information that you hear.
And again, the rule that it's revealing is not spayed out for you, For instance, it's not told to you, oh, this is the way you
normally hear, and now you're hearing things differently. Sometimes it's the
change in, for instance, in the way that words are accented or the way that
sentences are constructed. This often you'll hear and hip-hop the way that
sentences are constructed can be divided up, not as normal declarative
sentences, the way that they're typically written, but the way that sentences are
chopped up and fractured
reveals to us new meaning,
and in fact enhanced meaning about particular words
that we wouldn't see if it was written out as a paragraph,
and then sung as a script that would be the same
as the one we would read.
Again, the point is that what is exciting and novel to you
is just a way that you hear it,
but it's exciting and novel to you
because there are circuits within the brain
that when we hear or see or feel or experience,
known elements in new ways that are truly creative,
the way that those neural circuits function is changed.
And when neural circuits change the way that they function,
simply by way of what comes into our eyes, our ears, and the way that we experience our feelings.
There is the release of chemicals, including the release of the chemical dopamine and
other neuromodulators as well, that make us feel both surprised, delighted, and this is
very key, excited in anticipation that we might see it again.
So with the understanding in mind that true creativity involves the novel combination of some elements. Could be notes of music, could be
numbers, could be visual elements like lines or colors, could be physical
movements, etc. But novel combinations of some things that reveal to us
something fundamental about the way that our brain and or the world work. And
of course, as I mentioned before,
that fundamental thing may or may not be consciously accessible to us. We may not know what exactly it is
that's novel to us, but it feels novel and it feels true. Well, with that understanding in mind,
we therefore can ask, what are the underlying principles and neural circuits that
underlie the creative process?
And the word process here is especially important.
In fact, if there's one thing I'd really like to impress on everybody is that when thinking
about biology, it's almost always better to think about verbs as opposed to nouns.
So rather than think of creativity as a noun or somebody being creative as an
adjective, think about the verb creativity. That is what are the steps required and therefore
what are the cells and circuits and thoughts etc. required in order to be creative.
This element of thinking about verbs then allows us to say, okay, what are the various steps
in coming up with a creative idea, in testing a creative idea,
and then implementing that creative idea.
And in doing so, we find, based on the scientific literature,
that there are basically three major networks within the brain,
each of which is responsible for each of the three steps
to arrive at something truly creative.
The first neural circuit involved in creativity
is the so-called executive network. This is kind of a goofy name because the neural circuits that I'm about to describe do a bunch of
other things as well. But they certainly control what are called executive functions. Executive
functions are functions that you and I both have, which is our ability to govern our thinking
and our behavior in very deliberate ways. And that is largely accomplished through the use of the neural circuitry that sits right
behind the forebrain, the so-called prefrontal cortex.
Now, the prefrontal cortex involves many different subregions.
It has a bunch of different parts, just like any country, has different states, et cetera
on provinces.
Executive function involves the prefrontal cortex and some other neural structures. But for sake of this discussion, executive function and the prefrontal cortex are mainly responsible
for suppressing action, that is, for eliminating choices among the infinite number of choices
that exist, for instance, of what colors to combine on a painting or what lines to draw or what
notes to play or what movements to make in a sports endeavor, what numbers to combine on a painting or what lines to draw or what notes to play or what movements to make in a sports endeavor,
what numbers to include in a mathematics endeavor
or what words and letters and syllables and sentences
to include in writing a creative passage.
The second network is the so-called default mode network.
There's a lot of discussion nowadays
about the default mode network
as it relates to consciousness and meditation, et cetera.
The default mode network does many different things.
But in the context of our discussion about creativity,
the default mode network is really the network
that starts being engaged when you close your eyes
and start paying attention to what's going on
in terms of your thinking as opposed
to this sensory outside world.
And the default mode network is especially important
for what's called spontaneous imagination. Now spontaneous imagination is something that you can
try at any moment if you were to close your eyes and to try not pay attention to the sounds around
you, but even if you do, to just pay attention to whatever thoughts or feelings emerge when your
eyes are closed. Okay, by closing your eyes and shutting yourself off
to the outside sensory world,
you start to engage much more of your brain machinery
dedicated towards what's going on inside you,
so-called interreception,
but also what you're thinking about,
you're thinking whether or not your thoughts are complete
or incomplete, whether or not they are fragmentary
in a way that goes from one thought to another,
distantly in the past or present to future, etc.
Depending on time of day, how well-rested you are, how stressed you are, how happy you
are, the default mode network will take you through a journey of different types of thoughts,
different types of feelings, etc.
The specific types of thoughts and feelings are not as interesting as the fact that when
you close your eyes, you're essentially engaging this default mode network, which is essentially the network associated
with imagination and imagination based on elements
that exist only within your head,
that is within your brain, okay?
And therefore, must rely on memory of previous experiences.
As soon as you close your eyes,
you are shutting yourself off from the sensory world.
So by definition, you can no longer be bringing in novel experiences in that moment.
You're relying on your library of existing experiences and your memory of those in order
to imagine new things.
And you're doing this in a very, and a free, associative way.
You're not trying to imagine new things.
It's just whatever geysers to the surface.
Okay, so we've got the executive network, which is involved in suppressing particular thoughts
or actions. We have the default mode network, which is involved in suppressing particular thoughts or actions.
We have the default mode network, which is involved in imagination.
And the default mode network, I should mention, also involves a subregion of the prefrontal
cortex.
It's called the medial prefrontal cortex, but other brain regions as well.
And then the final element within the circuit's underlying creativity is the so-called salience
network.
The salience network is a network of brain regions
that involves areas such as the insula,
which actually has a complete map of your body surface,
as well as some information mapped there
about what's going on in the outside world
and how those combine with what's going on
in your internal landscape that is within your body.
Also a brain region called the ACC or Inting,
excuse me, anterior, Singulate Cortex, and the amygdala.
So a lot of information is mapped
within the salient's network about how we feel
and how we feel in relation to things
that are happening around us and within us.
And the salient's network has one main job,
which is to pay attention to what's most interesting,
either in the world or inside us in terms of feelings
or experiences.
Okay, so we've got three networks, executive network,
which is there to suppress choices
in terms of actions we could take, but decide not to,
or things we could think about,
but choose not to or try not to.
The default mode network, which is basically the catalog
or library of previous experiences
that we have available to us
that would act as sort of the paints on a palette
or the possible ingredients that could go into a recipe.
All of that has to again arise from previous experience.
We can't close our eyes and suddenly be able to access
all the melodies that we've never heard before
or all our ideas and concepts and knowledge about music
if we don't have musical understanding
or visual understanding.
So we're really drawing up the library
and that library tends to be rather disorganized.
It kind of swirls around.
It's not very structured,
unless we're actively trying to think about something.
And then we have the salience network,
which is the networks within the brain that decide
or make choices about what's most interesting
to pay attention to in a given moment.
So those three networks work together to create things.
And when I say create things, we again have to really
underscore our definition of creativity.
Creativity is a rearrangement of existing elements
into novel combinations that reveal something
fundamental about how we or the world works.
And this is very important.
It tends to be things that are useful.
Now, they can merely be useful because they're entertaining or thrilling.
They can also have a particular utility or use in the world like a piece of technology
that is actually useful, like an app or a smartphone or a computer.
Actually has utility or a vehicle.
You know, there are creative acts that led to the formation of vehicles and computers etc
But the point is that just merely coming up with novel combinations of things like wings on a fish tank
That's not creative or it's not creative in any kind of meaningful way because it's simply not useful
It doesn't reveal anything fundamental new or purposeful.
It doesn't allow us to think about or interact with the world or ourselves in novel ways.
Whereas things, people, actions, and ideas that are truly creative really change the way
that we are able to access the world.
They act as portals to the world and to ourselves.
I'd like to take a quick break and acknowledge
one of our sponsors, Athletic Greens.
Athletic Greens, now called AG1,
is a vitamin mineral probiotic drink
that covers all of your foundational nutritional needs.
I've been taking Athletic Greens since 2012,
so I'm delighted that they're sponsoring the podcast.
The reason I started taking Athletic Greens
and the reason I still take Athletic Greens
once or usually twice a day, is that it gets to be the probiotics that I need for gut health.
Our gut is very important. It's populated by gut microbiota that communicate with the brain,
the immune system, and basically all the biological systems of our body to strongly impact our
immediate and long-term health. And those probiotics and athletic greens are optimal and vital
for microbiotic health.
In addition, athletic greens contains a number of adaptogens, vitamins, and minerals that
make sure that all of my foundational nutritional needs are met, and it tastes great.
If you'd like to try athletic greens, you can go to atlettegreens.com slash Huberman, and
they'll give you five free travel packs that make it really easy to mix up athletic greens
while you're on the road and the car on the plane, et cetera.
And they'll give you a year supply of vitamin D3K2.
Again, that's at letitgreens.com slash human to get
the five free travel packs and the year supply
of vitamin D3K2.
So now you have some idea about the brain areas
and networks involved in creativity.
But I wanna be very clear that anytime we talk about
mechanisms and brain areas, what's
far more important than the names of those brain areas is an understanding of what they do.
So if you couldn't remember the interior, single-late cortex or the fact that the prefrontal
cortex is involved in executive function, et cetera, that's fine.
It's less important that you know the names of things that you understand the action steps
that those things take.
That is, the verb actions that those particular brain areas engage in order to arrive at a particular endpoint
and the endpoint we're talking about today is creativity.
I want to discuss creativity in terms of what actually goes into being creative.
And it turns out there are just two elements.
And those two elements are now well understood from the perspective of psychology.
And fortunately, the neuroscience well supports
what the psychology says and vice versa.
And those two elements that go into coming up
with a creative idea and then implementing
or developing that creative idea into something real
that you and the rest of the world can experience
are divergent thinking and convergent thinking.
And divergent thinking and convergent thinking. And divergent thinking and convergent thinking
are very straightforward to understand.
Divergent thinking is taking some known object
or event in the world or sport or concept.
It could be running, it could be a musical note,
it could be jumping, it could be a particular color on a piece of paper.
And asking yourself, how many different things
could that thing actually be?
You might say, well, running is running,
but let's use divergent thinking as a way
to illustrate what divergent thinking is.
If I show you a picture of somebody running,
I say, what do you see?
And you say, I see somebody running.
And then I might give you a divergent thinking task.
And these tasks are the same ones used in various experiments.
And I'd say, how many different things can you think about based on this picture that
you see of somebody running?
Now, if you are able to engage divergent thinking, you could say, running to the store, running
away from a lion, running towards somebody I love,
or maybe you have a more elaborate imagination,
and you could say, running in front of a bus
to grab a kid so the kid doesn't get hit by the bus,
or running toward a concert,
because I'm so excited about the particular concert,
and then it starts to spool into a story.
In other words, divergent thinking involves taking one simple, what we would call a neuroscience or psychology stimulus, one image or sound, et
cetera, and trying to radiate out from that as many different divergent situations, properties,
characteristics, events, things from that one specific element.
So any divergent thinking task would involve exactly that.
I'd show you pictures or play you sounds or words or notes or describe to you events
in history and try and see how many things can radiate out from that into diverse, diverse,
even distant types of concepts and pictures.
Okay, so that's divergent thinking. diverse, even distant types of concepts and pictures.
Okay, so that's divergent thinking.
Divergent thinking is really the process
that underlies idea generation.
And the basis of divergent thinking is that
more than one idea is correct.
In fact, the more ideas that you have about one thing,
the better your divergent thinking.
So if I were to give you three minutes to list off all the things
you can think about related to this pen that I'm holding up for those of you listening, I'm just
holding up a pen in front of me. You just write them out or say them out over the next three minutes.
