- Welcome to the Huberman Lab Podcast, where we discuss science
and science based tools for everyday life. [mellow music] I'm Andrew Huberman and I'm
a Professor of Neurobiology and Ophthalmology at
Stanford School of Medicine. Today we're talking all about habits. In particular, we're going to discuss the
biology of habit formation and the biology of how we break habits. I think we can all appreciate
the value of having habits. Habits organize our behavior into more or less reflexive actions so we don't have to think too much about performing the various
behaviors that, for instance, allow us to brush our teeth or which side of bed we
roll out of in the morning. And then of course, habits
can be more elaborate too. We can be in the habit of exercising at a particular time of day. We can be in the habit
of eating certain foods. We can be in the habit of
saying or saying certain things. But of course, there are many habits
that don't serve us well, or that perhaps even
undermine our immediate and long term health goals
and psychological goals. And even some habits that can really undermine
our overall life goals. So today we're going to talk
about making, meaning forming, and breaking, meaning
stopping, various habits. There's a lot of information
out there about habits. You'll find this in the popular sphere. There are books, there are
articles, there are workshops, and so forth. However, lesser known is that
there's a whole neuroscience of habit formation and habit breaking. And there's a whole field
of psychology devoted to understanding habit
formation and habit breaking. And within those scientific literatures, I think there are some real gems that, at least to my knowledge, we haven't paid too much attention to in the popular sphere. So today, we're going to talk about the
biology of habit formation and habit breaking. I'm going to boil these down
to some very explicit steps that anyone can use. My reasoning for doing
that is, first of all, it's the end of 2021. Many people are thinking
about new year's resolutions. They're thinking about leaving
some things behind from 2021 and previous. And acquiring some new behaviors, taking on some new challenges, and trying to bring new
things to their lives. But regardless of when
you're listening to this, the programs that I'll outline are grounded in the neuroscience and biology of habit formation. And they map very well to what the psychologists have described, in terms of habit formation and breaking. So today you're going to
learn a lot of science, you're also going to come
away with some practical tools and I'm certain that regardless
of your present state or goals, there'll be
something of value to you. 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 Athletic Greens. Athletic greens is in all-in-one vitamin, mineral, probiotic drink. I started taking Athletic
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Helix mattress for you. Let's talk about habits. And anytime we're talking about habits, that means our nervous
system learns something. Now, many people think that
habits are just like reflexes, but pure reflexes are things
like the eye blink reflex. You know, something comes towards your eye and you don't want it to get
in your eye, you'll blink. Or if you happen to
step on a sharp object, or get too close to
something that's too hot, you'll reflexively move away. Those aren't habits. Those are what we call
hard-wired reflexes. Habits are things that our
nervous system learned, but not always consciously. Sometimes we develop habits
that we're not even aware of until they become a problem or maybe they serve us well. Who knows? But the fact of the matter is that habits are a big part of who we are. What we do habitually makes up
much of what we do entirely. In fact, it's estimated that up to 70% of our
waking behavior is made up of habitual behavior. So, you can imagine that
there's a lot of biology, meaning cells and hormones and
neural pathways, et cetera, that are going to support
development of those habits. So if habits are largely, learned, consciously or unconsciously, we have to ask ourselves, what is learning? Well, learning is neuroplasticity. Neuroplasticity is simply the process by which our nervous system changes in response to experience. We have to ask, what changes? Well, what changes are the
connections between neurons. Neurons are just nerve cells. They communicate with one
another by electricity and by sending chemical
signals to one another that inspire the next
neuron and the next neuron to either electrically active or not. But at the end of the day, neuroplasticity is about
forming new neural circuits, new pathways by which certain
habits are likely to occur, and other ones are less likely to occur. So, we've got habits. We have that habits are learned, we have that learning
involves neuroplasticity, and that neuroplasticity involves changes in the connections between
neurons, nerve cells. Okay, so that describes
habits through the lens of neuroscience and biology, but as many of you are well aware, there are popular books about habits and there's a whole psychological
literature about habits, and those two areas point to some very interesting aspects of habits that I think are worth mentioning. First of all is this notion
of immediate goal-based habits versus identity-based habits. Immediate goal-based habits
are going to be habits that are designed to bring
you a specific outcome as you do them, so each and every time you do them. So for instance, it might be that you want to
develop a habit of getting, you know, 60 minutes of
zone II cardio each day, or perhaps 3-4 times per week,
as we head into the new year. I've talked before on the
podcast about the fact that the scientific literature and the health literature really points to the incredibly positive effects of getting 150 minutes to
180 minutes per week minimum of what's called zone II cardio. Zone II cardio is basically
any cardiovascular exercise that gets you moving,
and your heart pumping, and breathing, but not so hard that you
can't hold a conversation, and so that kind of puts
you at the threshold of just being just able
to have a conversation that's a little bit strained, but if you were to exercise
a little bit harder, you know, run a little
bit faster, et cetera, you wouldn't be able to
talk while you did it. There's a lot of literature
that points to that as a healthy practice. So maybe you're somebody that wants to get more of zone II
cardio, for instance. That would be an
immediate goal-based habit if your goal is to get that cardio, maybe 4 times a week. Every time you do it you
check off a little box and you say, "Okay, I did
it." You met the goal. That is different than
so-called identity-based habits where there's a larger,
over-arching theme to the habit, where you're trying to
become, quote unquote, "a fit person". Or you're somebody who
wants to be an athlete or something of that sort. It's where you start to attach
some sort of larger picture about yourself or what it
means for you to do that habit where there's both the
immediate goal, right? Complete the exercise,
complete the session, or whatever it is, check off that box. But that you're linking it
to some sort of larger goal. Now, why am I making this distinction? I mean, first of all, I'm not the one to first
make this distinction. Others have made the
distinction between identity versus immediate
goal-based habit formation. But the reason I'm
making the distinction is that pretty soon in our discussion today we are going to talk about dopamine, a molecule that's associated
with motivation and reward, that we make in our brain, and how different schedules
of dopamine release predict where we will
stick to a habit or not. And in particular, whether or not we will be able
to form that habit quickly or not. Now, this is absolutely
critical to understand for the following reason. Another thing that you'll hear
out there in the literature is that it takes 21 days to form a habit. Some people say 18, some people say 21, some people say 30 days,
some people say 60 days. So which one is it? Does it depend on the habit
that one is trying to form? Or does it depend on the person that's trying to form the habit? Well, it turns out that there's excellent
peer-reviewed data on this. There's a study published in 2010, first author Lally, L A L L Y. This study found that, for the same habit to be formed, it can take anywhere from 18 days to as many as 254 days
for different individuals to form that habit. The reason I bring this up,
is that I always get asked, "Is it true that it takes
21 days to form a habit?" "Is it true that your nervous
system changes in six days" "when you're doing something repeatedly?" And the answer is, as I mentioned before, it's highly variable. What I didn't tell you actually, is what specific habit
they were looking at in that Lally study. And it's interesting that
the specific behavior was a health-related behavior. That's pretty relevant
to our discussion here, on the podcast. Which was taking walks after dinner. There's actually a really nice literature showing that walks after a meal can speed glucose clearance
from the blood stream, can be beneficial for
not just weight loss, but cardiovascular health, et cetera. So a walk after dinner seems
pretty straight-forward, right? Well, in order to form that habit, it took some people 18 days
and other people 254 days. How did they know when
they formed the habit? Well, they were doing
it about 85% of the time and they also reported not having to spend that much mental effort in
order to get into to the mode of taking a walk after dinner. So, for those of you listening, some of you might be thinking, "I can't believe that it would
take certain people 254 days" "to get into that habit." As I said, people are highly variable and if you can't form one habit easily, it doesn't mean that you can't
form other habits easily. The mystery of why certain people can form certain habits
more easily than others? Probably has something to
do with how people manage what's called limbic friction. Now, limbic friction is not a
term that you're going to find in the formal neurobiological literature or even some of the
psychological literature. It's, frankly, a term that I coined to encompass a number of different pieces of the psychology and
neuroscience literature. Limbic friction is a short-hand way that I use to describe
the strain that's required in order to overcome one of
two states within your body. One state is one of anxiousness, where you're really anxious and therefore you can't
calm down, you can't relax, and therefore you can't engage
in some particular activity or thought pattern that you would like. The other state is one in
which you're feeling too tired or lazy or not motivated. Both of those states, feeling too alert and too calm, if you will, relate to the function of the so-called autonomic nervous system, a set of neurons and hormones
and chemicals in your brain and body that act as sort of a see-saw. You're either alert or calm. You're either asleep or stressed. Those two states are not
compatible with one another. You've probably heard of "wired and tired" but that's really once
you've been very stressed for a long time, to the
point where you're exhausted. What does the autonomic
nervous system have to do with any of this? Well, limbic friction is a phrase that can be used to
describe how much effort, how much activation energy you need in order to engage in
a particular behavior. So, using this Lally study as an example, some people would eat
dinner, and then say, "Oh, that's right, I've been
trying to develop the habit" "of taking a walk after dinner." "So, let's get up and go." Other people will feel like, "I just don't want to do it today." They're going to feel
too much limbic friction and that limbic friction
could arrive, again, from one of two sources. It could be because they
are too tired to do it or it could be because they're too anxious and distracted in order to do it. So, this is a key distinction. A lot of habit formation has to do with being in the right state of mind and being able to control
your state of body and mind. So as we march forward, what you're going to
find is that this phrase or this term, limbic friction, is going to be a useful metric or a way for you to touch in with yourself and address whether or not you are likely to be able to form a certain habit easily or whether or not it's going
to be very challenging. And I'm going to teach you a way to measure your degree of limbic friction. That is, how much activation
energy it will take in order for you to execute a new habit. And I'm going to teach you how to measure your limbic friction and activation energy for how likely it is that you're going to be
able to break a habit that you don't want to have. The other key concept for us to address that's really mainly found in the books and articles out there about habits, is this notions of what
I call linchpin habits. Linchpin habits are certain habits that make a lot of other
habits easier to execute. Now, the sorts of linchpin habits that I'm referring to are
always going to be things that you enjoy doing. I'll just give you an
example from my life. I happen to like exercise. Not all forms of exercise, but I happen to like resistance training and I happen to like running. So I'm personally in the habit of getting cardiovascular
exercise 3 or 4 times per week. Maybe 30-60 minutes per session. And I'm in the habit of
doing resistance training 3 or 4 times per week, typically also for about 45
to 60 minutes per session. Now, I enjoy those, and for reasons that I'll
get into a little bit later, I enjoy those activities
