Lex Fridman Podcast - #164 – Andrew Huberman: Sleep, Dreams, Creativity & the Limits of the Human Mind
Episode Date: February 28, 2021Andrew Huberman is a neuroscientist at Stanford. Please support this podcast by checking out our sponsors: - MasterClass: https://masterclass.com/lex to get 15% off - Four Sigmatic: https://foursigmat...ic.com/lex and use code LexPod to get up to 60% off - Magic Spoon: https://magicspoon.com/lex and use code LEX to get $5 off - BetterHelp: https://betterhelp.com/lex to get 10% off EPISODE LINKS: Andrew's YouTube: https://www.youtube.com/channel/UC2D2CMWXMOVWx7giW1n3LIg Huberman Lab Podcast: https://hubermanlab.libsyn.com/ Andrew's Instagram: https://www.instagram.com/hubermanlab Andrew's Wikipedia: https://en.wikipedia.org/wiki/Andrew_... Andrew's Website: http://www.hubermanlab.com/ PODCAST INFO: Podcast website: https://lexfridman.com/podcast Apple Podcasts: https://apple.co/2lwqZIr Spotify: https://spoti.fi/2nEwCF8 RSS: https://lexfridman.com/feed/podcast/ YouTube Full Episodes: https://youtube.com/lexfridman YouTube Clips: https://youtube.com/lexclips SUPPORT & CONNECT: - Check out the sponsors above, it's the best way to support this podcast - Support on Patreon: https://www.patreon.com/lexfridman - Twitter: https://twitter.com/lexfridman - Instagram: https://www.instagram.com/lexfridman - LinkedIn: https://www.linkedin.com/in/lexfridman - Facebook: https://www.facebook.com/LexFridmanPage - Medium: https://medium.com/@lexfridman OUTLINE: Here's the timestamps for the episode. On some podcast players you should be able to click the timestamp to jump to that time. (00:00) - Introduction (07:03) - Why do humans need sleep? (13:59) - Temperature (16:48) - Optimal temperature for sleep (21:51) - Sleep anxiety (27:55) - 8 hours of sleep (30:31) - Nap (36:18) - Goggins Challenge (51:41) - Breathing while running (56:30) - Anger (59:46) - Testosterone makes effort feel good (1:05:02) - Fasting (1:13:07) - Keto (1:15:58) - Meat (1:21:38) - Nutrition (1:23:03) - Dreams (1:31:11) - REM sleep (1:37:13) - Psychedelics (1:48:36) - DMT (1:53:11) - Creativity (1:56:45) - Pushing the limits of the human mind (2:01:55) - Neuroplasticity (2:06:31) - Neuroscience and AI (2:11:14) - Eye tracking (2:20:28) - New podcast on neuroscience (2:34:59) - Clubhouse (2:47:08) - Elon Musk
Transcript
Discussion (0)
The following is a conversation with Andrew Huberman, his second time in the podcast.
He is a neuroscientist, a Stanford, a world-class researcher and educator, and now he is a new
podcast on YouTube and all the usual places called Huberman Lab that I can't recommend
highly enough.
Quick mention of our sponsors.
Masterclass, online courses, for-sigmatic mushroom coffee, magic spoon, low carb cereal,
and better help online therapy.
Click the sponsor links to get a discount.
By the way, Masterclass is testing to see if they want to support this podcast long
term, so if you're on the fence, now is the time to sign up.
And I'm pretty sure Andrew will have a neuroscience masterclass on there soon enough, though his
podcast is basically a weekly masterclass in itself.
As a side note, let me say that Andrew is a friend and a new collaborator.
We're working on a paper together about a topic we're both really passionate about,
at the intersection of neuroscience and machine learning.
But that's probably many months away from being published.
Still, I'm really excited about this work. He's one of the smartest and kindest people
I have the pleasure of talking to on this podcast. So I hope we'll talk many more times in
the future. If you enjoy this thing, subscribe on YouTube, review it, and I have a podcast,
follow on Spotify, support it on Patreon, or connect with me on Twitter, Alex Friedman.
As usual, I'll do all of the ads now, none in the middle.
I'll try to improvise and rant a little bit more than I've done in the past. I give you time stamps,
so if you skip, please still check out the sponsors. It's the best way to support this podcast.
This show is sponsored by Masterclass. A 180 bucks a year gets you and all access passed to watch courses from the best people in the world on a bunch of different topics.