That would be an example of divergent thinking. However, if you just said black pen, red pen, white
pen, green pen, et cetera, that's not very divergent. I think it's only divergent in the context of
color space. I say space, that's just a divergent. I think it's only divergent in the context of color space.
I say space, that's just a kind of nerd speak
for one particular domain of thinking.
Whereas if you said red pen, white pen, essay,
pen in a door to hold the door open
so that someone can return to a building
and you started spooling off a story related to that
and why that was important, well, there you go.
Divergent thinking is essentially taking one element
and coming up with many, many answers.
And in the context of divergent thinking any answer goes,
but as we'll soon learn, not every answer
is interesting and relevant.
That is not every answer helps solve something
or reveal something fundamental.
And therefore, not every divergent answer
is truly creative.
The other aspect of divergent thinking that's really important to understand is that the
selection criteria are extremely vague and vast.
That is, there are no constraints on what you come up with.
So if I hold up this pen, and you say orangutan, that's a perfectly valid divergent idea
from this pen because you thought of it and it's
distantly related. However, we have to remember our earlier rule. If black pen and
orangutan are not linked up in our brain and the observer's brain in any kind of
meaningful way, it's only interesting to you because you are the only one that
understands the rule that underlies the link between this pen and
orangutan. Whereas if you come up with something different that somehow tells me and everybody else,
something interesting about pens or orangutans, now that's a truly creative idea. I don't have
such an example in mind, but later I'll give you some examples of how you can actually march
down the path of divergent thinking and use that executive network to suppress certain options to cross off certain answers.
Because again, any answers valid, but not all valid answers are interesting or useful,
and you can cross those off and arrive at the most interesting and truly creative answer.
A couple more things about divergent thinking.
Divergent thinking largely taps into the networks of the brain. They're involved in
mental flexibility. So this is a different aspect of our prefrontal cortex, which is not based
on executive function and our ability to reduce options, but rather areas of the prefrontal cortex
that are available to generate multiple options and actually suppress context, right, to forget that
pens are just for writing, right, to forget that pens are
just for writing, for instance, and that pens can do other things like hold a door open.
It's really kind of an unusual use of a pen.
Again, none of these examples that I'm giving are particularly interesting.
They're just designed to get you to understand the underlying concept of divergent thinking.
And then the last thing that I'd like you to know about divergent thinking is that divergent
thinking involves a sort of exploration.
It's a wandering through of ideas that you already had in your library, in your memory banks,
about pens, and what pens could be related to, and what pens ought not to be related to.
So again, what's really important about creativity is that there has to be the basic building blocks
already existing within us. This is why it's so important about creativity is that there has to be the basic building blocks
already existing within us.
This is why it's so important to understand that if you are somebody who really seeks
to be creative, you really do need to be somebody who forages for information and structured
information in particular, if you are to be creative.
The architect simply can't come up with incredible drawings or plans for buildings
without understanding how buildings are put together in the various rules that govern buildings.
In other words, you can't break rules that you don't understand.
I think in movies, especially, we have this idea in mind of this limitless concept,
or that we have these hidden geniuses that somehow have access to all the math knowledge
without ever having done any formal math.
Actually, I was flying back from Texas recently
and Goodwill hunting was on somebody's screen.
I don't tend to watch movies on the plane very often,
sometimes, but not often.
And I was remembering in that movie,
you've got this math genius,
who is a janitor, MIT, et cetera,
and apparently just has access to all this knowledge.
It's a wonderful concept.
A very, very, I would say, even exceedingly rare thing to occur in the world.
Sure, there are people who seem to have a natural talent for mathematics or for something
else, but this idea that there are incredible geniuses among us that just spontaneously
have so much knowledge that by far the exception
rather than the rule, of course, and may not even actually exist.
I'm sure someone will put in the comments examples where this actually exists.
More often than not, what you find is that people who have extreme virtuosity in a given
area put many, many years into developing the basic substrates, the basic building blocks
of whatever it is their craft happens to be where they demonstrate virtuosity.
So this is very important to understand.
Nonetheless, divergent thinking is the critical element for initiating the creative process,
again thinking about creativity as a verb.
And divergent thinking involves taking some starting point, in this case a pen, and then radiating
out from that in a fairly unconstrained
what biology was called a random walk,
just kind of wandering through your thought space
and memory space about what could be related to this pen.
Now on the flip side of creativity is the implementation
of specific combinations of things,
and testing those to see whether or not
they are interesting, relevant, or delight us or other people,
or scare us or other people, or thrill us or other people. In other words, a testing of whether or
not there's some fundamental rule to emerge. Again, I'm going to repeat this many, many times throughout
this episode, and I'm not going to apologize for that because I think it's so important to understand
that creativity is not just novel combinations, they are novel combinations of things that reveal something fundamental and that often pop out to us.
If not every time, certainly most of the time that we see that thing.
It almost never seems to be the case that something truly creative dulls in its expression.
And that's because what it's repeating to us over and over again is this fundamental
rule that normally we can't see or hear or experience in the absence of this creative act.
So the second part of creativity where things are tested and where truly creative elements are discovered is in convergent thinking.
And convergent thinking as the name suggests, just the opposite of divergent thinking.
Convergent thinking would be, for example, if I give you an image or I tell you the following things, I say wing, water, and engine.
The concept that I happened to have in mind is that of a plane that can land on water,
right?
Most planes don't land on water or not intended to land on water.
One would hope that their plane doesn't land on water unless it's a plane designed to land on water.
But in this case, a plane that can land on water
is one of the very few answers
that can combine wing, water, and engine.
I'm sure there are other answers.
There are other convergent thinking modes
that can take you to an answer that would be valid,
but there are not many. And here, what's really most important is that I'm can take you to an answer that would be valid, but there are not many.
And here, what's really most important is that I'm not asking you to spool out or to radiate
out from these three things.
Rather, I'm asking you to combine them in some way that makes sense in the real world.
And indeed, there are planes that can land on water and wing, water, and engine combined
within those things.
They are fundamental features.
They are in fact necessary, but not sufficient
for having a plane that can land on water.
Okay, so that's just one example of convergent thinking.
A convergent thinking task would involve you being given
a list of two or three or maybe even five different things
and then for each of those two or three
or five different things as quickly as you can to come up
with a single answer that binds all of those in a real world concept that obey the laws of nature or physics in some way.
For instance, you could just come up with some answer that said, a bird that swallowed an engine
and that happens to be a seabird. You could come up with that, but that actually is not something
that happens or is very typical at all.
And so it seems like kind of a mishmash of things that are really just designed for you
to try and accomplish an answer rather than something real such as a plane that lands
on water.
Okay.
The point here is that divergent thinking is one aspect of our cognition, of our thinking,
and convergent thinking is a very distinct aspect of our cognition.
In fact, one of the critical requirements for convergent thinking is also to
access our memory banks and our understanding about the outside world just as it
were with divergent thinking, but it requires more focus and more persistence.
In fact, if we were to come up with a key rule for divergent thinking,
it would be you almost want to have just enough focus to remember what the initial object or
thing that was mentioned was to keep that in mind so that your answers don't become
completely random.
But the more distant and everywhere in between that you can generate answers,
that is the things that are very close to pens, you know, black pen,
red pen versus, you know versus pen and doorstop,
pen acting as a doorstop.
Those are, one is very close,
red pen is very close to black pen,
doorstop is pretty far from black pen.
So that's the idea is that you want to explore
and undergo a range of exploration of different ideas.
Whereas with conversion thinking,
you're really trying to bind these things together.
And so the key element for conversion thinking is the aspect of persistence and focus.
And that's why conversion thinking in many ways feels harder than divergent thinking.
It feels like there's an answer, and I want to get the answer right, and I can't solve it. It's a
puzzle, and it's a puzzle that relies on very distinct brain circuits from divergent
thinking, which brain circuits?
Well, that's what we're going to describe next.
And again, this is not just going to be a list of different brain circuits with different
names, doing different things.
That wouldn't be useful to you or to me.
Rather, what you're about to learn is truly incredible.
What it is is we're going to talk about one single molecule, dopamine, which is a molecule
most typically associated with motivation and desire and drive and feelings of pleasure
in some cases, but that actually resides within four different networks in the brain.
Today we're going to talk about two of those networks.
And dopamine acting in one network directly underlies divergent thinking.
Whereas dopamine in another brain network
underlies convergent thinking.
And if at this point in this episode you're thinking,
okay, when am I gonna get the tools
to understand creativity and how to be creative,
what I can assure you is that if you understand
divergent thinking, which hopefully now you do,
and you can understand what convergent thinking is,
and you can understand what convergent thinking is. And you can understand that dopamine is responsible
for both divergent thinking and convergent thinking,
but through separate pathways.
Well, then if you can understand
how those two separate pathways work
and how to engage them differentially,
they're in line the tools that you can use
both to explore ideas, in other words,
find what it is that could be creative, and then systematically
test each of those ideas for what is truly creative. That is what meets the criteria for something
that is novel and truly useful and informs us about something that we've never seen heard or felt
before. Let's just take a moment to talk about the incredible molecule that is dopamine. Many people are familiar with dopamine from the concept of, quote unquote, dopamine hits,
which is popular language describing the feeling of pleasure that we get from pretty much
anything that we like or that we continue to engage in repeatedly.
So some people will talk about the dopamine hit that they get from somebody attractive
that they like texting them back or the dopamine hit that they get from somebody attractive that they like texting them back, or the dopamine hit that they get from social media,
the dopamine hit that they get from sugar,
or the dopamine hit that they get from this, or from that.
To be honest, the concept of dopamine hits
is not one that I favor because in general,
whenever people talk about dopamine hits,
typically they're talking about activities
such as social media,
which dopamine may be involved at some level, but often it's the
case that the behavior associated with that thing, in this case, social media, is more
of the compulsive nature rather than an active seeking of something with positive anticipation.
And that's really what dopamine is about, at least in the context of one of its major
functions in the brain.
Dopamine is really about motivation and desire and movement.
And it makes sense why motivation, desire and movement would be linked up through a common,
in this case, in a remodulator or chemical like dopamine. Because,
throughout evolution, if we were excited for or motivated to pursue something,
we had to move in order to get it to obtain it. And in general, we can frame dopamine under the umbrella of dopamine tends to be involved
in neural circuits in the brain that are involved in processes that are taking us beyond the
confines of our skin.
That is, that motivate us to go do something in terms of action in the world.
Now that statement might seem distantly placed from a discussion about creativity, but as
we'll learn a little bit later, one of the most useful tools for engaging creativity and
becoming more creative is to think about action elements within a narrative.
That is, things that we and others can do in order to discover new rules through actual
movement.
That's a little bit cryptic.
Forgive me, but I promise I'll
return to it later and I will make it crystal clear. There are four major circuits in the
brain that use dopamine. Although I should mention, there are additional circuits as well.
In fact, your eye even contains neurons that release dopamine that control the sensitivity
of your eye at different times of day, to light, etc. The four major circuits in the brain
that utilize dopamine, however,
are used for four major purposes.
And I'll describe what those are.
First of all, is a neural circuit that uses dopamine
among other things, but certainly relies
on dopamine in a critical way to engage movement,
including eye movements.
And we will return to eye movements
why they're so important for understanding creativity
and maybe even for generating creativity a little bit later.
The name of the circuit, again,
is less important than what it does,
but the name of this circuit for those that want to know
is a so-called nigro stridle pathway.
The substantiant nigro is a brain area
that is very dark that projects to an area
called the dorsal striatum.