typically early in the day because of the neurochemistry and the various types
of hormones, et cetera, that are associates with
performing those activities. But I really place those
activities under the umbrella of what I call linchpin habits. Why? Because those
particular habits are easy to execute because I enjoy them. But they also make a lot of
other habits easier to execute. Things like being alert for work, things like making sure that I get good sleep the night before, things like hydration, things like making sure
that I eat the foods that are better for me than
some of the other foods that maybe I would more
reflexively reach to if I weren't doing that training. So certain habits act as linchpins, meaning that they shift
a lot of other things. They can control and
bias the likelihood that, in this case you or me, will perform other habits
that are harder to access, that we have less of an affinity for. So again, there's three concepts that
we need to include here. We've got identity-based
versus goal-based habits. We've got the concept that
typically different habits take different periods of time to adopt, depending on the person and the habit. And that there are these,
what I call linchpin habits. Certain habits that make other
habits easier to execute. And those linchpin habits always, always, always are
things that we enjoy doing. So our goal throughout this
episode is for you to identify which habits are easy for you to perform, which ones are hard for you to perform, and which habits you want to break. If you want to grab a pen
and paper, you can do that. Or if you want to dictate
some of that into your phone, you can. But right now, actually, if you just want to think
about these concepts, you can always go back later, I'll be sure to spell
out a very specific way that you can chart out a map towards forming particular habits and breaking particular habits later on. What I'd like us to do at this point is to take that concepts of limbic friction and for you to ask yourself what habits you perform on a daily basis, and these could be things as basic as brushing your teeth before breakfast, or brushing your teeth after breakfast. It could be, for instance,
that you get exercise or you get it at a particular time of day, or even that you take a
particular route to work, right? We are very habitual and we tend to do things
more or less over and over in the same way, unless
we intervene in ourselves. That's just the way that we are wired. So now I'd like you to shift to thinking about a
particular aspect of habits and that's habit strength. Now, you all have different habits. You probably brush your teeth
at a particular time of day, you probably exercise at
particular times of week, you probably go to the refrigerator
in a very habitual way. We are incredibly habitual organisms. Unless we intervene in our habits, they tend to carry out the
same way that they always have once they've formed. So you can do this exercise now, you don't have to write this
down if you don't want to, but you certainly are welcome. We're going to evaluate
what's called habit strength. That's not a concept that I created. Habit strength is something that you will find in the
psychological literature. Habit strength is measured
by two main criteria. The first, is how
context-dependent a give habit is. So, context dependence is, if you go from one
environment to the next, do you tend to do the same thing, in the same way, at the same time of day? So, for instance, brushing your teeth firs
thing in the morning. Maybe some of you do
that before breakfast, maybe some of you do that later, maybe some of you, like me,
don't even eat breakfast. But when I travel, I tend
to brush my teeth at more or less the same time of day
relative to when I wake up as I do when I'm at home. So it's context independent. So it's a very strong habit, right? There are certain behaviors, like perhaps what you eat, or, you know, perhaps how you dress, that are context independent, that you might perform
one way in one context, and another way in another context. The other aspect of habit strength is how much limbic friction is required to perform that habit on a regular basis. This is extremely important because if you are in the
process of building habits and consolidating those habits, then it's probably going to
take more limbic friction to execute those habits. What do I mean by that? Well, let's say you set out to get, let's say 45 minutes of zone
II cardio exercise every day, 5 or maybe even 7 days a week. Well, if at first you're highly motivated, limbic friction might be pretty low. Limbic friction is how much top-down, meaning from your fore-brain
to your limbic system, the part of you brain that
generates autonomic responses, how much limbic friction, meaning conscious over-ride
of your state is required in order to engage in
that particular behavior. So, if you're feeling particularly tired and you don't want to get out of bed, and you don't want to go out
and do your zone II cardio, then there's a high
degree of limbic friction. It takes, some people
think of it as motivation, but motivation is a
bit of a vague concept, whereas limbic friction involves
specific neural circuits and you can think of it in a
more or less quantitative way. You can think of that
your body is very tired, so it's going to take more limbic friction in order to get into action. Right? You're going to have to
overcome more limbic friction, excuse me. Whereas if you're very, very alert, there's less limbic friction because you're moving toward something that's action oriented. However, the inverse is also true. Let's say that you are
trying to get into the habit, or you're in the early
stages of forming a habit to meditate regularly. That's a pretty quiescent
or calming activity, so if you're somebody
who comes home from work and you're very anxious and
you have a lot of work to do and you have to deal
with a bunch of things, there's a lot of limbic
friction to overcome in order to get into that calm state. So these two aspects, context dependence, whether or not you're like to do the thing regardless of where you are. Right? On travel, at home, on vacation, with people around, not
people around, et cetera. And how much limbic friction is required to execute that habit, will tell you whether or
not that habit is deeply or just shallowly embedded
within your nervous system. The goal of any habit that we want to form is to get into what's called automaticity. Automaticity is fancy language for the neural circuits can
perform it automatically, and that's the ultimate place to be. All right, if you have all these goals and things that you want to
be doing on a regular basis, you'd love for them to be habitual because it takes less
mental and physical effort, less limbic friction, in order to execute those. And so much of what's out there, again in the popular
psychology literature, in books that you'll find
on the bookstore shelf and on Amazon, and in the airports, are about how to get from that mode of high
degree of limbic friction to automaticity. And they offer a number of different ways, I think many of which are useful, trying to get you to organize
different types of habits into different bins, like
value-based, and goal-based, and trying to persuade you that structuring habits at
the particular times of day or in a particular way are
going to be beneficial, and indeed, I think they
have helped a lot of people. So what I'd like to do is to
take the scientific literature of how the nervous system learns and engages in plasticity, and apply that to habit formation, habit maintenance, and if so desired, how to break particular habits. I'd like to give you a particular tool that's gleaned from the
research psychology literature. I should mention that I learned about this from an excellent review article that's available online. It's called Psychology of Habit. The authors are Wendy
Wood and Dennis Ruenger, this is published in Annual
Review of Psychology. The Annual Reviews series is
a very high quality series. There are annual reviews of neuroscience, annual reviews of psychology, annual reviews of nutrition
science, et cetera. For those of you that are interested in
exploring review articles that are grounded in hundreds of quality, peer-reviewed studies, the Annual Review series
is really terrific. Certainly among the best, if not the best. And they also tend to be quite
long and quite comprehensive. So this review, Psychology
of Habit by Wood and Ruenger, is excellent. And here I'm more or less
paraphrasing from them, so I want to be clear that
these are their words, not mine. They're talking about the various ways that habits form in the nervous system and they mention, with
each repetition of a habit, small changes occur in the
cognitive and neural mechanisms associated with procedural memory. So I just want to talk for a second about what procedural memory is. In the neuroscience of memory, we distinguish between
what's called episodic memory and procedural memory. Episodic memory is a recall
of a particular set of events that happened, whereas procedural memory is holding in mind the
specific sequence of things that need to happen in order for a particular
outcome to occur. So think of it like a
recipe or a protocol, or for the sake of exercise, it's like sets and reps, or a particular course that
you're going to run or cycle, or the number of laps you're going to swim and how you're going to perform it. It's very clear that for anyone
trying to adopt new habits, getting into the mindset of
procedural memory is very useful for overcoming that barrier
that we call limbic friction. How do you do that? Well, a simple visualization exercise, or it doesn't even have
to be done eyes closed. You know, often times we
hear visualization exercise, you think about sitting in a
lotus position, eyes closed, you know, trying really
hard to visualize something. Doesn't need to be anything like that. It can simply be, if you are
deciding to adopt a new habit, to just think about the very
specific sequence of steps that's required to execute that habit. And I'll use a trivial example, but this could be applied to anything. Let's say I want to get into
the habit of making myself, or someone else in my household, a cup of espresso every morning, I would actually think
through each of those steps. Walk into the kitchen, turn
on the espresso machine, draw the espresso. Walking through each of those
steps, from start to finish, and it turns out just that
simple mental exercise done once can shift people towards
a much higher likelihood of performing that habit regularly, not just the first time, but as they continue out into the days and weeks that follow. So that's remarkable to me and the literature is really robust. Just one mental exercise
of thinking through what are the sequence of steps required in order to perform this
habit from start to finish can shift the likelihood of
being able to perform that habit from unlikely or moderately likely, to very likely over time. And that's because it
pulls from this process that involves our
hippocampus and our neocortex and other areas of our
brain and nervous system, that engage in procedural memory. It shifts the brain towards
a mindset, if you will. It's more of a neural circuit
set, would be more accurate. But a mindset/neural circuit set of doing things in a particular sequence, which allows that limbic
friction to come down and increases the likelihood that we're going to perform that thing. Simple tool but very powerful too, according to the psychology literature. And actually, the cellular
and molecular mechanisms that underlie that sort
of procedural memory, stepping through phenomenon are known. In this article I mentioned,
this beautiful review, they talk about so
called Hebbian learning. Donald Hebb was a psychologist in Canada and birthed this field
that has now lasted, gosh, more than 50 years and
is still very strong in neuroscience and psychology
of Hebbian learning. Hebbian learning is when
particular neurons are co-active, meaning when they fire together, they tend to strengthen their connections with one another. And it has a number of different cellular and molecular features that we don't have to go into in detail, but for those of you that want to know, I know some of you are hungry for a little bit more neuroscience, this involves things like NMDA receptors and methyl-D-aspartate receptors. NMDA receptors are
really important I think for everyone to understand. So I'll just tell you a
little bit about them. These are receptors that
are on the neuron's surface and normally they don't contribute much to the activity of those neurons. Those neurons are perfectly
capable of doing their thing without activation of this NMDA receptor. But when a neuron gets
a very strong input, a strong stimulus, that NMDA receptor triggers
a number of mechanisms that recruit to the surface of the
neuron more other receptors. In other words, it makes
that neuron more responsive to input in the future such that it doesn't
require so much input. In other words, it takes a neuron that is very unlikely to fire and makes it more likely to fire. So this procedural stepping through of the steps of the recipe or the series of actions
steps that are involved in sitting down to study
and writing for an hour, or generating exercise, whatever is the habit that
you're trying to learn. When you're doing that exercise, it's not as if your nervous system thinks you're actually
performing that behavior. Your nervous system isn't stupid. It's actually a lot smarter than that. It knows the difference between
a thought and an action, but when you do that, it sets in motion the same neurons that are going to be required for the execution of that habit. And so when you actually show