The list is ridiculous. Includes Chris Hadfield, Neil de Graz Tyson, Will Wright, Carl Santana, Gary Kasparov, Daniel Nagrano, Neil Gaiman, Martin Scorsese, Tony Hawk, Jane Goodall, and just keeps going like that. It's kind of interesting that from my perspective, Masterclass created a whole new kind of way
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Get up to 40% off and free shipping on mushroom coffee bundles if you go to foursigmatic.com
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If you know what's good for you, you'll go with the cocoa flavor, my favorite flavor and
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Actually speaking of Cocoa, I got a chance to exchange a bunch of messages with the great Joey Diaz, Joey Coco Diaz.
He is, as Joe Rogan says, the sweetest human being.
It's kind of incredible actually.
How much Kerry has given how sort of edgy his comedy is.
There's so much love underneath that that is just beautiful. I do hope I get to talk to him on this podcast.
Eventually, he's just a special human being. I just felt the love. It was great. Plus, I was a bit star struck.
I mean, the whole thing is amazing. Okay, go to magicxplume.com slash Lex in the description and use code Lex at check out for free shipping.
This episode is sponsored by BetterHelp. Spelled H-E-L-P-E-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H-H- I've mentioned before that I actually wanted to be a psychiatrist when I was younger.
It was a way for me to try to understand the human mind.
And of course, talk therapy, you know, psychotherapy was a fascinating tool in my mind of exploring
the human mind.
And I suppose you can think of podcasts as a kind of psychotherapy, maybe for me.
Maybe that's the reason I'm doing this thing in general,
but there's also other forms, like I'm doing the Goggins challenge. That's the kind of therapy.
I'll be alone with my thoughts and with a mad man, Mr. David Goggins. So in a Freudian sense,
I'm sure I'm going to discover something about myself, something maybe that I don't want to
discover, but probably something I definitely need to work through. Anyway, something maybe that I don't want to discover, but probably
something I definitely need to work through.
Anyway, better help is easy, private, affordable, available worldwide.
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I think one of the luxuries I have now is there's so many people that want to advertise
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I'm starting to care less and less in reading the copy they give me.
I'm just going to go off script and just speak from the heart.
And if they want to drop us, they drop us who cares.
That's that I only try to take on sponsors that actually use and love.
So if they drop us, I'll generally miss them and keep using them.
Okay.
And now finally, here's my conversation with Andrew Huberman.
Why do humans need sleep? Let's go with a big first question.
Well, the answer I'll start with is the one that I always default to when there's a
Y question, which is, I wasn't consulted at the design phase.
So I wriggle my way out of giving a absolute answer, right?
But there's one mechanism that's very clear, that's super important, which is that the
longer we are awake, the more adenosine accumulates in our brain.
And adenosine binds to adasine receptors. No surprise there. And it creates the feeling of sleepiness,
independent of time of day or night.
So there are two mechanisms.
One is we get sleepy as a Dynasine accumulates.
The longer we've been awake,
the more a Dynasine is accumulated in our system.
But how sleepy we get for a given amount of adenosine
depends on where we are in this so-called circadian cycle.
And the circadian cycle is just this very, very well-conserved
oscillation.
It's a temperature oscillation where you go from a low point,
typically if you're awake during the day and you're asleep at night,
your lowest temperature point will be like 3am, 4am, and then your
temperature will start to creep up as you wake up in the morning, and then it'll peak
in the late afternoon, and then it'll start to drop again toward the evening, and then
you get to sleep again.
That oscillation in temperature takes 24 hours plus or minus an hour.
And I don't, even though I wasn't consulted
at the design phase, I do not think it's a coincidence
that it's aligned to the 24 hour spin of the Earth
on its axis and the fact that we tend to be bathed
in sunlight for a portion of that spin
and in darkness for the other portion of that spin.
So there are two mechanisms, the adenosine accumulation
and the circadian time point that we happen to be at.
And those converge to create a sense of sleepiness
of wakefulness.
The simple way to reveal these two mechanisms
to un-couple them is stay up for 24 hours.
And you will find that even though you've been,
let's say you stay up midnight, 2 a.m., 3 a.m.
provided you're on a regular schedule,
like that I follow, not like the kind that you follow
you get I will get very sleepy around 3 4 a.m. but then around 5 or 6 or 7 a.m. which is my normal
wake up time I'll start to feel more alert even though adenosine has been accumulating further
so adenosine is higher for me the longer I stay up and yet I feel more alert
than I did a few hours ago and that's because these are two interacting forces.