It contains a bunch of sub-regions.
So again, for those of you that really geek out on this stuff, great. You can learn these names and retain them in your memory.
If you don't care about names, don't worry about it, just discard the names. But areas of the brain
like the Codate and Putainum and the dorsal striatum receive input from the substantiant nigra.
In neuroanatomy, when we name something, we say the origin of that thing and where it connects
through.
So, Nigro Striadal tells you that there is a connection between the Substance and Nigro
because it came first, Nigro Striadal, and then Striadal is where it ends up.
So, Nigro Striadal pathway is involved in generating bodily movements.
It's involved in eye movements, and it is actually a brain area that's engaged when you
think about movement.
You even just have a story in your mind about walking or a story in your mind about running
or a story in your mind about driving, this area is engaged, very interesting brain area.
Okay, so that's the first circuit, very important to understand, and I'll tell you right now,
that is the brain circuit that is engaged when you undergo divergent thinking.
Now, that itself should be interesting, right?
Even if you don't remember any of the names
of the things I just told you,
that you have a brain circuit
that even if you just think about walking,
it becomes more active,
and the dopamine is involved in that brain activity.
And if you recall, divergent thinking involves
taking a concept as boring as a pen,
and thinking about other concepts that could link up with that pen in some sort of way,
logical or illogical, right? The bridge could be completely abstract and really fantastical
with a bunch of different ideas in between, like a pen acting as a door stop because of some situation
where you need to run down stairs in a fire and get back upstairs quickly to rescue somebody very
divergent or as divergent as black pen to red pen.
But what's amazing is that that same circuit is the one that's involved in physical
movement, in generating and thinking about physical movement. That turns out to be vitally important
for tapping into the creativity process. So really frame that up in your mind or commit it to memory.
Now the second dopamine circuit associated with creativity is the one associated with convergent thinking, which again is the kind of thinking where there's a
specific correct answer. It requires focus and it requires persistence. And the name of that circuit,
again, the name isn't as important as what it does, but the name of that circuit is the mesocortical
pathway. The mesocortical pathway is involved in motivation and it has an
emotional component too. Now, it will become clear in a few minutes why that
emotional component is vital, but this is a circuit that originates in a brain
structure called the lateral ventral tegmental area. Again, a bunch of
words you can remember it if you want lateral ventral tegmental area or you
cannot worry about the name, and it connects to the prefrontal cortex
that area just behind the forehead.
And this mesocortical area is involved in motivation
and emotion and is critical for focus and persistence.
It is distinct from a very nearby area,
just sitting right next door,
the so-called mesolimbic area,
which is involved in desire and feelings of reward.
And this is the area that is associated more typically
with addictive behaviors or compulsive behaviors.
We're gonna leave out the discussion
about the mesolimbic pathway for now,
because it's not critical to divergent or convergent thinking,
and it's not critical to the process of creativity,
at least as far as we know.
But I mentioned it because it is the third
and the fourth open allergic circuits, and then the as we know. But I mention it because it is the third and the fourth, dopamine-ergic circuits.
And then the fourth circuit, certainly one I've never talked about before in this podcast,
which doesn't mean anything except that we haven't gotten to it yet, is the tubarot
infran-dibular pathway.
And that is the pathway associated with dopamine and your pituitary gland and the release
of hormones in particular that travel to the ovary,
if you have ovaries or to your testes, if you have testes, and trigger the release of things
like estrogen and testosterone, et cetera. Dopamine is intimately involved in that circuitry.
Again, not the topic of today's discussion. For today's discussion, we want to remember that
there's a dopamine circuit called the nigrostriadil circuit, which is involved in movement and divergent thinking.
And that alone should set a flag up for you.
Like, wow, just thinking about new ideas
has something to do with movement, with physical movement.
And the dopamine circuit, that is the mesocortical pathway,
which is the one that's associated with motivation and emotion.
And that's the one required for persistence and focus
for convergent thinking.
Why am I telling you all of this about dopamine?
Well, it turns out that dopamine creates a certain number of responses
in the brain and body when it is active in one or the other of these circuits.
And just for sake of simplicity,
so I don't have to keep saying,
Nigerostriatal and mesocortical,
you're going forward,
I'm going to talk about the dopamine circuit
that's associated with divergent thinking
or the dopamine circuit associated with convergent thinking.
And again, divergent thinking and convergent thinking
are the two processes that have to occur,
usually first divergent, then kind of convergent thinking
and then back and forth and back and forth in order to arrive at something
creative.
Divergent thinking is about exploration, convergent thinking is about testing things and coming
up with things that are the right answer that feel right.
And we will better define what right means a little bit later, but you already sort of know.
Right in this context is when you have some combination of elements or some idea or
some written passage or some music or some physical action that you just know
this is really novel and really cool or people see it or hear it or taste it and
say this is really novel and really cool and they don't necessarily know why
it's just different in a way that feels true.
Now, I realized that for some of you listening to this episode, we are probably at the
point along the pathway of concept and definition and mechanism that leaves you in a place
of real wanting a tool.
And so I promise that I'm going to get into more tools, but to satisfy you and to make
sure that you do indeed understand that there
are tools that can emerge from the information that you already now have in mind.
I do want to share with you one particular tool from the literature that has been demonstrated
over and over again to support and build and enhance divergent thinking.
And I also want to share with you a tool that has been shown from the scientific literature
to enhance convergent thinking because both convergent and divergent thinking. And I also want to share with you a tool that has been shown from the scientific literature to enhance
Convergent thinking because both convergent and divergent thinking are critical for the creative process. Now I should emphasize
that some people out there
Either by training or by genetics or by both will be naturally better at
divergent or convergent thinking and in, we now know in a kind of almost poetic kind
of way that naturally occurring variations in genes, which underlie naturally occurring variations
in the percentage of dopamine in one set of brain circuits versus another, do seem to relate
to whether or not people are naturally good
at divergent thinking or convergent thinking.
Now that's a very nature-based explanation for why some people are better at divergent
thinking and other people are better at convergent thinking.
Nature and nurture is something that can never really be teased apart exactly because
of course if someone has a natural proclivity for something based on their genes, you can't often separate that from their parents because we inherit our genes from our parents.
Although, even in cases where people are raised away from their parents through adoption,
et cetera, it's very hard to separate nature and nurture because somebody with a natural
proclivity for things might engage in those things more, et cetera, et cetera.
The point is that for those of you that are very, very good at divergent thinking, or very,
very good at convergent thinking, some of that might have been inherited, but more than
likely some of that depended on the kinds of activities that you engaged in in your
early years, in particular in the years between age five and 25.
And for those of you that are aged between five and 25,
all I can say is please learn to engage
both divergent and convergent thinking as much as possible
because you will enhance your ability for both.
For those of you 25 and older,
you can still enhance your ability
to engage divergent and convergent thinking.
And the fortunate news, the equalizer, I should say,
is that regardless of whether or not you are naturally better at divergent or convergent thinking or you acquired it through activities, you need both in order to be creative.
So what we know is that in order to engage divergent thinking, we need access to our memory banks.
We need to come up with possibilities and those possibilities can only come from what's contained within our memory systems of our brain. Areas like the hippocampus, etc.
But the names, again, don't matter.
We just know that if we are going to come up with novel combinations of things, or novel
uses of things, or totally new ideas about how objects or notes of music or foods or
tastes or whatever can be combined, we have to do that with pre-existing knowledge.
And yet, what we need to do in order to engage diversion thinking is suppress what is called autobiographical narratives. And in particular
autobiographical narratives, we need to discard with judgments about how certain combinations
of things impacted us in the past. Now this is, I think, is what people mean when they encourage
the exploration of creativity by so-called boundary
exploration.
You hear about this a lot and kind of the self-help and psychology literature, and I'm
not at all disparaging of that literature, although rarely does it define exactly how and
why to go about being more creative in this case to be more divergent in our thinking.
So they'll say, you know, you have to take risks or you have to suppress judgment.
But how do you actually do that? So they'll say, you know, you have to take risks or you have to suppress judgment.
But how do you actually do that?
Well, there's a wonderful paper that talks about one way to do it.
One way to do it is what's called open monitoring meditation or even just open monitoring thinking.
And just to make what could otherwise be a somewhat complex section here, very simple,
what I'll also tell you is that if you want to enhance convergent thinking, you
can do that a number of ways, but you can do that in particular by doing a different type
of meditation or thought process, which is called focused attention meditation.
So let's talk about open monitoring meditation, why it's so useful for enhancing divergent
thinking, this critical element of the creative process.
First of all, open monitoring meditation and focused
attention meditation can be performed the exact same way physically. You can sit there,
eyes closed, I don't care if you're in a lotus position, it doesn't really matter, you're lying
down, you're standing up. You could in theory do open monitoring meditation with eyes open,
and that would be an interesting variant on it, but for sake of the discussion right now,
let's just focus on the study
that talks about these specific tools
and the way that they were used in the study.
The title of the paper that I'm essentially summarizing
is called Open Monitoring Meditation
reduces the involvement of brain regions
related to memory function.
Now right off the bat, that's a cue to something interesting.
Something about divergent thinking and open monitoring is related to suppressing memory.
But as you recall, just a few moments ago, I said that in order to engage in divergent
thinking, you need to kind of kill off the narratives of what has to be related to what
and come up with new narratives.
You still need to understand possibilities, but you need to forget prior understanding of what those possibilities have to be and start
thinking about what those possibilities could be. And so that it turns out involves suppression
of certain brain areas. Open monitoring meditation is typically done for about 10 to 30 minutes,
although it could be longer. And unlike other forms of meditation where you sit and concentrate on your breathing
and try and redirect your thinking back to your breathing or to your posture or to a chant
or a mantra, open monitoring meditation is simply a matter of having you sit there or lie
down, close your eyes, and to allow whatever surfaces in your mind to surface. And what
you practice is the practice of non-judgment.
Now, non-judgment itself is a little bit
of an abstract theme because, of course,
the moment you say don't judge, you and others start to judge,
it's just the way that the brain works.
You say don't think about an elephant,
you think about an elephant, that's a pervading natural.
You go to an edge of a bridge or a cliff
and you think about jumping off you
and though you don't, please don't, jump off.
And that's because it's part of the circuitry
that's keeping you from jumping off
is the thought about what would happen if you did, okay?
So open monitoring meditation involves dedicating
a certain amount of time where you close your eyes
and whatever thoughts arise, whatever emotions arise,
whatever ideas arise, to watch those
and take an inventory of them.
To just merely watch them show up and pass or maybe maybe become fixated on them for some period of time or maybe even just one for a long period of time.
All of that is fine. In other words, whatever surfaces surfaces, that's open monitoring meditation and that we know from brain imaging studies and we know from measurements of dopamine in particular brain circuits, and we know from people who train
with open monitoring meditation,
on a regular basis, improves divergent thinking capability.
So in terms of tools, practicing open monitoring meditation
or what I would just call open monitoring thinking
is going to be immensely useful.
And this is actually an opportunity to queue up something
that I mentioned in our episode on meditation,
which goes deep into the different kinds of meditation,
involving focus inward and outward, et cetera.
You're welcome to check out that episode.
It's at hubermanlab.com.