up to perform that habit, it's as if the dominoes fall more easily. It's a lower threshold, as we say, in order to get the habit to perform. So, Hebbian learning, NMDA receptors, all that nuts and bolts stuff. Really the guts of the
mechanisms of how this works. But for those of you that just want to be more habitual about certain things, be able to perform certain
things more reflexively, that you would like in your life, simply take the time,
do it once, maybe twice, and just sit down, close
your eyes if you like, and just step through the procedure of what it's going to take in
order to perform that habit. The psychology literature, as I mentioned, and also the neuroscience literature, strongly supports the fact that it is going to make it far easier for you to adopt and maintain that habit. And if you are somebody who
used to perform a habit, and you don't understand
why you dropped it, and you're frustrated with yourself, and you're trying to figure out how you can get back into that habit, well by all means, lean right back into that habit, but if you're having trouble doing that, also just use the
procedural memory exercise in order to shift your nervous system towards a higher likelihood that you will return to that habit just the same way I described for trying to initiate a new habit. So now I'd like to discuss a second, and what I think is perhaps
the most powerful tool for being able to acquire
and stick to new habits. This tool is rooted in what
we call neural circuits and I do think it is important
to understand a little bit about how those neural circuits work. For those of you that are saying, "Just tell me what to do." I have to say, as I always say, understanding a little bit or
a lot of underlying mechanism will help solidify these concepts for you and will help ensure that the tools that I offer are going to make sense and that they're going to make sense in differing contexts and for different types of habits that you're tying to learn. So, rather than just tell you what to do, I'm going to tell you how
this particular tool works, and then in doing that, you should be able to
apply it to any habit, under any conditions. The tool that I'm referring to is something called task-bracketing and the neural circuits
associated with task-bracketing are basically the neural circuits that are going to allow you
to learn any new type of habit or break any habit that
you'd like to break. We have in our brain a
set of neural circuits that fall under the umbrella
term of the basal ganglia. The basal ganglia are
involved in action execution, meaning doing certain things, and action suppression,
not doing certain things. In the experimental realm, these are referred to as go, meaning do, or no go, don't do, certain things. And some of us fall more into the category of we find it very easy
to do certain things, but harder to not do other things. Some people have a lot
of no go type circuits that are very robust, and they have a lot of
behavioral constraint, but they have a harder
time getting into action. And some people have a
perfect balance of both, but I've never met one of those people. So again, drawing from,
more or less paraphrasing from this beautiful review
that I described earlier in Annual Review of Psychology, excuse me, by Wood and Ruenger, task-bracketing involves a
particular set of neural circuits within the basal ganglia, so I'm going to describe this
here, again paraphrasing, a sensory-motor loop. Sensory means just input
coming in about sight, sounds, taste, et cetera. And then the motor systems, the systems of the brain and
body that generate action, taking that information
and generating action. So it turns out that there's
an area of our basal ganglia called the dorsolateral striatum, we can use the acronym DLS. Again, dorsolateral striatum. Dorso means up. Lateral means to the side. So dorsolateral. And striatum is a subdivision
of the basal ganglia. And it's very important for the establishment of behaviors that are associated with a habit, but not necessarily the habit itself. And beautiful studies in
both animals and humans that record the activity in
the dorsolateral striatum find that the dorsolateral
striatum is associated, meaning it becomes active at the beginning of a particular habit, and at the very end and
after a particular habit. Hence the phrase task-bracketing. It brackets the habit. Now, other sets of neurons
are going to be active during the actual execution of the habit, but what the literature on
the dorsolateral striatum tells us is that we have
particular circuits in our brain that are devoted to framing the events that happened just before and as we initiate a habit, and just after and as
we terminate a habit. In other words, it acts
as a sort of marker for the habit execution, but not the execution of the habit per se. This is very important because task-bracketing
is what underlies whether or not a habit will be
context dependent or not, whether or not it will be strong and likely to occur even if we didn't get good
night's sleep the night before, even if we're feeling distracted, even if we're not feeling like
doing something emotionally, or if we are, you know,
completely overwhelmed by other events. If the neural circuits
are task bracketing, are deeply embedded in us, meaning they are very robust
around a particular habit, well then it's likely
that we're going to go out for that zone II cardio no matter what, that we're going to brush
our teeth no matter what. I'm fact, brushing our teeth
is a pretty good example because, for most people, even if you got a terrible night's sleep, even If everything in
your life is going wrong, chances are, unless you're very depressed, if you're going to leave to work, or even if you're not, that you're going to still
carry out the behavior of brushing your teeth in the morning. I would hope so, actually. But you are probably less likely to perform particular habits that are not what you deem as necessary. But if you think about it, brushing your teeth, exercise,
eating particular foods, maybe engaging socially
in particular ways, you are the one that places
any kind of value assessment on which ones are essential, and which ones are negotiable. So task-bracketing sets a neural imprint, a kind of a finger print in your brain, of this thing has to happen
at this particular time of day so much so that it's reflexive. And as we'll talk about in a moment, there's a way that you can
build up task-bracketing so that regardless of what
it is you're trying to learn, there's a much higher probability that you're going to do that thing. And when I say learn, meaning let's say you're
trying to acquire a habit that for you is really challenging. Maybe it's that you're going
to write for an hour a day on a book project that
you've been thinking about or you're going to work on mathematics, or you're going to do any sort of thing that for you there's a
lot of limbic friction. While it is important to think
about the sequence of events that would be required in order
to engage in that behavior, that procedural memory
visualization exercise we talked about before, that will help, there's a way also that you
can orient your nervous system towards this task-bracketing process, so that your nervous system is shifted or oriented towards the
execution of a given habit. So this is sort of like warming
up your body to exercise. When the dorsolateral striatum is engaged, your body and you brain are
primed to execute a habit and that you get to consciously insert which habit you want to perform. So in order to leverage
the neural mechanisms of task-bracketing, in order to increase the likelihood that you're going to
perform a particular habit, I have to break it to you that one thing that you've
probably heard over and over about habit formation is not true. And what I'm referring to is this idea that if you're very specific
about exactly when you're going to perform a particular habit, that you're more likely
to perform that habit. And while that is true in the short term, it is not true in the long term. And the reason for that is
that our nervous system tends to generate particular kinds of behavior based not on time, but on our state. Meaning what level of
activation is taking place in our brain and body. How much focus we happen to have, how fatigued we are, how energized we are. So while schedules are important, it's not the particular time of day per se that's going to allow
you to get into a habit, and form that habit, and
consolidate that habit. Rather, it's the state that your brain and body are in that's
important to anchor yourself to. So now I'm going to offer you a tool. It's actually an entire program by which you can insert
particular habits and activities at particular phases of the day, not times of day, but phases of the day, because it turns out that
particular phases of the day are associated with particular
biological underpinnings, chemicals and neural
circuits and so forth, and in doing so it will
make it far more likely that you will be able to
regularly engage in these habits and activities over a long period of time. And whether or not that
will move you from somebody who ordinarily would take
200 days to form a habit to one of those 18 days to habit people in that earlier study I
mentioned, I don't know. But I am certain that will
have a significant shift on allowing you to engage in
particular habits more easily and to consolidate those
habits more quickly. So the program I am about to describe, I formulated for you based on
the neuroscience literature, and the psychology literature of learning, and this concepts of task-bracketing. It involves the 24 hour days
into what I call three phases. The first is phase one, which is 0 to 8 hours after
waking up, approximately. Okay, you can put a plus
or minus 30 minutes on this for yourself. The second phase is the
9 to 14, maybe 15 hours after you wake up. And the third phase is 16
to 24 hours after waking up. So we've taken the 24 hour cycle, we've carved it up into three phases, phase one, phase two, and phase three. Now, everything I'm describing, or at least the way I'm
going to describe it, is based on what I would
call a typical schedule, diurnal schedule. You've heard of nocturnal? Well, we are diurnal. Most of us are asleep at night
and awake during the day. I do realize that a number
of people have shift work or they have newborns or other reasons why they have to be up in
the middle of the night and sleeping during the day. If that's the case, please listen to the
episode we did on jet-lag and shift work because
that has a lot of tools specifically for that population. But most people go to sleep
somewhere around 10:00 PM, plus or minus two hours, and wake up some time around 7:00 AM, plus or minus two hours. So today, I'm going to
use the to bed at 10:00 PM and a wake up time of 7:00
AM as the framework for this, but you could adopt it easily
to your particular schedule. Phase one, which again, is
0 to 8 hours after waking, has a particular neurochemical signature. Regardless of what you do, the neuromodulators norepinephrine as well as epinephrine, so that's noradrenaline and adrenaline, as well as the neuromodulator dopamine tend to be elevated during
that first 0 to 8 hours after waking. There are a number of reasons
for this related to the fact that also cortisol is higher
in our brain and bloodstream, it's a healthy level of
cortisol upon waking, body temperature is increased, et cetera. And there's several things that perhaps we should all be doing, I've talked about many of
these on the podcast before, that in addition to those chemicals, further support an
alert and focused state. And I'll just list those off. I've done many podcasts on each of these if you'd like to access those
podcasts you can find them in the menu of podcasts on YouTube, Apple, Spotify, et cetera. They involve, for instance, viewing sunlight or
bright artificial light if you can't access sunlight, within the first 30 minutes of waking. Physical exercise of some kind in this phase of the day,
0 to 8 hours of the day, ideally pretty early in that phase, but, you know, if it has to be at the 7
to 8 hour transition point that's fine too. Cold exposure in the form
of cold showers or ice baths or outside with minimal clothing, appropriate yet minimal clothing. Caffeine ingestion. Fasting, for instance,
not ingesting calories, also will lend itself to
increased norepinephrine and dopamine, et cetera. If you are going to consume foods, foods that are rich in
things like tyrosine, which is a precursor for dopamine. You can look up foods
that are high in tyrosine. And for those of you that are
interested in supplementation and like to use those routes, things like alpha GPC or
phenylethylamine, think, or L-tyrosine, if that's in keeping with
what you're able to do. Of course, consult your doctor if you're going to rely
on supplementation. What's this all about? Well, the already elevated norepinephrine and dopamine, the sunlight, exercise, cold exposure, caffeine,
tyrosine, et cetera, all of those place the
brain and body into a state in which you are better able, or I would say, more easily able, to engage in activities that have a high degree limbic friction and where you need to
override that limbic friction. Right? We've heard that the
morning is kind of sacred, conquer the hardest things
first thing in the morning, and that's been discussed in
the pop psychology literature and in the habit formation literature merely from the perspective of get it out of the way so you can feel good about having done it. But what I'm referring
to is quite different. What I'm referring to is
a particular phase of day that after rising, after
waking up, that is, for 0 to 8 hours, right,
in that first phase, your whole system is
action and focus oriented. And we know that when you're
action and focus oriented and because of the neurochemicals that are naturally released
in your brain and body that you will be more likely
to overcome any limbic friction that stands in the way of
performing particular habits. So, as you list out or think
about the various habits that you'd like to adopt in
your life, take the habits for which you know
there's the highest degree of limbic friction, they are the hardest for you to engage in, they require the most activation energy, and put those in this 0
to 8 hours after waking. This will greatly
facilitate your performance of those new habits. I'm certain of that. And in addition to that, by doing them in this
particular phase of the day, not necessarily the same time, I mean, if you want to be very habitual, and you want to do,
you know, the exercise, or the sunlight viewing
always at the same time, or you want to do, you want to drink your caffeine always at the exact
same time, that's fine, but by placing them in this broader window of 0 to 8 hours after waking, what you're doing is you're
creating task-bracketing. You're making it such
that your nervous system will predict when you are going to lean in against limbic friction in order to perform
particular types of habits. And this is very different than saying, "I'm always going to run" or, "I'm always going to study from
10 to 12 AM every morning." That's great, and if you
can do that, terrific. But the literature indicates
that people who do that, who are very rigid about
when they do things tend, because of context dependence, to not necessarily stick
to those habits over time. Some people do, but
many, many people don't. So think about the hardest habits to form and the habits that you most want to form that are hardest for you
to adopt and to maintain and I highly suggest
placing those somewhere within this phase one of
0 to 8 hours after waking. Now of course, some of
the things I listed out, sunlight viewing, exercise, cold exposure, caffeine, fasting, those might be the
actual habits themselves, but here I realize, or
rather I want to acknowledge that many people, including myself, are doing some or all
of these things already and many people, including myself, are trying to adopt new habits that don't fall into the category of just trying to set your overall state. Again, norepinephrine, dopamine, and all these neural systems will be greatly elevated in
this 0 to 8 hours after waking. However, the other things I mentioned, sunlight exposure,
exercise, cold exposure, caffeine, fasting, if that's for you, or if you're eating during that phase, eating things that contain some or elevated levels of tyrosine, maybe supplementing alpha
GPC or L-tyrosine, et cetera. All of those things further
facilitate the neurochemistry and therefore the state of mind that's going to be ideal for
leaning into limbic friction and overriding that limbic friction so that you can regularly
perform that habit. What we're really talking about here is leveraging neural systems in order to help you make it more likely that you're going to be able to engage and maintain a particular habit. So what I'm referring to as
phase one of each day is useful for acquiring certain habits, but there are other phases of the day, and those turn out to be useful for acquiring other types of habits. Phase two, as I mentioned, is about, again these aren't specifics, but about 9 to 14 or
15 hours after waking. During this phase of the day, because of the circadian
shifts in our biology, the amount of dopamine and norepinephrine that's circulating in our brain and bloodstream tends
to start to come down and levels of cortisol
tend to start to come down. That's the ideal circumstance. In fact, you don't really want elevated
cortisol late in the day. That's actually a signature of depression and anxiety and a number of
other unfortunate things. So, 9 to 14 hours after waking dopamine and norepinephrine and cortisol
are starting to taper down, just naturally. And a different neuromodulator, serotonin, is starting to rise. Serotonin is definitely
going to be highest in this second half of the day and tends to lend itself to a
more relaxed state of being. Now of course, I do realize that some people
are less of morning people and do find that they really come alive and awake in the afternoon, but most people don't
fall into that category. Most people feel more
alert early in the day, even anxious early in the day, and then, as the afternoon progresses, they tend to be a bit more
sleepy, a bit more relaxed, a bit more calm. There's certain things that we all can and should do during this
phase two of each day that lend themselves to a state of mind and a state of body that
is going to be beneficial for the generation and consolidation of certain types of habits. What are those things? First of all, as the day goes on, you should try if you can to start tapering the amount
of light that you're viewing. Now, this doesn't mean putting yourself into dim light at 3 o'clock
4 o'clock in the afternoon. That's certainly not the case. Simply that you want to
start tapering off the amount of really bright light
that you're getting, unless it's sunlight. Talked about this before on the podcast, but if you haven't heard, viewing the sun as it's at
what we call low solar angle so it's headed toward the horizon, you don't necessarily
have to watch the sunset, although that can be nice. But getting some sun light in your eyes in the second half of the
day can also be beneficial for a number of brain systems
and psychological systems so you can get some
some light in your eyes, you can certainly have
artificial lights on, but you want to start dimming those lights and bringing them actually
physically lower in the room because the neurons in your eye that view the upper visual field they actually trigger
this alertness mechanism in the brain and body. And in the second half of the day, even if you're humming
around and doing work at 3 or 4 or 5 or even 7 PM, you are probably headed toward
sleep a few hours later, so things like limiting
the total amount of light if you can, things like NSDR, non-sleep deep rest, another thing that I've
talked about on this podcast. If you haven't heard about this before, non-sleep deep rest is an umbrella term for things like
meditation, for Yoga Nidra, a very powerful science supported tool for teaching you how to relax, things like self-hypnosis which might sound a little
kooky to some of you, but actually is a clinically based tool for which there's a lot
of scientific literature. If you're interested in that there's a great free
resource called Reverie, R E V E R I E .com. There's a app for both Apple and Android. This is an app that was
developed by colleagues of mine and researchers at Stanford
School of Medicine. You can do these short
15 self hypnosis script, as they're called. They can teach you how to relax yourself, there's even one for focus,
for sleep, for chronic pain, Again, all very strongly supported by quality peer-reviewed literature. So things like Reverie, meditation, things like heat and sauna,
hot baths, hot showers. Those are terrific things
to do in the second half of the day, they tend to support this serotonergic, or high serotonin like state and lend themselves to
more calm and relaxation. For those that are interested
in supplementation, there's always ashwagandha, which reduces cortisol, again peaks in cortisol
late in the afternoon and evening are associated
with depression, anxiety, and so forth. Ashwagandha has a pretty potent
cortisol inhibiting tool. I personally don't use it very often and I caution people about using it for longer than two-week periods of time without taking some breaks. You can look up more about
ashwagandha on examine.com. There's a lot of traffic literature with links to studies there. But basically this phase two of the day is one in which you're
alert, you are present you are working, you
are engaging socially, you're cooking dinner probably, paying attention to a number of things, but you should really be trying to taper off your stress level. So how do you leverage
phase two of the day for habit formation? Well, given what we know about the neurochemistry
of learning and memory, given what we know about task formation and its reliance on certain
forms of neuroplasticity, the second half of the
day is a terrific time to take on habits and things
that you're already doing that require very little
override of limbic friction. So these might be things that
categorize in common terms as kind of mellower activities. It might be journaling, it might be that you
already are performing music or I should say,
practicing music regularly, but there's a particular type of music that is hard for you or that you're working on a
particular piece of music, or you're trying to learn a language. Something that's a little bit challenging, but doesn't require a ton of energy in order to override that limbic friction. The second half of the day is
a much better time to do that. Less resistance, as we might say. But of course, resistance
has a neural substrate and the reason for doing those things in the second part of the
day, the so-called phase two, as I've called it, part of the day is because your ability to override resistance
is really diminished in this second phase of the day. Some of you might say, "Whoa wait," "I like to exercise in the
second half of the day." "That's actually when I
have the most energy." "That's when I feel warmer" "I'm not a morning exerciser." That's absolutely fine, but what I'm referring
to is the acquisition of new behaviors and placing those consistently
at the second half of the day in order to engage these
task-bracketing mechanisms that I talked about before. One of the hallmark features of those basal ganglia circuits for go and no-go is that they are associated with certain neurochemicals,
dopamine and serotonin, acetylcholine, and other neurochemicals. And by placing particular habits at particular phases of the day, those neurochemical states
start to be associated with the leaning in and
the process of beginning, and as I mentioned, ending
those particular habits. And in doing so they shift
the whole nervous system toward being able to predict that certain things are going to happen at particular times a day, that you're going to be leaning very hard against limbic friction early
in the day in phase one, and that you're going to be doing things that require less conscious
override of limbic friction in phase two. And in doing so, set up
task-bracketing system so that the individual
habits that you're learning or that you're trying to learn have a much greater
probability of being executed and consolidated, meaning that pretty soon that they will just naturally become reflexive. And as with phase one, many
of the things that I mentioned that support this, what I'm
calling a serotonergic state or more relaxed state in phase two, things like seeing
sunlight in the afternoon, but not a lot of bright light
from artificial sources, things like NSDR, things like heat and sauna, hot baths et cetera, ashwagandha, again all of those things
themselves could be habits that you're trying to adopt, right? In that case, do those if
you'd like to explore them. They are quite beneficial
for a number of reasons, not just related to execution
of particular habits in phase two of the day, but also for improving quality of sleep and consolidating any learning that you might have
triggered earlier in the day. I've talked about that before, but just briefly, as a relevant aside, neuroplasticity involves
triggering the neural plasticity, setting it in motion, but the actual rewiring of the brain and the reconfiguration of neurons that will allow that
learning to be reflexive, that actually occurs
during states of deep rest, like an NSDR and like deep sleep. And I should just mention, for those of you that can only exercise or prefer to exercise in
phase two of the day, right, 9 to 14 hours or 15 hours after waking, that's absolutely fine. However, because of
the importance of sleep and in particular deep
sleep throughout the night for not just neuroplasticity, but recovery of muscle and other tissues that are taxed during physical exercise, if you do train in phase two, I highly recommend, highly recommend that you start doing some
NSDR activity after you train, within an hour or two, because that will allow
you to taper down and relax so that you can get into
the next phase we're going to talk about, which is phase three. Phase three of the 24-hour schedule runs from about 16 to 24 hours after waking. During that period of time, there are few things that are going to support
being in a state of mind, state of body that are going
to allow neuroplasticity to occur, that are going
to allow the rewiring that you've triggered during
the waking part of the day to actually take place. Those things are very low to no light, meaning keeping your environment very dark or very, very dim. I don't think it's
necessary to sleep in a room that's complete blackness. I think that's a little bit overkill, but for most people keeping the room dark and keeping the room temperature
low is very beneficial for getting and staying in deep sleep. The body has to drop
by about 1 to 3 degrees in order to get into
sleep and stay asleep, so low light, low temperature environment, you can always pile on blankets of course if you don't want to be cold at night, you want to be warm enough, but you want your environment to be cold. Typically people aren't eating
in the middle of the night, although one thing that can