But the point is that rather than think about the word meditation,
which carries a bunch of ideas about what it is
and what it isn't and how to do it,
meditation is really just a perceptual
exercise. For instance, you could do a meditation where you look at a single point on a wall for five
minutes and redirect your focus to that single point on a wall over and over again every time your
mind drifts as it no doubt would or to a tone in the room. You could attend to that and redirect to
that. Rather than think about as a meditation, it's really just a perceptual exercise. That's all that meditation is. So open monitoring meditation is really just a form of perception where you're
paying attention, you're perceiving your thoughts without laying judgment to those thoughts or trying
not to lay judgment to those thoughts. And what people find is that they very quickly within a few
days get better at doing open monitoring meditation. And fortunately, within just a few days,
and certainly within about a week or more of practice,
and it doesn't even have to be daily practice,
so although, of course, daily practice
will accelerate the process further,
people become significantly better at divergent thinking.
And that's because of the dopamine circuits,
and in particular, along the nigrostriadal pathway,
becoming more active.
And the wonderful thing is that when you repeat a practice and a particular neural circuit
is engaged over and over again deliberately, that neural circuit becomes easier to engage,
so called neuroplasticity.
So I would encourage any of you that want to explore the creative process for whatever reason
or get better at the creative process, dedicate some amount of time, maybe even just five
minutes every other day to doing this open monitoring meditation.
I've tried this meditation.
It's actually quite fun to do because at least to me, it feels a lot easier than the meditation
associated with convergent thinking.
Now the convergent thinking meditation is the so-called focus attention meditation, and
that's also described in the same study.
Other studies have explored which particular brain networks it involves.
I can just tell you that focused attention meditation, which you can think of, or I'd prefer
that you think of just as a perceptual exercise, involves sitting or lying down, closing your
eyes, focusing either on your breath, or some element of your body, could be the tops of
your knees, or the clasp of your hands, it could be focusing on an auditory tone. You could
even do it eyes open and stare at a point on a wall or a flame of light. Whatever it happens
to be that allows you to redirect your focus to a particular location or idea or sound, that is known to improve your ability to engage
convergent thinking, to quickly parse through or analyze a bunch of different choices
and to persist in choice selection and therefore more rapidly arrive at the correct answer.
This is well-established and in fact in the episode I did with a wonderful guest, Dr. Wendy Suzuki from New York University. She talked about how a daily meditation of about 10 to
13 minutes performed for about eight weeks. That's what they explored. And that study greatly
increases people's ability to focus and in fact their memory. And that's exactly the point,
which is that conversion thinking, as I mentioned before, requires persistence, focus, and access
to specific memories.
So if you are somebody who wants to get better at focusing,
that is the meditation for you.
However, because today we're talking about creativity,
if you are somebody who wants to get better at divergent thinking
and convergent thinking, the two elements of creativity,
that is, I would encourage you to do a dual meditation,
that is a meditation that starts with open monitoring
for maybe five to 10 minutes,
and then transitions to focus detention
for maybe five to 10 minutes.
Because the positioning of divergent thinking
and then convergent thinking close together,
more closely resembles what the creative process really is
and what it typically involves.
Most of us would love to have a situation where we can spend a morning or a day or a week
brainstorming, just kind of brainstorming. Whatever we think about is fine. That's divergent
thinking. Whatever elements just throw them up on the whiteboard. We sometimes see people and
companies doing this at retreats, you bring people into a novel environment, you say, let's just
forget all the rules and let's just come up with new ideas about
some thing, new uses of something, new strategies in you, and nothing is too crazy.
Nothing's off limits.
Sure, that's a useful exercise, so-called brainstorming.
But at some point, there's the requirement to cross off things.
And typically, that's done later in the retreat or later in the meeting or later in the weekend.
And that's a wonderful way to approach creativity and to try and be creative, but not a lot of
people train for that on a regular basis.
So what I just described to you are research tested tools for training for divergent
thinking and convergent thinking.
And I would encourage people who are interested in being more creative to try and do these
on a somewhat regular basis.
If not every day, then certainly
a few times a week or more. Certainly the more you do it, the better you're going to
get it. That's well demonstrated in the literature. And if you're somebody who's very consistent
doing maybe five minutes of open monitoring meditation and five minutes immediately after
of focus attention meditation daily, you can expect that you will get very, very good
at these processes very, very quickly.
Now, I'm not going to go into a lengthy description of the different lines of evidence that the
corresponding areas of the brain are active in each of these different kinds of meditation,
but what I can tell you is that there have been some beautiful what are called loss of function
studies where particular brain areas are either depleted of dopamine or where dopamine in
some cases, I guess what we would call gain-of-function studies, although not the kind of gain-of-function
studies associated with virology, different gain-of-function studies, where you enhance the
level of dopamine in the brain, and what you find is that both divergent and convergent
thinking are enhanced when levels of dopamine are elevated.
Now we're not necessarily talking about pharmacology here.
It turns out that there are other ways to elevate dopamine
that make us better at divergent and convergent thinking
in particular by using mood.
And now I'd like to talk about how
what mood you are in when you happen
to start a creative process or try and do a sort of training
such as open monitoring
meditation or focus meditation, how your mood relates to your level of dopamine at baseline,
what we call your sort of tonic, as it's called, meaning consistent or ongoing level of
dopamine, how that dictates whether or not you are going to be better at one particular
aspect of the creative process or another and how you can enhance your creativity
in the very short term very quickly,
using tools that are known to trigger
additional release of dopamine,
which in some cases is good
and in some cases is bad, I should mention.
And in other words,
determine how you feel in one moment
should dictate what sort of tool you should use in order to
become more creative.
The relationship between mood and creativity is a fascinating one that is bridged by one
main feature, which is the amount of dopamine present in this nigrostriadal pathway.
And there's a really wonderful correlate or measure of the amount of dopamine that's
active in that pathway that can be
addressed non-invasively in the laboratory.
As I mentioned, the nigro-striatal pathway is involved in movement and in eye blinking,
which of course is a movement.
It's not a movement of the sort that we typically think of when we think of movements, but nonetheless
it relies on dopamine levels in this pathway.
And in fact, we can state very confidently that when dopamine levels are elevated, the
blinking reflex is more active.
People just blink more.
When dopamine levels are lower or less active in this pathway, people tend to blink less.
So blink frequency is a common measure in studies of dopamine within this pathway that relate
to creativity.
The work that I'm about to describe is largely the work
of two authors who have done wonderful work
and across several papers.
Unfortunately for me, their names are difficult
to pronounce, so I apologize to them
and their relatives for what is sure to be incorrect pronunciation.
But the last names of these authors are Cher-Mahini and Hummel.
They're in the Netherlands.
So Cher-Mahini and Hummel done. They're in the Netherlands. So Cher-Mahini and Hommel
done a number of different papers
or studies rather of the relationship between
blinking, mood, and creativity,
in particular, divergent thinking.
What they found is that if people are blinking fairly often
and they measure their mood through subjective tests
and if they were to do brain imaging,
which other studies have done,
what they find is that those people can engage in
divergent thinking very easily. In other words, which other studies have done, they find is that those people can engage in divergent thinking very easily.
In other words, being in a good mood
facilitates divergent thinking.
Now, some of you might immediately say,
well, duh, if you're in a good mood,
you can kind of be more playful about the exploration
about what could happen with these notes of music
or these foods, et cetera.
But it's not so obvious, because it turns out
that if your dopamine levels are very, very
high, and this can be measured non-invasively through the frequency of blinks, or it can
be measured more and basically through brain imaging, even through blood draws or other
methods to measure dopamine, if dopamine levels are very, very high, what you observe is
that divergent thinking is actually very, very poor.
Now a naturally occurring, truly pathological example of this would be something like manic
bipolar disorder where somebody is in the manic phase or somebody who has taken methamphetamine
or cocaine.
What tends to happen is that they have lots and lots of ideas.
All of those ideas seem really exciting to them, but if you were to talk to them for any
given moment, they would be very fixated on one particular tunnel of ideas.
And by being fixated on one particular tunnel of ideas, like the idea that they're going
to run for president tomorrow, this is unfortunately typical of people who have bipolar, which
is not to say that everybody who runs for president is bipolar.
Rather, people who are bipolar often have these delusions of grandeur that they're somehow
going to be president simply because they decided to and that they were selected to do this, etc.
Ideas about themselves and other people that are very constrained, in other words, not very divergent.
So, divergent thinking is favored by having elevated levels of dopamine, but not too high.
Well, that, of course, creates a conundrum. How do you know how much dopamine you need and how to achieve those elevated levels of dopamine? Well, leaving aside people who
are suffering from a manic episode, what Chermahenian homo have discovered is that if people are
in sort of a low mood, they're not feeling great. Maybe they're depressed, but they're
just not feeling that great. They feel, you know, on a scale of one to ten, around a two
or a three, maybe a four,
the probability that they will be able to engage
effectively in divergent thinking is quite low.
However, the good news is,
they are typically very susceptible
to elevations in mood through observing
or hearing positive stories,
listening to music that they like,
any kind of so-called inspirational stimuli.
Now this is good news.
What this means is that if you're somebody
who's not feeling very motivated to engage in divergent thinking,
you're not feeling very creative, you're feeling a little low,
the thing to do in that case is actually to take external stimuli,
things that you know that you like,
and start interacting with those stimuli
to get your mood elevated,
and then to engage in divergent thinking.
However, what Chermahini and
Hummel have also shown is that if people are already in a very
good mood
elevating dopamine further is not conducive and in fact is detrimental to divergent thinking. And in that case, they would be better off, for example, not engaging in any activities
or, you know, taking anything in the way of pharmacology that would further increase their
dopamine and probably limiting the amount of external stimuli that are coming in through
music and visual stimuli and really focusing on divergent thinking in the creative process
immediately.
Now this is important.
In an earlier episode, both on bipolar and on other forms of depression, I talked about
how rates of bipolar manic episodes and dopamine levels and creativity tend to be correlated.
Now unfortunately, rates of suicide are 20 to 30 times higher in people who have bipolar
disorder as well. And so there's a whole dark side too, but the bipolar disorder that makes
it a very, very dangerous and important disorder to treat. But for sake of the discussion of
creativity, what this means is that we all need to develop some sort of intuitive sense
as to whether or not our mood is, suppose we could bend this into three categories, is kind of yes, happy, excited, positive mood,
and of course there are gonna be levels to that,
low, and I'm like, hmm, or kind of meh, kind of in the middle.
So if you're in a low mood or kind of meh mood,
by all means engage in something,
probably for about five to 30 minutes,
that elevates your mood before trying
to engage in divergent thinking.
However, if you happen to be in a pretty positive mood, even if you're not 10 out of 10 on
mood, then bringing in additional stimuli to increase your levels of dopamine will not
help you and in fact can hurt the divergent thinking process.
So in that case, I would also encourage you to think about something that was discussed
on a previous episode, which is the particular effects of caffeine.
I'll get into caffeine a little bit later, but just very briefly, caffeine increases levels
of dopamine receptors.
So it's not that caffeine is bad.
In fact, caffeine can be neuroprotective.
It can enhance focus and so forth.
But divergent thinking is sort of anti-focus.
It requires just enough focus to be able to come up with new ideas,
but you actually don't want to be overly focused.
Focus is more conducive to conversion thinking. In fact, that's exactly what the literature shows,
is that caffeine, because it's effects on an epinephrine and related systems in the brain, like a denocene,
but mainly because of its effects on persistence and focus, is very conducive to convergent thinking.
So if you're somebody who wants to explore creativity and wants to get better at creativity,
you now know that you need to engage in divergent thinking and then afterwards, convergent thinking.
I would recommend not using stimulants such as caffeine prior to divergent thinking,
but rather use stimulants if you do want to use stimulants such as caffeine prior
to convergent thinking.
In fact, in formulating the architecture of today's episode, which took me many hours
across many different days, I confess, I actually decided to try this.