be useful is to make sure that you're at least well-fed enough when you head into this third
phase of every 24-hour day that you're not awake
because you're hungry. A lot of people recommend putting a gap between your final bite of food and when you got to sleep at night. Some people say that
gap should be 4 hours, other people say 2 hours, if you're me, I generally
have something, I don't know, within 2 hours or 90
minutes of going to sleep, but it's not a big meal,
but that's just me, and I fall asleep and stay
asleep fine with that. You have to experiment for yourself. I've talked about supplements that can support sleep in
previous episode of the podcast, things like magnesium threonate, or magnesium bisglycinate, things like theonine, apigenin. If you'd like to read more about those, we actually have a newsletter that I'll just quickly refer you to this is the Huberman Lab
Neural Network Newsletter, you can sign up for it by
going to hubermanlab.com, it's very easy to find, but even if you don't sign up, you can go to the toolkit
for sleep that's listed there and that tool kit is not just supplements, that tool kit is a number
of different things, both behavioral and supplement-based and nutrition-based, et cetera, that can allow you to get in to sleep and to stay asleep more readily. It's totally zero cost, you can find that again
at hubermanlab.com. So things like low light, low temperature, the supplements I mentioned, adjusting your eating
schedule appropriately, obviously not drinking caffeine
in the middle of the night or too close to bed, that's going to be critical. In fact, ideally you
wouldn't ingest any caffeine in phase two of the day, so that you could get into
this deeper state of rest in which habit formation and
neural plasticity can occur. What if you wake up? The way I've cast phase three is that you're supposed to
be in this deep slumber, you're not supposed to wake up at all, you're supposed to be in low light and your brain is rewiring and those habits are getting
consolidated, et cetera. Well, if you're like me, you probably get up once
in the middle of the night. Maybe go use the restroom. Perfectly normal, perfectly normal, but a lot of people have
trouble falling back asleep. Very important if you get up
in the middle of the night to use a minimum of light in order to navigate your surroundings, just as much as you need
in order to safely do so, because light inhibits hormone melatonin, can make it very hard
to fall back to sleep if you inhibit melatonin. The effects of light inhibiting melatonin are actually very potent. It happens very, very quickly, so try and keep the lights low. And you have trouble falling back asleep, that's when you might
also want to use something like a Reverie app, they have a sleep script there that can hopefully help
you get back to sleep. Or something like NSDR, you can find NSDR scripts on YouTube. These are zero cost. You can look up one that I particularly like is NSDR Madefor. It's a company I'm associated with, but the NSDR is completely zero cost, and there are other things, like Yoga Nidra, which you can
find scripts for elsewhere. Again, all of these
habits or these behaviors, these do's and don'ts around phase three, themselves might be habits that you're trying to create for yourself. But again, phase three is
really about making sure that whatever limbic
friction you've been able to override in phase one and trigger some new habit, right? Forcing yourself to write or forcing yourself to study or forcing yourself to exercise during that high limbic friction state. And then whatever things
you've been doing in phase two, which are habits that hopefully have moved
a little bit further along the continuum of newly-formed versus all the way to reflexive, or things that take less limbic
friction in in order to do. Phase three is when all
of that gets really locked into the nervous system through those Hebbian mechanisms, like NMDA receptors, et cetera, that I talked about before. Again, neuroplasticity is
the basis of habit formation and neuroplasticity and the
rewiring of neural circuits happens in these states of deep sleep. So if you're not obeying this phase three, if you're not giving phase
three the material it needs, and you're and you're not
avoiding the certain things, like caffeine and bright light
and stress during phase 3, you're simply not going to
be able to build those habits that you've been working so
hard to trigger in phase one and phase two of the day. Again, these are things that I've talked about previous
episodes of the podcast and elsewhere, but really
this is about habit formation. And the whole reason for placing particular types of behaviors at particular phases of the
day is to set a framework for that task-bracketing. Again, task-bracketing and the circuits of the basal ganglia indicate that it's not
just the neural circuits that are engaged by the task itself, but the neural circuits
that are engaged before and after that task execution. That's what gets consolidated. So when you do things that
particular phases of the day, under particular conditions
of neurochemistry, what you're doing is you're giving the brain a very
predictable set of sequences that during sleep it can start
to put into your hard drive, if you will. It can really program it
into your nervous system, so that within a short period of time, hopefully within 18 or maybe even 6 days or who knows? Maybe even fewer days, you'll find that executing
those behaviors is very, very straightforward for you and that you won't have to
feel so much limbic friction or override so much limbic friction. Some of you are probably asking, okay, if I perform a particular
habit during phase one, and then I do other
habits during phase two, and I eventually get to the point where I'm engaging in those habits in a pretty effortless way, do I keep them in the
same phase of the day? And the good news is, the
literature says it doesn't matter. And in fact, moving that particular habit
around somewhat randomly can actually be beneficial to you because actually moving
it from one time a day to the other is that context independence that we really are seeking. By being able to do the same
thing that we want to do regardless of time of day or circumstances that's how we know that we've achieved a
real habit formation, that's how we know that
the habit has been moved into certain components
of our neural circuity that just allow us to do it what seems like reflexively. Although earlier I pointed out that these aren't reflexes
in the traditional sense. The reason for that is
that this brain area, the hippocampus, that many
of you know is associated with learning and memory, is not actually where memories are stored. The hippocampus is where
memories are formed, it's where procedures, like
we talked about before, procedural memory of how you're going to execute a particular sequence, where that's maintained. So like if we use the recipe model, that's where the recipe is maintained until you know how to cook that dish and then the procedural
memory literally migrates off into a different set of neural circuits, which are the neural
circuits of the neocortex where we have maps of sensory experience, maps of all kinds experiences, including motor maps of
how to execute things. So we use one part of the
brain to learn something, but then that information, in the form of the electrical
activity of neurons, is passed off to a different brain area. Now, the neurons themselves don't move from the hippocampus to the cortex, that doesn't happen. What happens is the signals, the sequence of electrical firing, much like a script for a movie or the notes on a sheet of paper for a particular musical piece is transferred off to
a different brain area. So, that whole process of really leaning into
something that's hard, and then it becoming easier, and then eventually that
things becoming more or less reflexive involves a migration of the information in the brain. And once it's migrated out to a different location in the brain, at that point it's achieved
context-independence. It doesn't have to be
bracketed by, you know, your caffeine and your lunch. It doesn't have to occur immediately after your afternoon NSDR, but before your four
O'clock meeting on Zoom, or something of that sort. So all this is to say that once something has become reflexive, you should play with it a
little bit about time of day. If you want to keep it in
the same phase of day, great. But if you one day decide you're going to exercise in the afternoon, the next day you decide you're going to exercise in the morning, and that's the habit that
you're concerned with, that's terrific. If you're able to do that, that means that it's truly achieved
context-independence. It means that you have
officially formed that habit. And as I mentioned earlier, much earlier at the
beginning of the episode, the strength of a habit is dictated by how much limbic friction, that was one, and how much context dependence there is. So when it doesn't take
much activation energy to get into the execution of that habit and you can do it in any context, well, then you have formed a habit. We really can't have a discussion
about learning anything, habits or otherwise, unless we talk about
reward prediction error. Reward prediction error is associated with the molecule dopamine, although I should say there
are other neurochemicals in our brain and body that are also related to
reward prediction error. But reward prediction error
is a very good system, or I should say, a lens
through which to think about, whether or not we should reward ourselves for performing a given habit. And this is a much larger discussion that actually relates
to things like parenting and self-regulation. You know, should we reward
kids just for effort? Should we reward
ourselves just for effort? What should we reward? How much should we reward ourselves? When should we withdraw reward? Should we use punishment? These kinds of things. This is a vast literature. We don't have time to
go into all the details, but the notion of reward
prediction error is so powerful that it can predict most if not all forms of learning,
including habit formation. And you can deploy or
use particular features of reward prediction error if you would like to reinforce or accelerate the formation
of certain habits. So, reward prediction
error, quite simply, is if you expect a reward
and the reward comes, a particular behavior that was associated with generating that reward is more likely to occur again. That's pretty straight forward. However, the amount of reward, in the form of this molecule dopamine, that you will experience is even greater if a reward arrives
that's unexpected. Okay. So let me repeat that again. If I think that something's
coming that's going to be great, let's say I lean into a habit, I manage to override my limbic friction, and I'm doing my 45 minutes
of writing in the morning with no phone and no internet and I'm getting toward the end, and I'm anticipating how
I'm actually doing this, this is great, I did it, I'm feeling really, really good. I finish, I definitely will
receive a dopamine reward, I'll make my own dopamine reward, that's where it comes from. Remember, this is all internal. However, I will also
receive a dopamine reward if unexpectedly something
positive happens. And typically if something unexpected but positive happens, the amount of dopamine reward that we get is actually much greater than in any other conditions. However, it's hard to surprise yourself about a behavior that you're
deliberately engaging in. So that becomes a bit of a tricky one. Reward prediction error also says that if we expect a reward
and the reward doesn't come that the pattern of dopamine release will follow a particular contour and that contour is very important. Here's how it goes. Let's say that I'm writing and I'm about 30 or 45 minutes in, I'm thinking, "Ah, this is great." "I'm actually, I managed to do this" "I'm succeeding in
executing the behaviors" "that I need to in order
to perform this habit." "I'm overriding limbic friction." Just that series of thoughts will start to generate the dopamine release
within my brain and body. However, if at the 15
minute mark the phone rings and I pick up the phone or I break my own protocol, I
break my own self-discipline and I go on and check social media or I do something that
takes me out of that, what's going to happen is that my level of dopamine
is actually going to drop below the baseline, meaning below the level of dopamine I had before I even started the
habit execution. Okay? So what this is, is this
system that predicts whether or not rewards are going to come. When we think a reward is going to come, it starts to actually arrive earlier in the form of dopamine release. This is the feeling that we experience as
positive anticipation. You tell a kid, "Hey, we're going to go
to the amusement park." Or "We're going to go get ice cream." They haven't had the ice cream yet, they're not at the amusement park, but they're excited, the
dopamine release comes earlier. Okay? They get to the amusement park or they get the ice cream, they will also have some dopamine release associated with that. But most of it, believe it or not, came in the form of the anticipation. And dopamine has some qualities that make the actual ice cream and the actual amusement park
experience more pleasurable than it would be had that
dopamine release not happened. Now of course, the other way
to do is to surprise a kid. You tell them, "Listen, we're going to the
class that you absolutely hate." Or "We're going to go see the person" "that you absolutely despise." And then you drive them