In trying to imagine the different configurations and ways that this information can be organized,
I deliberately abstained from caffeine during those abouts of work, and when structuring everything according to the decisions I had
already made, I purposely ingested caffeine prior to that. Now of course
constructing a podcast episode is not really the ultimate example of a creative
act because of course it's taking existing information, it's arranging it in
all the ways, but it doesn't necessarily allow key concepts
to pop out in the way that for instance,
Banksy or Arothgore and Escher would pop out, okay?
I'm certainly not naive in thinking that it does,
but the principle is what's important here.
You need divergent thinking, you need convergent thinking,
you need some level of elevated dopamine
in order to engage in divergent thinking, but not
so high that it starts to inhibit that process.
Now, if you were to come into the laboratory, this could be measured by your frequency of
blinking.
For better or for worse, we can't actually count the number of times that we blink unless
we're actively paying attention to it.
So I don't recommend that you pay attention to your blinking because that will take you
off course from all the other important things of your life.
And how many times you're blinking is rarely an important thing for you to pay attention to. You can, however, learn to calibrate
your mood. That is to assess your mood, whether or not you're in low, medium, or high mood.
No problem using that broad binning, right? You could scale it on one to ten. And then decide
whether or not you're going to use some dopamine elevating stimulus from the outside. Again,
could be music, could be exercise
is an excellent way to elevate dopamine.
I'll talk about another well-established one
from the research literature that is known
to elevate dopamine by 65% in the particular pathway
that's relevant for divergent thinking
and to do that without any pharmacology.
I'll share that with you in a moment.
But you need to decide for you in a given moment
or in a given work attempt at creativity,
what you need and apply accordingly.
Because as Chiramini and Hummel have shown,
whether or not you are in a low mood, medium mood,
or high mood, really can determine whether or not
you'll be able to access,
divergent thinking or not.
Now, if you're somebody who already has an idea in mind,
you're very excited about a creative idea
and you want to hone it, you want to shape it,
you want to pressure test it.
We'll talk a little bit more about what that means
in a three-step process in just a little bit.
I would strongly encourage you to look at that process
as a very linear process in which there are right
and wrong answers.
And there, the use of caffeine at appropriate dosages
and dosages for caffeine that are safe
and in fact performance enhancing
we're covered in the episode on caffeine
turns out it's one to three milligrams per kilogram
of body weight, by the way.
And if you want to leverage caffeine
or maybe even other forms of healthy legal stimulants,
those are covered in the caffeine episode,
and I'll talk about a few more a little bit later.
So to summarize this segment,
and also just to make a more general point,
I think it's very useful for people to start to pay attention
to what their tonic level,
that is their baseline level of dopamine,
ought to be in this nigrostriatal circuit
and in other circuits.
And to do that by learning to assess one's mood
and pay attention to what kind of mood they happen to be in.
And then to leverage tools, behavioral tools,
maybe pharmacologic tools,
provided they're safe and they're legal
in order to either increase dopamine
or to elect not to increase dopamine
in order to access the creative process.
Now, I've mentioned pharmacology a few times.
And I'd like to talk about that
just a little bit more in the context of dopamine. First of all, there is no supplement or drug that
you or anyone else can take that will selectively elevate dopamine in only one of the four circuits
that I described before. Okay, this is just the state of the technology nowadays. If you take a pill
or even if you were to inject some substance, again, I hope this
would be legal and safe, et cetera, whatever mode of delivery, there is no technology that
exists at this time that would allow you to selectively amplify dopamine, for instance,
just in the niagrestriatal pathway or just in the mesocortical pathway.
Again, the niagrestriatal pathway associated with divergent thinking, the mesocortical pathway associated
with cognitive persistence and convergent thinking.
If you were to amplify dopamine levels,
for instance, by taking the amino acid precursor
to dopamine L-tyrosine, something that I occasionally do
to enhance dopamine levels for sake of work
or energy 500 milligrams or a thousand milligrams,
even a VELTyrosine, sometimes I'll combine that with other things like alpha GPC.
It's going to enhance dopamine transmission in the NIGRAST or AIDLE pathway, the
mesocortical pathway, but also in the mesolimbic pathway, and also for that
matter in the tuberum-infraindibular pathway associated with the pituitary.
There is no way to direct dopamine activation to just one of those pathways.
That's just a reflection of the existing technology. Now this is also true if way to direct dopamine activation to just one of those pathways.
That's just a reflection of the existing technology.
Now this is also true if you rely on illicit drugs to increase dopamine.
So it's cocaine or methamphetamine.
Those will greatly increase dopamine, but nonselectively across all those different pathways.
And likewise with any drugs that inhibit or block or antagonizes as it's called dopamine.
This is why people who for instance have schizophrenia and take drugs to suppress auditory
hallucinations.
Some of those drugs work because they block the so-called D2 receptor of the dopamine
pathway.
D2 receptors are present in all four of the dopamine-inergic pathways in the brain.
And oftentimes those drugs will in fact suppress
psychotic symptoms, auditory hallucinations, et cetera,
because they reduce dopamine.
But those people oftentimes will have problems with movement.
They will express what's called in the clinical literature,
tardive dyskinesia, kind of writhing of the face
and the body from suppression of dopamine within the
nigrostriidal pathway, which is associated with movement.
They will sometimes have deficits in eye blinking.
People with Parkinson's who actually have selective deficits
of dopamine within the substantial nirogro,
nirogrostriatal, remember substantial nirogro,
show deficits in what, in movement,
in the smoothness of movement.
Oftentimes, they won't blink at all.
They'll have kind of a blank stare
and they have other issues as well.
So if you're somebody who's interested in increasing dopamine through the use of legal safe
pharmacology, as I would hope it would be the case, there are ways to do that reasonably
safely.
For most people, again, people with bipolar disorder issues with the dopamine orgic pathway
should not do this.
I know nowadays there's a lot of use of drugs that increase dopamine such
as ridolin, aderol, modaphanil, armodaphanil often prescribed for things like attention deficit
hyperactivity disorder. We did an entire episode on ADHD and pharmacologic prescription supplement
and behavioral nutritional tools for ADHD. You can find that episode at ubermanlab.com.
I know a number of people take those compounds in order to increase dopamine and focus
for sake of studying or other activities, staying up long hours, etc.
And the fact that they increase focus, they are effective, although they do have their
side effects, sometimes severe, sometimes habit forming, sometimes even addicting as well.
But the fact that they increase focus should automatically tell you something, that those
drugs in particular increase dopamine in the so-called mesocortical and mesolimbic pathways.
Why can I say that?
How can I say that with any degree of confidence?
Well, there are these four pathways.
One's involved in movement, but these other ones are involved in motivation,
and desire, and reward.
And I told you that these things can be habit forming and addicting in some cases, and
they can greatly increase focus and focus is supported by enhanced levels of dopamine
within this mesolimbic and mesocortical pathway.
So yes, those drugs increase dopamine across the board, but there does seem to be some weighting of dopamine toward the systems involved in motivation and reward and sometimes even
leading to habit formation and addiction. That's why those drugs should only be taken with
the close supervision of a very skilled psychiatrist or somebody else who's board certified who
can really govern that. There are, however, ways to increase dopamine more evenly
across the board using non-prescription approaches. And one, I already mentioned, which is L-tyrosine,
taken typically in dosages of 500 to 1000 milligrams. L-tyrosine is not as potent in increasing dopamine,
as are the prescriptions drugs that I referred to before. Tens to be milder. For some people,
it can have a very amplified effect.
They feel it right away.
It's very intense in elevating focus and motivation
and the desire to move.
For other people, it's less potent.
It really depends on a number of things.
I should mention that regular consumption of caffeine,
of one to three milligrams per kilogram of body weight per day,
also will increase dopamine receptor efficacy and density, which will make any existing dopamine
more effective, whether or not that dopamine is triggered by things like altiracy, or
if you're not taking anything to elevate dopamine.
The dopamine that you do make will be more effective in elevating your mood, motivation,
and desire to move.
And by extension, divergent thinking.
If you are consuming caffeine, but again, caffeine
should be taken prior to conversion thinking type tasks,
probably more than it should be taken prior
to diversion thinking task.
And of course, there are other legal supplements
that can elevate dopamine as well.
In particular, phenolethyl amine is very effective
in doing that, 600 milligrams with that,
has a brief effect lasting only about 30 to 45 minutes, but it is one that many people find beneficial for sake of studying or for
Creative thinking and so on and so forth. Now, that's pharmacology and in fact, there's an extensive landscape of prescription and supplement-based pharmacology and indeed nutrition
for instance the consumption of foods that are high in L. Tyrosine such as aged parmesan cheese for instance of, of all things, very, very high in altyrosine, the precursor to dopamine, certain foods.
You can look up online, which foods contain high levels of altyrosine, and which ones are
compatible with your nutrition.
But leaving pharmacology aside, there's a very exciting non-pharmacologic tool, a purely
behavioral tool, that the research literature has told us can selectively increase
dopamine within the nigerostriatal pathway, the pathway that's involved in divergent thinking,
and can do so very dramatically as much as 65% above baseline.
So this is a behavioral tool that is useful for a number of things, but that I find particularly
interesting in leveraging towards the exploration and number of things, but that I find particularly interesting in leveraging
towards the exploration and enhancement of creativity, because first of all, it's purely
behavioral, so it's zero cost, and it involves no manipulation of brain neuromodulators or
chemistry through pharmacology.
So it's something that you can explore very safely and certainly not having to purchase
anything.
And what's really remarkable is the selectivity,
or I think it's fair to say the immense selectivity
that this particular behavioral intervention
seems to exert on dopamine within this pathway
associated with divergent thinking.
So the study that I'm about to describe is a study
that dates back 20 years.
Now that should not concern you.
In fact, the early arrival of this study,
what now seems to be early arrival, I mean, it wasn't that long ago, is really exciting because
the first line of this study really illustrates how important or how much of a landmark study this
really is. And so I'll just read you the first line of the study. Then I'll tell you the title,
then I'll tell you what they discovered in fairly top contour, and we will provide a link to the study if you want to peruse it in more detail.
The first line of the study is, this is the first in vivo, just meaning in the organism.
In this case, this was a study on humans. This is the first in vivo demonstration of an association
between an endogenous neurotransmitter release,gins means within us, and conscious experience.
So what this sentence essentially says is,
this is the first study exploring how a chemical
that's naturally released in our body
relates to a particular quality of conscious experience.
This study was performed in Scandinavia
in one of the hospitals in Denmark.
Again, we'll provide a link.
The first author is Kher.
I think I'm pronouncing it correctly,
although probably not K-J-A-E-R at all.
And the title of the study is increased dopamine tone during meditation induced change of consciousness.
And I want to just highlight that the meditation used in this study isn't really a meditation
at all.
I don't know why they selected that for the title.
The behavioral protocol used in this study was more akin to what is normally called
yoga-needra or NSTR non-sleep depress.
Now, yoga-needra and NSTR have been discussed many times before on this podcast.
Yoga-needra, for instance, is a practice that's been around for hundreds, if not thousands
of years, in which people deliberately lie still.
So they're forcing themselves to be mostly motionless.
Small movements are fine.
And they're directing their attention to the surface of their body. They're doing long exhale breathing, sometimes some intentions, sometimes some visualization. But it's really self-directed
relaxation. And the key component is that people stay awake and engage in very little movement.
And the key word there is movement. Now, non-sleep deep rest is a acronym, a term that I coined.
It's not a term that I coined in order to try and wipe away or discard with Yoganidra. I'm a
person who has great respect for Yoganidra and its traditions. It's a term that I coined in order to
encompass a number of practices that don't include any mystical type language or scientific language
for that matter, and that doesn't involve intentions
and involves deep relaxation,
yet remaining wide awake and conscious.