to the amusement park that's the big release of dopamine. But reward prediction error also says that if you tell the kid, or yourself, "Okay, we're headed to
the amusement park." "We're going to get some ice cream." They're really, really excited. And then you get there and it's closed, or they're not letting any more people in, well then the dopamine level
drops way below what it was before you told them that
you were headed there. Okay? I've given a number of different examples that hopefully make this clear. Reward prediction error
governs virtually all aspects of effort and all aspects of learning. Why? Because when dopamine
is released in the brain and body, the neural circuits
of our brain and body change. There's a state change. Our over level, excuse me,
our overall level of energy, but also the sorts of sensory events that we're paying attention to changes when there's a lot of
dopamine in our system. Now you can leverage
this for habit formation. Think back to task bracketing. Think back to limbic friction. If you are considering
adopting a new habit or if you are trying to break a habit, something we haven't
talked too much about, but we will in a moment, it's very useful to think not just about
the procedural aspects of what you're going to do, but also think about
the events that precede and follow that particular habit, and the execution, or at least the effort to execute that habit. What you're doing is you're
casting a kind of a spotlight around a bin of time, or a set of events, for which dopamine can be associated. What does this look like
in the practical sense? Well again, I'll just try and use very
simple concrete examples, but this could carry over to anything. Let's say I were somebody who
has a hard time getting in that 30 to 60 minutes of zone II cardiovascular
exercise mid-morning. This is actually an issue for me. I much prefer to do resistance exercise than cardiovascular exercise, although once I do it, I
always feel much better that I've done it. What I should do is positively
anticipate the onset and the offset of that session. Right? So thinking about leaning into the effort, going out and doing that
zone II cardio session, and I should think about
how I'm going to feel after. So, not just thinking about how great I'm going to feel after, but also thinking about
how hard it's going to be at the beginning, and then trying to reward
myself subjectively for the entire experience. In other words, start
rewarding task-bracketing in addition to rewarding the
execution of the habit itself. Now some of you might be saying, "Well, wait this is all self-talk." "This is just positive self-talk." But it's not positive self-talk,
it's not saying, you know, "I feel so great about doing something" "that I actually hate." You can't lie to yourself, or you're welcome to lie to yourself, but the neuroscience literature, the literature of growth mindset, all the literature basically of mindset speaks to the fact that
when you lie to yourself, you know you're lying, and you actually set up the
opposite of a reward system. So, you have to be brutally
honest with yourself that, for instance, "I don't like initiating
this cardiovascular exercise" "but I do like the fact that I've done it" "after I've done it." So what you are doing is you are applying reward prediction error to the entire sequence of things that's involved in getting
into the habit execution, getting through the habit execution, and getting out of the habit of execution. How do you do this? Well, I take us back to our procedural memory
visualization exercises we talked about earlier. When I talked about it in that context, I talked about walking through
mentally the series of steps that's required to perform
a particular habit. So in the case of the zone
II cardio thing it would be, "Okay up and put on my shoes," "then I'm going to head out the door," "then I'm going to drive up the road." There is a particular
canyon near here that, if I'm going to run, I happen to like running, or
I don't hate running enough that I tend to do it. Going through that, heading
back, et cetera, et cetera. That's great, but even better would be to broaden the time bin and start to positively
anticipate the period headed into the habit, so even
before you put on your shoes. The fact that you are
successfully placing the habit in, in this case, phase one of the day and that afterwards I'm going to feel a particular set
of positive benefits, elevated mood, et cetera. I like being hungry and quickly
after I exercise I'm hungry, so I like being hungry
because I like eating, so there's a whole set of things that link up with one another. So I'm not just thinking
about habit execution as this isolated little set of events, or this little time bin, but rather, I'm drawing a
larger envelope around it and starting to positively
associate dopamine reward with that larger envelope. And for those of you that are thinking, "Well, this is just a
psychological trick." You know, you're kind of like, "This is sort of like lying to yourself." It's not because you're not
actually contradicting the fact that some of this is unpleasant. What you're doing is you're taking this
entire series of events, what I'm calling this
kind of time envelope, and you're associating it
with a particular reward that comes later, which for me would be the
feeling that, you know, that I've completed this. Right? Because for me that's
usually a good feeling. So reward prediction error is beautiful, not just because it's a
sort of math of anticipation and reward, or a math of anticipation and disappointment, it's beautiful because you can stretch out or make more narrow the time bins in which reward prediction error works. Reward prediction error is the way in which people navigate
four year degrees. Right? I mean, you go, sure, final exam to final exam, et cetera. But ultimately, there's
a big payoff at the end and it's all basically
for that big payoff. And of course, I understand
that it's the journey, not the destination, but let's face it, for a lot of us goals and habits are about achieving
some sort of destination. In the case of zone II cardio, for me it's about trying to
stay alive for as long as I can, as long as I can with vitality, that is. And it's also the fact
that if I'm doing that, I get to eat the foods that I like. I tend to be able to eat more, which I happen to really enjoy eating, so much so that I'd like
it just as an activity. So basically what you're trying to do is not restrict your
thinking to just the habit that you're trying to form, but rather, to grab ahold of the timing before and after that particular habit and start to positively
associate reward mechanisms in your brain with that entire time bin. This is a very useful
and very powerful tool in order to form habits. And I should say that it's not something that comes naturally to most people. In fact, even as I describe it, you might find it's still
a little bit abstract, but what I encourage you to do, if you are finding it to
be a little bit vague, would be to pick the habit
that you want to form, write down or think about very concretely what is the sequence of steps involved in the execution of that habit, and then write down or think about what is the sequence of events that need to precede that habit, maybe the immediate 10
or 15 minutes before, as well as the immediate
sequence of events and/or feelings that will
occur after that habit, and then call the whole
thing a habit execution. The whole thing a effort to
engage in that particular habit. And in doing that, and
in positively associating with the idea that you're going to complete that entire sequence, you will engage reward prediction error in the proper way that the dopamine surge can lend itself towards motivation. Because ultimately, dopamine
is not about feeling good, it's about feeling motivated. This is something that I've talked about
numerous times before, but dopamine, contrary to popular belief, is not a reward molecule, so much as it is a molecule
of motivation and drive. And the natural consequence of doing the exercise I just described, of writing things out that precede, are involved in the immediate
execution of the habit, and follow the habit, will allow you to experience
an increase in energy and thereby an increase in likelihood that you're going to engage in that entire sequence of events. And the reason for that is
that dopamine gives us energy, and the reason for that is
that the molecule epinephrine, adrenaline, is actually
manufactured from dopamine. Biochemically, it comes from dopamine. So, dopamine is powerful and you can access more dopamine around even habits that
you haven't yet formed by taking this broader time envelope and task-bracketing that
specific task execution or habit execution. Way back at the beginning of the episode, In promised you that I
would deliver two programs that are geared towards habit formation. And I promised that I would give you ways in which you could gauge whether or not certain habits had
moved from high effort, what I call high limbic
friction, to reflexive. And we talked about a
number of way to gauge that. In researching this episode, I found a tremendous
number of different systems for habit formation. It's really amazing how much is out there. There, one says 60 days to this, or 21 days to that, or 18 days to this. I mean, it's just rampant in the
popular psychology literature and in the self-help literature. I want to spell out a particular system that I think could be very useful to most if not all people that's rooted in the
biology of habit formation, rooted in the psychology
of habit formation, and that is entirely
compatible with that phase one, phase two, phase three type program that I talked about earlier, but encompasses a bit
of a longer time scale and really arrives at a kind
of a system, if you will, for how to build in habits and then to test whether
or not those habits have really stuck and whether or not they're
likely to stick going forward. And so this, at least for
the sake of this example, a 21 day system. I picked 21 days because
that seems to be the average or most typical system for
engaging neuroplasticity as it relates to the
formation of new habits. This 21 day system, actually, is one that someone I know very well uses and has used for a very long time. They actually, their kids use it as well. And it has a certain elegance to it and I think as I describe it that elegance will begin to reveal itself. So basically what this
involves is you set out to perform 6 new habits per day across the course of 21 days. Why 6 and why 21? Well, we'll talk about that in a moment. But the idea is, you write down 6 things that you would like to
do every day for 21 days. What phase of the day
those things fall into? Well, that will depend on what they are and how they relate to
those earlier phase one, phase two, phase three, but for now, 21 days, 6 things per day. However, the expectation is that
you'll only complete 4 to 5 of those each day. Okay? So built into this is a
kind of permission to fail, but it's not failure, because it turns out that this approach to forming habits is based not so much on the specific habits that you're trying to form, but the habit of performing habits. Right? It's the habit of doing a
certain number of things per day. So, you set out to perform 6. Now, another reason for not
necessarily performing all 6 is that some activities probably shouldn't be performed each day. For instance, in my case,
if I were to weight train or even run every day, I'm of the sort, or my biology is of the sort
that I don't recover so well. So I wouldn't want to do
resistance training every day, but I might want to do it 4
days a week, for instance. So by having 6 things in that list, you could shuffle out
that particular activity on particular days of the week, and simply do 4 or 5 other activities. So 21 days, you list out 4 to 5 things. So it might be zone II
cardio, resistance training, sunlight viewing, writing
could be journaling, it could be learning a
language, mathematics. Again this is going to vary depending on your particular goal and the habits that
you're trying to create. But no more than six and the expectation is that you're not going to
perform more than 4 to 5. If you miss a day, meaning you
don't perform 4 to 5 things, there is no punishment. And in fact it's important
that you don't actually try and do what, in the literature, is called a habit slip compensation, which is just fancy psychological language for if you screw up and you
don't get all 4 or 5 in one day, you don't do 8 the next
day in order to compensate. This actually brings me
back to an example I had from graduate school. I remember when I started graduate school feeling very excited, but
a little bit overwhelmed by the amount of things that I had to do because I had to both do
research, I was doing coursework, at the time graduate students stipends, and still now unfortunately,
were depressingly low so it was financially stressful. There were a number of things happening and I remember a neurologist,
this was at UC Berkeley, he was a really fantastic
scientist and person, his name was Bob Knight,
some of you may know him. I remember he, I went to
him and I asked, you know, "What is the process by which someone" "actually navigates graduate
school successfully?" And he said, "Listen, you
don't want to do anything" "or engage in a routine in any way" "that you can't keep up consistently" "for at least five and
ideally 6 days per week." I thought, "Oh, that's pretty good." And he said, "Every 4 or 5 years" "you might have to update that," "but you need to decide what
you can do consistently," "what you can do every day
or at least six days a week," "or 5 days a week." And that was very very useful to me and it fits well with this
notion of habit slips, that if you happen to screw
up and not be able to engage in whatever habits you're trying to learn for whatever reason, that the next day, you just get right back on on
the on the horse, so to speak. However, there's a really
interesting feature from the neuroscience literature and from the psychology that says that chunking this 21 days into 2 day bins can be very, very useful. While it is true that the unit of the day that our cells use is a
circadian one, a 24-hour clock, there does seem to be something powerful about engaging in particular habits, in a particular sequence,
for two days in a row, and then resetting, so thinking, "Okay I can do this for a day" "and if I can do it for a day," "I can probably do it for 2 days." And then resetting. So every
2 days you're resetting. So you're kind of chunking 21 days into a series of 2 day bins,
in which you are trying to perform 4 to 5 new habits and then completing that 21 days. Now, everything I've described
about this 21-day program with 6 things that you're
trying to do with new habits and only performing 4 to 5 and
not compensating, et cetera. There's nothing neuroscientifically
unique about it, except for the fact that
it's not just 21 days, broken up into two day chunks. After 21 days, you stop engaging in this 21-day deliberate
4 to 5 things per day, tight schedule, and you
simply go into autopilot. You ask yourself how many
of those particular habits that I was deliberately trying to learn in the previous 21 days are
automatically incorporated into my schedule? How many of them am I naturally doing? In other words, every
21 days you don't update and start adding new habits. You simply try and maintain the ones that you built in that first 21 days. And this I think is extremely important because in all the habit
literature that I could find, sure, there was a lot
of psychological data and neuroscience data,
behavioral science data around here's how you form a habit, here's how you break a habit. There was even some
kind of test for whether or not a habit had really
achieved context independence, whether or not it was a
strongly formed habit. But there wasn't a lot of information, at least by my search, of what to do once you've formed a habit, and how to evaluate whether or not that habit is likely to
persist long into the future. So here's the idea, you
set out these 6 things that you would like to learn, or that you would like
to acquire in your life, these habits, you only expect that you're going to
perform 4 or 5 each day, you do that for 21 days. Again, if you miss a day, you just hop right back on the next day. However, you should think
about the functional units within this 21 day period as 2 days. You can try and nail 4 to 5
of these things for 2 days. If you happen to get all 6, great, but that's not necessarily required. So you can do it for 2
days then reset 2 days, then reset 2 days, and
then in the next 21 days, you're not trying to
acquire any new habits, you're not going to throw in 6 more habits that you want to learn,
you're simply going to assess how well, how deeply, you
rewired your nervous system to be able to perform those 6 habits of the previous 21 days. And this is extremely useful, I believe, because it will allow you to asses whether or not you can indeed make room, if you even have room, I
should say, for more habits. Many people are trying to
cram so many new behaviors into their nervous system,
that they don't stand a chance of learning all those behaviors. What you may find, is that you kept up 2 of
those things very consistently throughout the 21 days. And perhaps there was one of
them that you did sporadically, and that there were 3
others that, frankly, you didn't manage to execute. You may also be one of these
people, one of these mutants, that sets out to do 6 new
things per day for 21 days and performs every single one of them. Terrific. More power to you. In that case, for the following 21
days, let's see whether or not you can continue to
perform those very same 6 things every day for 21 days,
and then, and only then, would you want to add more habits in. So you could repeat this
21 day process, you know, 21 days of new habit, 21 days
of testing those new habits as to whether or not
they're reflexive or not. You could do that forever, if you wanted. But the idea is that this isn't something that you're doing all year long. It's that you're perhaps
starting the new year or regardless of when
you're listening to this, you set out to make that 21
day really the stimulus period in which the habits get wired in and then the following month, and maybe even the following
months, or periods of 21 days, are really the kind of
thermometer or the test bed of how well you've embedded
those particular habits. And if indeed you want to
continue to add new habits or you find that certain
habits that you weren't able to embed in your nervous
system and make reflexive, you want to then bring
those in, fantastic. But it's only once you've
achieved all those 6 habits as reflexive, that you would move forward. And I think this sort of system, while it could have been replaced with many other different systems. Again, there's nothing
holy about this system. But this particular system
has a number of features, the lack of compensation for missed days, the fact that it's a fairly
high intensity program for 21 days, but then you test yourself, a kind of competition test
with yourself, if you will. Those features and the
fact that habit slips, missing of particular habits and not doing all 6 is kind
of built into the system, I think makes it a very reasonable one. It's very adaptable to the real world. And I think it's one that,
provided you obey the phase one, phase two, phase three type system that we talked about earlier, you collapse these two
programs with one another, which hopefully will be easy, based on the descriptions I've
given. Well, if you do that, and I think there's a
very high probability that the habits that you try and form will achieve this context dependence and that it will take
progressively less limbic friction to try and perform them. Thus far, we've almost
exclusively been discussing how to form habits. But what about breaking habits? Certainly many people out there
would like to break habits that they feel don't serve them well. One of the challenges
in breaking habits is that many habits occur very, very quickly and so there isn't an
opportunity to intervene until the habit has already been initiated and in some cases completed. Well, there are a couple of tools that neuroscience and psychology tell us can be very beneficial. Some of those things
are somewhat intuitive and relate to what I call
foundation practices. Meaning things that set the overall tone in your body and brain, such
that you would be less likely to engage in a particular habit or that would raise
your level of awareness, both of your situation and
to how you feel inside. So things like stress reduction. Things like getting good sleep. Things like quality nutrition. Things like having positive routines arranged throughout your day. All of those, of course, will support you in trying to break particular habits. And while that can be very useful, it's admittedly very generic advice. It doesn't point to any
one specific protocol. In order to identify a specific protocol that one could apply in
order to break habits, we have to look at the mirror image of the sort of neuroplasticity that we talked about at the
beginning of the episode. At the beginning of the episode, we talked about a form of neuroplasticity called long term potentiation, involving the NMDA receptor. Just to refresh your memory a little bit, it says that if a set of neurons
is very electrically active it's likely that those
neurons will communicate with themselves more easily because of changes in things
like NMDA receptor activity, the recruitment of additional
receptors, et cetera. It's essentially a cellular
and molecular explanation for how something goes from unlearned, to learned, to reflexive. Now, in order to break synapses, or to break apart neural connections that are serving a habit that
you don't want to engage in, we need to engage the process
called long term depression. And long term depression has nothing to do with a state of mental depression
or a reduction in mood. So I really want to be clear that when I say depression in this context it has nothing to do with
psychological depression, it has nothing to do with mood. It's simply called long term depression because just as long
term potentiation says if neuron A triggers
the firing of neuron B, and it does so very robustly
over and over and over again, then neuron A will not
have to fire as intensely, or as frequently, in
order to activate neuron B in the future because
they become potentiated. Right? The threshold for
co-activation has been reduced. There's a much higher probability that they will be activated together at low levels of intensity. That's essentially what
long term potentiation is. Long term depression says
that if neuron A is active and neuron B is not active
within a particular time window, then the connection between
neuron A and B will weaken over time, even if they started
off very strongly connected. Okay? So, I'm going to repeat that because this is a pretty detailed
neurobiological mechanism whereby if neuron A,
and neuron B is active, but at a different time
or outside a particular, what we call, temporal window, meaning outside a particular time window, then through long term depression, the connection between neuron
A and neuron B will weaken. And just as a point of interest, the NMDA receptor is also
involved in long term depression, although there are other
molecular components involved as well. So how do you take two neurons that underlie a habit out of synchrony? How do you get them to
fire asynchronously? This is pretty interesting
with respect to the cellular and molecular biology, but
at the behavioral level, it's especially interesting. They way that one would do this
is, let's say for instance, you have a habit of picking up
your phone mid work session. Okay? That's a reflexive habit I think that most people have experienced. And we often hear the idea that, oh, the phone is so filled
with access to dopamine and incredible things that
we're just drawn to it. But if you noticed what's
happened with phone use over time, most people, including
myself sometimes I admit, find ourselves just looking at our phone, or find ourselves in a particular app without actually having engaged in the conscious set of steps of, "Oh I'm really curious" "what's going on in this particular app." "I'm really curious" "what's going on in this
particular website." And you just kind of "find
yourself", in air quotes, for those of you listening,
I'm making air quotes. You just sort of find yourself
doing it because the behavior of picking up your phone
is sort of reflexive, or has become fully reflexive. You see this a lot at meals where multiple people are there and no one's looking at their phone and then all of a sudden
someone takes out their phone and you'll notice that other people just
naturally take out their phone. It's this kind observation induced reflex. And I would wager that most
people aren't consciously aware of the immediate steps involved. So the literature says
there are a number of ways to break these sorts
of habitual behaviors, or reflexive behaviors. Most of those approaches
involve establishing some sort of reward for not performing the activity or some sort of punishment
for forming the activity. I've heard of some basic things
that some people will do, like they'll even put like a
rubber band on their wrist, and every time they complain, or every time they do some behavior, like pick up their phone, they'll give themselves
a snap on the wrist. And yeah, the rationale
there is that you're trying to create a somatic, a very
physical representation of something that makes it very real and harder to overlook. Other people will just do a
tick mark on a piece of paper. This sort of, "What gets
measured is what gets managed" kind of mindset, where if
every time you do something, you take away the judgment,
this is very new age-y, I realize, but this is
what you find out there, if you search the literature. Even on PubMed, peer-reviewed articles, that every time you engage in a behavior, you just measure the fact
that you did that behavior, you just mark it down. At the end of the day, people
are supposed to look at that and say, "Oh my goodness!" "I can't believe that I
spent, you know, 3 hours." Or, "I did it 46 times." And in fact, a lot of
apps, social media apps, will start to give you
warnings now, if you opt in, that you've been on the app for an hour, would you like to leave? Most people just click right
past it and go back in. I think very few people
say, "Oh my goodness!" "It's been an hour and
therefor you're right," "I absolutely shouldn't
engage in this any more." It's just far to easy to just
blow past those reminders. Well, the literature on habit formation and habit reduction, breaking
habits, has been analyzed. There's a beautiful meta-analysis, which involves looking at a number of different studies all together, comparing the statistical
strength of each of those studies, looking in different conditions what sorts of habits were
trying to be made or broken. The first author on this
review is Fritz, F R I T Z. I'll certainly put a link to this. It's Heather Fritz and it's "Intervention to modify
habits: a scoping review." And it is indeed a very
broad scale review. It's from the Journal of Occupation
Participation and Health. It's published in 2020.