Sometimes people fall asleep and that's okay,
but this is really an atypical brain state
of being deeply relaxed,
yet in general awake and motionless.
Again, motionless being the key. Very few brain states involve us being
mostly, if not completely motionless and yet awake. And it turns out that brain state, whether
or not you call it yoga, knee, you call it NSDR, whether or not you call it meditation-induced
shift in consciousness as they did in this study, although they do refer to Yoganidra, all refer to the same thing, which is being motionless
and yet aware and relaxed, I should mention.
So in this study, what they did was they brought subjects
into the laboratory.
They had them either undergo this self-directed deep relaxation
while they are motionless or mostly motionless,
or they had them listen to an audio script,
while also
just lying there with eyes closed.
And then they used a number of chemical tricks, and I don't want to get too deep into those
now because they can be a little bit distracting.
For those of you that are interested, you can look at it in the study.
This is a binding of a chemical in the brain that then they can image with brain imaging,
which is what they did in the study, to evaluate how much dopamine changed in the brain and
where specifically in the brain,
dopamine changed its levels before, during and after this particular behavioral practice
in one or the other group. And what they discovered is that people who did this deep relaxation,
that is self-directed deep relaxation, lying there, eyes closed, relatively motionless, although small movements of the
body or movements of the head are absolutely fine.
What they observed was a 65% increase in dopamine release.
Now here it's key, dopamine release.
And they observed an increase in so-called theta activity.
Theta activity is a pattern of brain wave activity that's commonly associated with creative states
and divergent thinking in particular.
So that's important.
And they observe that across subjects,
specifically in the NIGRO straddle pathway,
this pathway associated with divergent thinking.
So this is very exciting.
This is a study that really points to a behavioral tool
that can be used to selectively elevate dopamine
in the very pathway that one would want to if they wanted to engage divergent thinking
for sake of creative exploration.
There are also a number of key observations within the study.
First of all, the reduction in bodily movement was essential.
In fact, when people rated or in when the amount of readiness for action in
their system, their body was evaluated, what people found was that immediately after this
practice, they felt very still. In other words, they felt as if remaining still was natural.
Now, it's not the case that they couldn't move. In fact, the elevation and dopamine that
occurred during this practice, this yoga-needra-like like non-sleep or NSTR, like practice, actually prepared them to be
able to move in a much more dedicated and robust way afterwards. But during the
practice, their readiness for action went way, way down, not surprising. They were
pretty much motionless. But interestingly, as the level of readiness for movement
went down, down, down, down, down,
their degree of visual imagery,
that is their internal landscape
and their ability to imagine new things increased.
And in fact, areas of the brain
that are associated with visual imagery,
such as the visual or so-called occipital cortex
and the parietal cortex,
has been shown in other studies
to ramp up
when people are motionless.
So there seems to be this inverse relationship
between movement and visual imagery,
which makes sense.
When we're moving, we can pay attention
to things in the outside world.
We tend to be aware of our sensory environment
to varying degrees.
But we don't tend to be very focused
on visual imagery within our head.
Whereas when we lie down or sit down and close our eyes
and we are motionless,
the degree of visual imagery really increases. Hence, the increase in divergent
thinking because what essentially is happening is the library of options, the library of
possible interactions with whatever it is that you're thinking about. I give the example
which is a trivial one on purpose of a pen, but the bank of options that becomes available when we are motionless and when we are limiting our
visualization of the external world
increases exponentially. So this is important and what it points to is the fact that there's a very simple
completely non-pharmacologic behavioral practice of lying down motionless for some period of time.
And I confess the amount of time that they use in this study was quite long. It was longer than 60 minutes.
But all the data that I'm aware of in terms of NSTR
and yoga knee-dra, and there's a growing body of literature
on these practices, I should mention,
show that even 10 minutes, or even better would be 20 or 30
minutes, of lying motionless with eyes closed
and allowing the mind to drift wherever it happens to go.
But focusing on relaxing by doing long exhale breathing, perhaps doing a body scan of focusing
your attention on particular body parts, but not keeping it focused on any one particular
body part for that long.
That general practice of deep relaxation while awake and being relatively motionless really
favors the brain states associate with divergent thinking and actually represents an accessing
of the various components that you would use during divergent thinking.
And perhaps most excitingly, it's associated with this massive increase, 65% increase in
dopamine release within the very pathway that underlies divergent thinking.
So my recommendation would be for those of you that are trying to enhance divergent thinking
and creative ability, that you would do this practice at a minimum once per week.
And I should say if you were going to do it once per week, I'd recommend doing it for
about 20 to 30 minutes.
Some of you might be able to do it for as long as 60 minutes.
I myself do such a practice on a daily basis anywhere from 10 minutes to 20 minutes,
sometimes 30 minutes. There's an example of an NSDR script, completely zero cost. I confess it does
happen to be my voice. So forgive me in advance. There are other options of NSDR. You can go to YouTube,
put NSDR and my name, again completely zero cost. You can get a sample of what a 10 minute NSTR script looks like.
That's through Virtus.an, put that out there.
So thank you, Virtus.an, for putting that out there at zero cost.
There are examples of 20 and 30 minute NSTR scripts and Yoganager scripts.
Some that I particularly like, we will also provide a link to some of those.
Again, those are completely zero cost for you to explore.
But more important than you follow any one particular Yogan, Eger, NSTR script is that you learn to take
your body and brain into these states of limited motion, elevated dopamine within this particular
pathway, and fairly deep relaxation. Again, if you happen to fall asleep, that's, you
know, not necessarily a bad thing. Although the idea is that you stay in a shallow plane of consciousness or sleep
hence the term non-sleep deep rest.
So in any event, I think this is a very useful practice that many people could benefit from and the fact that it's zero cost and purely behavioral.
I think adds
additional benefit because it's certainly one that people could explore depending on what
amount of time you're willing to commit and the research stayed on this.
Now extend beyond this one individual paper.
And I think it's really exciting
because what it says is as the title
and first line of the paper suggests
is that we can increase dopamine
using specific types of meditation-induced consciousness.
And those increases in dopamine
can be used to increase our ability to be more creative.
Before moving forward, I want to make absolutely clear how it is that you would use NSDR aka yoga nidra or similar. The name doesn't
really matter after all. The practice is what matters. In order to enhance dopamine in this
Nygrostriadol pathway and enhance divergent thinking, the key thing to understand here is that the period of motionlessness and
deep relaxation while awake increases dopamine in the nigrostriadal pathway. It increases
mental imagery, that is, it increases access to the bank or the library, if you will, of
possible solutions or elements to engage in the divergent thinking process.
But divergent thinking itself does not occur
during NSDR aka Yoganidra.
The NSDR and Yoganidra, deep relaxation, meditation,
whatever it is you wanna call it,
sets a dopaminergic tone,
and that's actually the appropriate use of the word
dopaminergic tone.
It raises the baseline of dopamine transmission in that circuitry that then positions you
to engage in divergent thinking more effectively.
So the idea would be to do anywhere from 10 to 20, maybe 30 minutes, maybe even as much
as an hour depending on how much time you had to dedicate of such a meditation and SDR practice.
And then not necessarily immediately, but within the five to fifteen minutes
following, then to go into a practice of divergent thinking and start doing creative exploration.
That is to start thinking about different ways to combine existing elements in whatever
domain it is that you want to achieve creativity.
So the point is that the divergent thinking itself is not occurring during the NSTR or
yoga-needra practice.
The NSTR and yoga-needra practice prepares you for divergent thinking that you do in
the hour or hours that follows.
And just to contrast that with pharmacology, I am not aware of any specific dopamine-related
pharmacology that would allow us to selectively increase dopamine in the very pathway associated
with divergent thinking
and creativity.
Now, there are forms of pharmacology
that can shift brain neurotransmitters
and neuromodulators in ways that favor creativity.
And this is certainly a topic that we will go into
in more depth in a future episode.
But there's an exciting study that was performed
just this last year looking at the role of serotonin,
another neuromodulator,
in divergent and convergent thinking.
And it turns out that serotonin underlies a lot of the brain activity that's responsible
for both divergent and for convergent thinking.
And there's one particular form of pharmacology, which can enhance activation of the serotonergic
pathways associated with the so-called 5HT that's serotonin,
5HT, that's the abbreviation, 5HT2A receptor,
serotonin2A receptor in particular brain areas
in ways that favor both divergent and convergent thinking.
And the pharmacologic agent in that case
turns out to be very low dose,
or as some of you may have heard of it referred to as microdosing of psilocybin.
Now, I do want to say, because it would be entirely inappropriate for me to not say this, that in most areas of the world, and in particular in the United States, psilocybin is still illegal.
It is not legal. In some areas, it has been decriminalized, and there are a number of different clinical trials occurring now at Johns Hopkins at
Stanford at University of California San Francisco and elsewhere exploring psilocybin for the treatment of
depression for trauma for eating disorders
most of those studies focus on
macrodosis of psilocybin not micro dosing there are far fewer studies of micro dososing of psilocybin, and I do have to point out
that psilocybin use end possession, and of course sale is still illegal. So I would be remiss if I
didn't state that. However, I will provide a link to the study that shows that microdosing of psilocybin
for a series of weeks on a daily basis. So these are dosages of psilocybin that do not induce hallucination and do not massively
shift mood or internal states in any way that has people feeling like they are acting
or feeling that much different, although some people do report a subjective shift, does
seem to increase divergent thinking ability.
But I do want to put a big asterix, a highlight and an underlying pen beneath the
statement I'm about to make, which is that pharmacology of the serotonin system, just as pharmacology
of the dopamine system is very broadband. It's a shotgun approach. You're going to hit all the
circuits of the brain that involve serotonin with microdosing saliva, although it has some
selectivity for the 5HT2A receptor, it can attach to other receptors
as well and act there. This is the same reason why SSRI, selective serotonin reuptake inhibitors,
can indeed shift mood and appetite, but it can also shift libido and other things. It's because
there are serotonin receptors everywhere, or I should say many places, not just in the areas
of the brain there associated with mood, for instance.
And as I mentioned before, agents whether or not they are recreational or illicit drugs or prescription
drugs or supplements that increased dopamine will also be broadband and hit a number of different
circuits in parallel. So this is why I always say behavioral tools really should come first.
I don't say that because I dislike pharmacology.
I say that because in many cases behavioral tools are not only safer and easier to titrate
to adjust the duration, etc.
Then is pharmacology, but also because they can sometimes, as in the case of the study,
would just describe, afford you more specificity, not less than pharmacology.
Pharmacology has its place, can be wonderful, provided safe and legal, etc.
But it can cause a lot of so-called off-target effects. So for those of you that are interested in increasing creativity through
pharmacology, I would say stay tuned for the data on psilocybin and microdosing psilocybin. If you are absolutely obsessed with the idea of microdosing psilocybin for enhancing creativity
and you'd like to go straight to the study, I will tell you what that study is and therefore
you can access some of the specifics in terms of dosaging and protocols, etc.
So since I can't help myself, I'll just very briefly summarize that microdosing psychedelic
study.
The title of the study, which was published in 2018, is exploring the effect
of microdosing psychedelics on creativity in an open label natural setting. Interesting
title. This was a microdosing event organized by the Dutch psychedelic society. They examined
the effects of psychedelic truffles, where they knew what sorts of psychedelic compounds
were contained there on two creativity related problem-solving
tasks, the picture concept task, which I don't expect you to recognize or know, but it assesses
convergent thinking and the alternative uses task, which I also don't expect you to know
but is a standard task for assessing divergent thinking.