It's a really nice article. A couple of things I
learned from this article and then I'll get into the specific tool for breaking habits. Perhaps the most interesting
thing that I took from this review was the finding that notifications to
either engage in habits or to not engage in habits actually were not very
effective over time. They were effective in
the immediate period when people started using
these notifications, as were little sticky notes, like, "Don't go into the refrigerator" "between the hours of
whatever and whatever." Or just visual reminders, physical reminders or electronic reminders were effective in the immediate term, but in the long term,
did not predict whether or not people would effectively stick to habits they were trying to stick to, or break habits that they
were trying to break. So sadly, that doesn't
seem to work very well. And perhaps they just need to come up with more robust reminders. I don't know, mild electric shock or something like that
because what we do know, only sort of kidding
about mild electric shock, but what we do know from both human and animal studies is that
things like electric shock, things like monetary penalties, right? Having to pay out every time you engage in a particular behavior. Those are pretty effective
ways to break habits. The problems is when people
are not being monitored for habit use, for instance, you can imagine a situation where you say, "I'm not going to pick up my phone" "for the 4 hours in the
early part of the day" "so I can get, you know, real
dedicated focused work done." Unless someone's monitoring
them, then people don't tend to monitor themselves completely enough that they punish themselves
completely enough, that they break the behavior. In other words, the
punishment isn't bad enough, in order to break the habit, which just speaks to how
powerful these habits are once they become reflexive. They're just very, very hard to override. So it turns out that the key to generating long term
depression in these pathways is actually to take the period immediately following
the bad habit execution, meaning, let's say you tell yourself you're not going to pick up your phone, you're not going to bite your nails, you're not going to reflexively walk to the refrigerator at a
particular time or day, but you find yourself doing it anyway, and what actually has to happen is bringing conscious awareness to the period immediately afterwards, which I think most people recognize, they realize "Ugh I just did
it again. I just did it again." And in that moment, capture
the sequence of events, not that led to the bad habit execution, but actually to take advantage of the fact that the neurons that were responsible for generating that bad habit
were active a moment ago, and to actually engage
in a replacement behavior immediately afterward. Now, this is really interesting
and I think powerful because I would have thought that you have to engage
in a replacement behavior that truly replaces the
bad habit behavior, right? That you would have to be able to identify your state of mind or the sequence of events
leading into the bad habit, but rather, the stage or the period immediately
after the bad habit execution, is a unique opportunity to
insert a different type of, what we would call adaptive behavior, but that could be any
behavior that's not in line with the bad behavior, so
let's give it an example. Let's say you find yourself, you're trying to do focused
work, you pick up your phone, you're disappointed in yourself
for picking up your phone, you could of course just put it down, and re-engage in the work behavior, but if you were good at that, then you probably wouldn't have
done it in the first place. And so, what turns out
to be very effective, is to go engage in some
other positive habit. Now, this has two major effects. The first one is you start to link in time the
execution of a bad behavior to this other good behavior. And in doing so, you start to
recruit other neural circuits, other neurons, that can start to somewhat dismantle sequence of firing associated with the bad behavior. In other words, you start to
create a kind of a double habit that starts with a bad habit, and then ends with a good habit. And that seems to create
enough of a temporal mismatch so that then recognizing when you're heading toward to bad habit becomes more apparent to you. So again, I want to make
this very, very concrete. Let's say that the behavior is reflexively
picking up one's phone. You do that, you think, "Ugh,
goodness, I did it again." Here's what I'm going to do, you would set that down and then you would engage in
some other positive behavior, that you've deemed positive. And here, it's very
subjective, so it's hard for me to give an example that will necessarily
make sense to everybody, but perhaps you're working on hydration, so maybe you go have a glass of water. Maybe you're trying to do
breath work or something. Maybe you're trying to enhance
your language speaking skills so you go and you spend 5 minutes doing a particular type
of language learning. You literally exit whatever you were doing and perform that other new positive habit in the immediate period right after that, even for a short period of time. It's a little bit counterintuitive, but what this does it
creates kind of a cognitive and a temporal mismatch between
the initial bad behavior, which before is what we would
call sort of a closed loop, and the engineers out there will know what I'm talking about. But in a closed loop, so one behavior, one set of neural
firings, leads to another, leads to another, and then just kind of sets
the same thing in motion. It can be kind of a self
perpetuating system. By changing the number of
features that are in that loop, it disrupts the closed
nature of that loop, it creates what we call an open loop, and in an open loop, you are
better able to intervene. So, as I mentioned before, this
might seem counterintuitive, you might think, "Why would I want to reward
the execution of a bad habit" "with a good habit." "I don't want to reward
myself for the bad habit." But really what you're
trying to do is you're trying to change the nature
of the neural circuits that are firing so that
you can rewrite the script for that bad habit. A different way to put it would be, imagine that the bad habit
is like a chord on the piano that you play, or a chord notes, or a sequence of notes
that you would play, and it comes very easily. You can play it every single time. But, let's say, as you're trying to learn
a new piece of music, you're just constantly inserting that at the inappropriate time. That was, you know, I think
it was a decent enough analogy for a bad habit because it
involves some motor execution. You just find yourself doing it. Rather than trying to prevent
yourself from doing it, the next time you do
it, add in a new chord or sequence that you're trying to learn. What this does then is it
changes the whole nature of the sequence of neurons
that are firing from bad habit through to the end of this
newly applied good habit. So, this is the way in which
you start to dismantle or, when I say dismantle,
really weaken the likelihood that if neuron A fires,
neuron B will fire. Because, as you're
starting off in the mode of very reflexively
performing a bad habit, those neurons are firing together without you consciously being aware of it. It's almost impossible for
you to intervene in yourself without a number of other features, like severe punishment, severe
consequence type outcomes. Rather, tacking on some
additional sequences, like if neuron A, neuron B
fires, and then you're saying, "Okay well, if neuron B fires," "I'm going to start inserting
neuron C, D, E, F to fire." Right? That's the, C, D, E,
F being the positive behavior that you're going to insert. And in doing so, you create a
chain of neuronal activation that then is very easy to dismantle. And so, when people have
applied this kind of approach, it removes the need to have
constant conscious awareness of one's own behavior
prior to that behavior, which is very, very difficult to achieve. Rather, what they find is
that they are able to engage in re-mapping of neural circuits
associated with bad habits in ways that are very,
very straightforward. Right? Because you can always identify when you've done the
thing you don't want to do and then tack on to that
something additional that's positive. Now, the nature of that
positive thing is important. You don't want it to be something that's very hard to execute. You want it to be
something that's positive and fairly easy to execute, so that you're not struggling all the time to insert this on top
of this bad behavior, whatever that bad behavior
might happen to be. But again, this is rooted in the biology
of long term depression, it maps very well to the
behavioral change literature that I was able to glean that really shows that rather than just get reminders, rather than try and instill punishment, rather than setting up reward
for breaking bad habits, that perhaps the simplest
way to approach this is to tack on additional
behaviors to the bad habits, make sure those behaviors
are good behaviors, or behaviors that are adaptive for you, and in doing so, you will soon find that the initiation of the bad habit takes on a whole new form or that you're not even
inspired to do it at all. And of course, I want to acknowledge that breaking bad habits is really hard. We had an episode all about addiction with Dr. Anna Lembke from
Stanford Medical School. She's a colleague of mine who runs the Dual-Diagnosis
Addiction Clinic at Stanford. And in that episode, we
talked a lot about how addicts for drugs, alcohol, people have addictions to certain types of behaviors,
or avoidance behaviors even, that in the case of addiction, there has to be a tremendous
kind of full-scale campaign for them to be able to
intervene in their behavior. So, for those of you that are thinking about bad habit breaking in the context of
addictive type behaviors, definitely check out that episode. Addiction does employ
some of these principles around habit making and
habit breaking, as it were, but of course, because the consequences of certain habits in
addiction can be so severe, there's other sets of protocols and there's a kind of a
psychological backdrop to it that's very important. It also relates to the
biology of dopamine, and you can find all
of that in the episode with Dr. Anna Lembke. So today we've covered
a lot about the biology and the psychology of habit formation and habit breaking. We talked about why certain
habits are so hard to wire in, why certain habits are
so hard to break down and eliminate, and how we can determine which habits are going to
be easier for us to access and which habits are going to be harder for us to access and break. We talked a lot about this
notion of limbic friction and we talked about context dependence. And we talked about a
number of different things as it relates to neural circuits and the formation of new
connections in the brain, and strengthening and weakening
of connections in the brain. We also discussed two programs. Programs designed specifically for you on the basis of the
neurobiology literature and the literature on the
psychology of habit formation and habit breaking. Just to briefly recap, one program involves
dividing the 24 hour day into three phases, phase
one, phase two, phase three, and to try and tackle specific habits at particular phases of the 24 hour cycle. The second program
involved a 21 day process of engaging approximately
6 new habits per day, although the expectation,
as I mentioned earlier, is that you're not going
to perform all 6 of those. And an assessment in the following 21 days as to whether or not you have
indeed formed those new habits or not. And there were a number of other features that I mentioned that were related to those two general programs. Phase one, phase two, phase
three, and the 21 day program, and how those could be meshed together. So, I'm guessing some of you
will probably have questions about those programs
and how to apply them, but hopefully they were clear
enough for you to get started. This is a good opportunity
for me to mention that the Huberman Lab Podcast has something called the
Neural Network Newsletter that is sent out
approximately once a month. For the next newsletter, I will release a on-paper
version of these two systems and how they mesh together
for habit formation and habit breaking, and if
you'd like to access that, you can go to hubermanlab.com,
you go to the menu, you can sign up for the newsletter. First of all, it's zero cost. Second of all, we have
our privacy policy there, but I can tell you right now, we don't share your email with any vendors or with any other sources. Those emails stay internal to us. And if you'd like to see what the sort of flavor
of those newsletters is, the previous newsletters, for instance, one on tools for sleep,
that I mentioned earlier, or tools for neuroplasticity,
in the classroom and outside the classroom as well, for teachers and for
students of various kinds, those are also posted there so you can access any of
the previous newsletters. My hope is that today you've learned both the biological mechanisms and the practical tools
by which you can start to establish habits that, for you, you deem adaptive, healthy, and that are going to
support you in your goals. And that you can start to
dismantle some of the habits that you find to be
unhealthy or maladaptive for you and for your goals. If you're learning from
and/or enjoying this podcast, please subscribe to our YouTube channel. That's a terrific way to support us. In addition, on YouTube you can leave us
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way to support out podcast. In addition, we have a Patreon. It's patreon.com/andrewhuberman, and there you can support the podcast at any level that you like. During today's podcast and in many previous episodes
of the Huberman Lab Podcast, I mentioned supplements. While supplements aren't
necessary for everybody, many people derive tremendous
benefit from supplements. Supplements for sleep,
supplements for focus, supplements for various other things related to mental and physical
health and performance. One key issue any time
there's a discussion about supplements, you have to be sure that the supplements you are taking are of the very highest quality. And for that reason, we've
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very highest stringency, with respect to the quality of
the ingredients they include, and the precision of the
amounts of the ingredients that they include in their supplements. If you'd like to see the
supplements that I take, and get 20% off any of those supplements, you can go to Thorne,
thorne.com/u/huberman and, in addition to being able 20%
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thorne.com/u/huberman, you can also get 20% off
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following us on Instagram and Twitter, please feel free to do so. There, I teach neuroscience
and neuroscience related tools in short format. Some of that material overlaps with what you hear on the podcast, some of it is unique and different from what's on the podcast. And once again, I want to thank you for
going on this journey of exploring the neuroscience and the psychology of habit
formation and habit breaking. I hope it supports you in your goals. And last but certainly not least, thank you for your interest in science. [mellow music]
Which habit tracker work well with his suggestions?