They tested once before taking a microdose, and while the effects were expected to be
manifested, they say, interesting, they use the word manifested in a study of psychedelics.
Science is changing indeed. In any case, what they found was an enhancement of
creative, that is divergent and convergent thinking, not surprising, giving the
fact that the 5-H T2A receptor activity is increased by microdosing of psilocybin and 5HT2A receptors are present
both on the neural circuits to underlie it divergent and convergent thinking.
So again, this is not a plug for microdosing psilocybin.
This is really in response to what I know will be a number of different questions about what sorts of pharmacologic agents can be used to increase creativity.
So more on that later and again, we'll provide a link if you want to read that study in more depth.
I can imagine that a number of you are probably also wondering about the effects of alcohol and the effects of cannabis on creativity.
We did a long in-depth episode all about alcohol and its effects on health. The bottom line on alcohol
is that in excess of two drinks per week, you're starting to run into the cancer promoting
and toxic effects of alcohol. I didn't choose for the answer to be that, but that's what the
data tell us. I'm not telling you, you can't drink more than two drinks per week. I'm just
saying that if you're going to do that, you should really consider offsetting that
with some other behavioral measures
all discussed in the episode in alcohol.
And despite what people think,
there is absolutely zero evidence
that alcohol increases creativity.
However, by way of reducing activation
of the prefrontal cortex,
there is some evidence that alcohol and other substances
that reduce what it's called autobiographical scripting,
that is a narrative about ourselves,
or self-awareness, that it can enhance divergent thinking
at very low doses.
Now, this makes sense.
Divergent thinking involves remembering certain things
that we can use as elements in the creative process,
but suppressing narratives about
what the use of those would mean. Will people like it? Will they not like it? Will it lead to the
outcome we want? Will it won't? All of that autobiographical scripting involves the four brain being
very, very active and specific regions of the four brain in particular, and that all needs to be
suppressed, which alcohol in very low doses can accomplish. But again, that's not a plug for alcohol.
I think behavioral tools would be a much better route.
But it therefore shouldn't be surprising
why some people have used low dose alcohol
in order to engage in the creative process
because it involves less inhibition or sense of self
that could be detrimental to the divergent thinking process.
Now with respect to cannabis,
I went in depth into the biology and the various
uses, misuses, dangers, and in some cases benefits of cannabis use in certain, the key
word there is certain populations. And I also dove into whether or not cannabis can be
used to increase divergent and convergent thinking. So that's timestamped in that episode. I'll
refer you to that episode, but the long and short of it is that many of the ideas
that people come up with when under the influence
of cannabis in particular high THC containing cannabis
does lead to enhanced divergent thinking,
but so enhanced it turns out that oftentimes those ideas
can't be constrained by the convergent thinking process.
In other words, they have lots of ideas
that make sense while under the influence of cannabis,
but that later cannot be implemented
into a coherent framework that leads
to any actual creative endeavor or creative product.
Or, as is often the case with cannabis,
they simply can't remember what they were thinking about.
Anytime there's a discussion about dopamine,
there seems to be a discussion about motivation, desire,
and drive, and of course that makes sense,
given the roles of dopamine, we did an entire episode
on dopamine motivation and drive.
It's one of our most popular episodes.
Again, you can access that with timestamps
and all formats at HubermanLab.com.
And anytime there's a discussion about dopamine
and motivation, we also seem to have a lot
of questions about attention and focus and ADHD or attention deficit hyperactivity disorder
in particular.
So just as a brief mention, there is a literature, although not terribly extensive, a small but
strong literature on the relationship between ADHD and creativity. And the long and short of that literature is that people who have ADHD regardless of age
do seem to have an ability to focus. I've mentioned that in the episode on ADHD
provided that they are interested in the thing that they are focusing on.
So that runs counter to this idea that people with ADHD simply can't focus.
They can, but it tends to be a focus that's selective for things that they are very excited
about or interested in as opposed to a general ability to focus.
What's also highly underappreciated is that people who have ADHD oftentimes are very effective
at divergent thinking, but are less effective at convergent thinking.
What this tells us is that people with ADHD can often have excellent novel and indeed creative ideas,
but that the implementation of those creative ideas
is sometimes challenged.
And that's one reason to explore rational pharmacology,
nutrition, supplementation, et cetera.
Those are all things to explore in concert with,
or I should say, in working closely
with a board certified physician or ideally psychiatrist, expert in ADHD. you can also check out the episode that we did on ADHD.
There are a lot of tools there, a lot of science mentioned there to support those tools.
Again, you can find that HubertmanLab.com.
But I did think it was important to point out, even if briefly, that having ADHD is not
a barrier to creativity.
In fact, may actually be an enhanced portal to creativity, but that
it doesn't allow people to access the conversion thinking that allows creative ideas to be
implemented into specific strategies, pressure tested, and eventually delivered in the form
of a final product of music, art, et cetera. That is not to say that people with ADHD cannot
accomplish that, but that it is going to require some additional steps
and protocols in order to enhance conversion thinking
in that episode and the episode that we did on focus
and in particular, tools to enhance focus
is very much directed at ways to enhance conversion thinking.
So if you have ADHD or know somebody who does
and you're interested in the creative process
or focusing generally, please check out the episodes
that I mentioned.
Now, there's also a small,
but nonetheless, very exciting literature
on the relationship between physical movement
and divergent thinking.
This should come as no surprise to us.
As mentioned many times now in this episode,
the Niger-Straightle pathway involved in divergent thinking
and then involves dopamine is also responsible for eyeblinks
and for movements of the limbs of the body in very deliberate
ways.
This tells us that there's some direct or maybe indirect relationship between movement
of the body and divergent thinking.
And despite the fact that it's only a few studies, there have been some studies of whether
or not people are able to engage in divergent thinking more effectively when they are doing
things like pacing or walking.
And this could be on a treadmill or back and forth across the room.
And in fact, that is absolutely the case.
If you're somebody like myself who tends to have their best ideas, not saying that my
ideas are always terrific, but among the ideas I have, some of the better ones arrived
to me while on my long Sunday run, I tend to do a long run or hike on Sundays.
Sometimes with a wait vest or something of that sort.
But when I'm in the state of essentially not directing my attention to any one thing
in my external environment, this is extremely key for reasons that now should be obvious.
Anytime we are directing our attention to a visual target or an auditory target, we are not
as able to engage in divergent thinking.
This is why I will sometimes listen to podcasts or to audiobooks while I go on these runs,
but for portions of these runs or hikes, I tend to turn those off and just focus on the
movement and focus on not focusing on anything in particular. And oftentimes I will stop
and write down ideas that suddenly or seemingly suddenly appear to me or geyser to the surface, I'll have an idea.
Sometimes those are good ideas, sometimes less good ideas.
The fact that that happens for me
and that the fact that many people are Pacers
or runners or come up with their best ideas
while in the shower or while engaging in activities
that don't require a lot of sensory attention
to one specific location, either visual or auditory, et cetera.
That is because it engages these
nigrostriadal pathways through movement, which then opens up this library of
ideas and allows the intersection of different ideas that normally would be
constrained to separate categories. One way to think about this by analogy would
be that you know when I was a kid you'd go to the library and nowadays you just go
online, but the different pages of different books on different topics are kept distinct from one another. That is bound
by different book covers and book ends, different shelves in the library. It's as if different pages
and elements from those books are now being combined in a pseudo random, not random, but in a pseudo
random way. And in that combination, new possibilities about ways
that information could be combined and implemented
start to arise.
So the tool that emerges from this is very simple.
And it won't necessarily apply to everybody.
But if you are somebody who finds that just sitting
in a chair and trying to be creative is very challenging,
some of you might benefit from, for instance,
if you are engaging in writing or you want to write,
to talk into the voice recorder of your phone while walking, or simply walking and not attending
to any one specific thing visually or through headphones.
And then as ideas surface, seemingly out of nowhere, which is how it happens, that you
could either put them into your phone by voice dictation or you could type them out if you
like.
The key thing is to not be distracted by other things in your phone, not to start going
on to social media or doing phone calls or looking at text messages, because that by definition
is going to take you out of this, what the biologist call a pseudo-random walk.
And this pseudo-random element is extremely important.
We know, for instance, that many circuits within the brain have what's called dedicated
point-to-point wiring.
So, for instance, the brain circuits that govern brain have what's called dedicated point-to-point wiring.
So, for instance, the brain circuits that govern your breathing, the brain circuits that
govern your heartbeat, the brain circuits that govern your specific movements once you
are an adult and allow for smooth directed movement are very precise, very little slop
if any in the wiring.
However, there are aspects of your brain circuitry.
Yours and everybody else's, I should say,
that are maintained into adulthood
that include a lot of extra wiring.
And these are fine wires,
they're not the major highways
between different areas, if you will.
So sort of like Google Maps has highways and streets
and little passages and alleys.
But it says if there's a little web
of additional possible pathways
cast over that entire thing.
The human brain maintains such webs of possible passage, and it's only during activities
such as walking, running, cycling, swimming, hiking, pacing, etc.
That the activation of those pseudo- pseudo random pathways starts to ramp up.
So this is a purely behavioral approach to engaging different elements within neural networks that
normally would not communicate with one another when we are completely still. So again, the practices
I talked about earlier of being completely still to raise dopamine and enhanced divergent thinking,
those I just want to reemphasize are designed to position
you, to ready you to engage in the kinds of activities like walking and pacing, etc. that
best facilitate divergent thinking.
So if you are somebody who wants to enhance divergent thinking, I would encourage you to
explore how different patterns of movement, in particular patterns of movement that don't
require any conscious attention to any one specific thing, allow you to access new ideas and new ways of combining existing
elements in whatever domain it is you want to be creative.
Now, this is also an opportunity to underscore something I said back at the beginning, which
is you are not going to come up with great works of music if you don't understand chords
and melodies and notes and music, those basic elements
have to be built up through some sort of formal or at least rigorous or regular training.
In the same way that you're not going to take a walk and then suddenly be able to paint
an incredible picture if you have no painting ability.
That is not going to happen.
What I'm talking about here are ways to enhance your capacity for divergent thinking, such
as NSDR, and ways to engage in divergent thinking, such as through certain forms of movement that don't require a lot of conscious attention to your surroundings or any one specific sensory target, and in doing so, enhancing your ability to be more creative in a domain for which you already have some degree of skill or even mastery. Now, in keeping with the theme of how to enhance our creativity,
there's a very exciting and yet parallel literature
to the literature that I've been describing thus far.
Now, I promise you that I'm not gonna open up
an entire library of new information related
to neural circuits and so forth,
but I would be remiss if I didn't mention
this parallel literature because it speaks very specifically
to some important practices that we can all use in order to enhance creativity and to do
so the first time and every time.
And this is really because certain scientists out there have really gone through the trouble.
I should even say the painstaking trouble of really trying to dissect what the creative
process is both for individuals and in groups, or even in pairs.
And so what I'm about to tell you is beautifully encapsulated in an article entitled,
a new method for training creativity, narrative as an alternative to divergent thinking.
So again, we've been talking about divergent thinking that's one pathway into the creative process,
but there are others as well. And as it turns out, they're not so distinct in terms of the underlying brain mechanisms. Nonetheless,
let me describe briefly how narrative can be used to train creativity
and to become more creative. And in order to do that, I'd like to just briefly
paraphrase or read from the first paragraph of this paper. So what I'm about to read
are the author's words, not mine. Quote, here's a paradox. According to current research,
young children are more imaginatively creative than adults,
and indeed that is true by the way.
Yet also according to current research,
creativity's main neural engine is divergent thinking,
which relies on memory and logical association,
two tasks that which young children underperform adults,
that is, children are not as good at divergent thinking as adults are.
So how could it be the authors are asking that children are more imaginative
and thus more creative than adults?
This can only mean that there are alternate pathways to creativity.
And indeed, that is the case.
And so what this paper really explores is other ways to access creativity.
And what they describe is what's called narrative theory.
And there's a number of different aspects to this narrative theory.
But they agree that the standard definition of creativity is the same one that we were talking
about before.
So we're not saying about a different form of creativity here.
We're talking about a different way to access creativity. They describe the definition of creativity as quote the ability to generate novel ideas that are useful
so the commonly accepted one and
What they cite as the basis for narrative theory is this breakthrough finding in the 1950s
This is the work of Gilford some people out there might be familiar with it
I was not at the outset of researching this episode
What this theory is from Gilford essentially states
is that there are different intellectual capacities
that are not captured by standard IQ tests.
I think that's generally accepted nowadays.
We know there's emotional intelligence.
We know there's a standard IQ, et cetera.
But the important element to understand
is that these authors were able to trace back
the idea of narrative training as a way to enhance
creativity long before Gilford in the 1950s all the way back to Aristotle. So this is incredible.
Narrative theory was actually birthed in 335 BCE in his writing called Poetics, which I think is
incredible at least to me that people long before us were thinking about creativity and what goes into creativity.
And what Aristotle said, what Gilford then elaborated on and what the authors of this paper further elaborate on and actually have developed training protocols for is the idea that there are three elements that we can use in order to enhance creativity. And those three elements are what's called world building.
I'll explain what these are in a moment.
Perspective shifting and action generating.
And right off the bat, the word action
should raise a flag for you.
And by that, I mean a positive flag, because once again,
we are back into the world, and therefore,
the neural circuits of movement and motion.
OK, so three elements of world building, perspective, shifting, and active
generating or what make up this narrative approach to creativity.
And I should mention that these authors and others are using such approach with
companies, with groups, with individuals.
So this is used in a bunch of different contexts to approach and enhance different forms
of creativity.
So let's talk first about world building techniques.
This is going to be immediately familiar to you
when you hear it, but one of the key elements of creativity
is to, at the outset, come up with some idea
that makes sense or is attractive to you
about how the world is different inside
of your creative endeavor.
So for those that write
science fiction or think about science fiction, there's some obvious aspects to this. But for those
of you that don't, maybe you come up with a narrative, for instance, in the context of storytelling
that in your world, we are the house cats, and the cats are actually the ones that are the curators
of the earth. Okay, so right there, there is a conceptual shift that the world
in which whatever creative idea is going to emerge is entirely different than the one that we actually live in.
So that sets a certain number of important constraints. It means certain things are now possible.
Other things are not possible that are very different from the world that we live in.
You can see the parallels here to kind of childhood imagination where
essentially anything can happen in the child's mind because they are unconstrained.
The second element is this perspective shifting techniques.
And the idea here is that not only are we supposed to have the reader or the listener or the observer or us explore for creativity and develop a creative idea by thinking differently, right, which is kind of a generic term
How do we actually think differently? But
rather than just say take the perspective of somebody else in terms of what they would see or do or say or think
Rather we are supposed to think about their underlying motivation. So we could do the world shift
That is the world structure shift from step one and then then in step two, you would ask yourself, okay, rather than write about or think about
or move from the perspective of myself, let's say you're feeling particularly happy that
day, you'd say, you know, I'm actually going to take the perspective of somebody who's
angry, but rather than just act angry, I'm going to think about what their motivation for
being angry is.
Maybe they had a breakup.
Maybe they were jealous.
Maybe somebody had a wronged them in some way.
Maybe they're just generally angry at the world for whatever reason.
And then operate from that motivational stance.
And this is a very interesting and powerful step
because what it really captures,
at least as viewed by me, the neuroscientist,
is it captures a whole set of neural circuits
about what that motivational state means because motivational states dictate a huge number of possible different outcomes,
but they really constrain the number of different actions and outcomes that any of us would engage
in.
Rather than saying, I'm going to view the world the way that someone else would view the
world by stating that we are going to be motivated by their set of motivations and not
our own, it includes a lot more possibilities
and yet not an infinite number of possibilities.
They are constrained in a logical way,
which is one of the key elements of creativity.
And then this third element, which is action-generating techniques,
is a really cool one that you will immediately notice
implications for the workplace, which is forced collaboration.
So inside of this thing that we're building here,
this kind of story, you create a novel rule for the world
that your story is going to exist in
or your music is going to exist in
or your sport will exist in.
Then you create this perspective shift
where you take on the motivation of someone else,
different than you.
And then you force collaboration between that person who has this alternate motivation, different than you, and then you force collaboration between that person
who has this alternate motivation, different from you, and someone else who has an entirely
different motivation.
And in doing so, you create these kind of, what are called creative collisions.
Now, they're collisions because they're crossing one another and something new has to emerge
from them.
They could be antagonistic, like we arguments fighting physical or verbal or otherwise.
They could be synergistic.
They could take on any number of different forms depending on the motivations and the
individuals that are involved.
But even though I just describe this in fairly top contour, what I just described is actually
the core elements of any story or any creative endeavor.
It's just that many stories are from the perspective of what we already know and believe and think the world to be. And our own perspective and the actions that we would
take given that world and that perspective. Whereas if we want to be creative, we want to think
outside of our usual framework and yet using elements that exist within us, right? No one has to
tell us the creative narrative. We're trying to come up with it on our own.
We want to essentially think in a childlike way,
how do children think?
Well, they have new, different,
or entirely novel concepts about how the world works,
but they was are bounded.
And this is a keyword, those are bounded.
They're not infinite.
It's not that anything can happen, right?
Some kids will say, we can fly and you can shoot lasers
out of your eyes. You can do all sorts of things.
There's unicorns, a candy falling from the sky.
At some point, if you don't bound the change in the world,
it just becomes pure chaos.
And even children don't do that.
So we need to bound the change and yet create
some alternate universe, if you will,
in which the story takes place,
or the creation of any kind,
doesn't have to be a story takes place.
Then there has to be a perspective shift, and this is very useful. This is actually a tool that
we can all use of trying to take the perspective of others, but not just asking what they would feel
or think or do, but ask, what is their motivation in life generally, or what kind of mood stance,
or goal stance, are they taking? Are they trying to extract from others? Are they trying to give to others? Are they very altruistic, etc., etc.? And then you take that
individual and you do that also for another individual or group of individuals. And you start
thinking about how those different individuals, because of their different motivational
states, would engage at the level of action, what they would do, what they would say, would
they mate, would they fight, would they, etc., etc. You think of any story, the story of Star Wars, the Greek myths, you think
of any story that has been created, which we consider great and novel works, and you
start to find these three elements, world building, perspective shifting, and action generating
techniques.
And so, well, this is, again, just a broad contour
of what this narrative approach involves,
I think it's a very important and very exciting one
because it gives us a formula, right?
We already know that divergent thinking and convergent
thinking are both elements of the creative process.
This is suggesting that whether or not it involves
divergent thinking or not, these authors seem to think
this is distinct from divergent thinking, that capturing some of the elements of creativity that are
present in childhood but that then tend to disappear as we start to assume identity, build
identity, and understand rules about the actual world we live in, all of those basic elements
of early childhood creativity can be reawakened.
And in fact, they have data to support the fact that they can be reawakened in adults in meaningful ways that can lead to new product design, new workplace interactions
and on and on.
That I find very exciting.
And as a consequence, I do intend to do an entire episode at some point on narrative
and storytelling and the role of narrative and storytelling, not just for sake of creativity,
but also for accessing neuroplasticity
and for enhancing memory and so on.
There's an entire landscape of literature and exciting tools and things to understand there.
But in the meantime, we will provide a link to this paper.
And for those of you that choose not to access the paper, simply understanding these three
aspects of narrative as an alternative to accessing creativity that is a dedicated and well understood or established world shift that you choose
perspective shifting and taking on the motivation of others and
creating some sort of landscape of exploration for what sorts of interactions would occur between that individual or groups of individuals and other
individuals that have other motivations and yet are still
living in this alternate world.
Those three elements we now know can be combined into what you or I or anyone would consider
important creative works.
So today we discussed creativity, this absolutely fascinating aspect to human brain function
that has allowed us as a species to develop everything from great works of art and music to
technological innovations that allow us to fly and allow us to access people all over the
world through little screen devices that we carry around in our pockets and on and on.
As I mentioned at the beginning of today's episode, I find creativity to be one of the
most fascinating aspects of brain function and And in particular, because we don't actually
know what the upper limits of creativity are,
and yet we understand that there are certain bounds,
there are certain requirements.
And the key requirement for creativity
is this aspect of utility.
Now that doesn't necessarily mean
that for something to be considered creative,
it has to be useful in the practical sense,
but it does seem that for something to be considered truly creative, it has to be useful in the practical sense. But it does seem
that for something to be considered truly creative, or especially creative in some cases, that
it reveals to us something fundamental about the way that we or the world works. We discuss
some of the neural circuits that underlie the different aspects of creativity, in particular
divergent and convergent thinking, as well as narrative building, and some of the tools and steps that can allow us
to better access divergent thinking
and convergent thinking,
and those tools include behavioral tools,
as well as pharmacology.
And we talked about narrative building
as a way to reawaken,
or I should say,
re-access the childhood creativity
that did indeed exist in all of us at some point in time.
If you're learning from Ender and join this podcast, please subscribe to our YouTube channel.
That's a terrific zero-cost way to support us.
In addition, please subscribe to the podcast on Spotify and Apple.
And on both Spotify and Apple, you can leave us up to a five-star review.
If you have questions for us or comments about the podcast,
or suggestions about guests that you'd like us to interview on the Hubertman Lab podcast, please put those in the comment section on YouTube. We do
read all the comments. Please also check out the sponsors mentioned at the beginning and at
various times during today's episode. That's the best way to support this podcast. As mentioned
at the beginning of today's podcast, we've partnered with Momentus Supplements because Momentus
Supplements are the very highest quality. They have single ingredient formulations, which turns out to be most effective in building
a supplement protocol.
And when I say most effective, I mean most biologically effective and most cost effective.
And we're fortunate that they ship internationally because we know that many of you reside outside
of the United States.
If you want to check out the supplements mentioned in today's and in other episodes of the
Uberman Lab podcast, supplements that are aimed at enhancing sleep, enhancing focus,
hormone support, etc.
You can go to live momentous spelled OUS, so it's live momentous.com slash Hubertman.
If you haven't already subscribed to the Hubertman Lab podcast, Neural Network newsletter, this
is a monthly newsletter that is completely zero cost that has summaries of particular
podcast episodes, as well as toolkits for things like enhancing sleep
and enhancing focus, dopamine, deliberate cold exposure,
and many other topics important to the listeners
of the Hubertman Lab podcast.
If you'd like to join the newsletter,
please go to HubertmanLab.com, click on the menu
and go to newsletter.
You provide your email to us.
We do not share your email with anybody else,
and as I already mentioned, it is completely zero cost.
If you're not already following us on Instagram, Twitter, Facebook, and or LinkedIn, please do so. It is
Hubert Minlab on all platforms. On all those social media platforms, I describe science
and science-related tools, some of which overlap with the content of the Hubert Minlab
podcast, but often which does not overlap with the content of the Hubert Minlab podcast.
Again, it's Hubert Minlab on all platforms. So thank you once again for joining me for
today's discussion all about the science
and tools for creativity.
And last but certainly not least,
thank you for your interest in science.