So adenosine makes you sleepy and then just how sleepy or how awake you feel also depends
on where you are in this temperature oscillation that takes 24 hours.
Okay, so that's fascinating.
So there's a bunch of oscillations going on and then it kind of through the evolutionary
process have evolved to all be aligned somewhat
in the interplay. So you said your body temperature goes up and down.
There's chemicals in your brain that oscillate and then there's the actual oscillation of the
sun in the sky. So all of that together has some impact on each other and somehow that
all results in us wanting to go to sleep every night. Right. So, and we can get right into
the meat of this. I don't know, I guess we just dove right in. But the, so the temperature
oscillation is the effector of the circadian clock. So every cell in our body has a 24 hour rhythm
that's dictated by genes like clock per B-mout.
This is one of the great successes of biology.
They give a Nobel Prize to the rep,
and I don't know if rep, got it for give me,
but sorry, if you got it, Steve,
congratulations, if you didn't, I'm sorry,
I wasn't on the committee.
Nonetheless, did beautiful work, Steve rep,
and others, but Mike Roshboschen, like other people,
worked out these mechanisms and flies and bacteria and mammals.
There are these genes that create 24-hour oscillations in gene expression, etc. in every
cell of our body.
But what aligns those is a signal from the master circadian clock, which sits right above
the roof of the mouth, called the superchiasmatic nucleus. And that clock synchronizes all the clocks of the body
to this general temperature rhythm
by way of controlling systemic temperature,
which makes perfect sense.
If you want to create a general oscillation
in all the tissues and organs of the body,
use temperature.
And so that work on temperature,
if you want to explore it further further was Joe Takahashi,
who was at Northwestern now at UT Southwestern in Dallas. And it is absolutely clear that humans do
better on a diurnal schedule, sorry Lex, than a nocturnal schedule because you could say, well,
provided I sleep and push a denocene back downhill, which is what happens when we sleep, but denticine is then reduced.
And provided I am on more or less a 24-hour schedule, why should it matter that I'm awake
when the sun's out and I'm asleep when the sun is down.
But it turns out that if you look at health metrics, people that are strictly nocturnal
do far worse on immune function, on metabolic function, et cetera, than people who are diurnal,
who are awake during the daytime.
And animals that are nocturnal, it's the opposite.
And animals that are so-called crepuscular, which tend to be active at dawn and at dusk.
This is a beautiful system.
I won't go down that rabbit hole, but these are animals whose visual systems operate best.
They tend to be predators like mountain lions.
They have optimized their waking times
for the times when the animals they eat can't see well in those light conditions. But given the
rod cone ratios in their eyes, the mountain lion is picking off. It's like when you see special forces
and they are looking through night vision goggles and they have a clear advantage, right? They
are seeing in the dark. That's basically what it's like to be a mountain line
as opposed to a bunny rabbit.
Would you say that a lot of these cycles evolved
in the predator-prey relationships
of the different throughout the food chain?
So it's basically all somehow has to do with survival
in this complicated web of predators and prey.
Almost certainly.
There had to have been a time in which humans being awake
and active at night, as opposed to during the day,
led to higher levels of lethality.
And probably particularly in kids,
you imagine kids running around in the dark
and getting where there are a lot of animals
that can see really well under those conditions
and humans can't.
And this would all be all pre-electricity.
Even if you're carrying a torch.
I mean, the range of illumination on a torch
is nothing compared to what a nighttime predator,
like a large cat or something can do them.
I mean, they basically, they can see everything they need to
in order to eat us and not the other way around.
So one fascinating thing you said is,
that blew my mind and went right past it, which is the
temperature is a really powerful, like if you were to think about the ways that different
parts of the body, different systems in the body would communicate with each other, temperature
would be a really good one. And that just, I mean, maybe it's obvious, but it kind of blew my mind
just now that, yeah, these systems are all distributed, right? And they have to kind of,
they're not actually sending signals, but they're coordinating. They need some sort of universal
thing to look at in order to coordinate. And temperature is a nice one to build around. And that way,
you could control the behavior of all these different systems by controlling the temperature.
Right. It's attractive to think of a mechanism where this master circadian clock secretes a peptide
or something that goes and locks to receptors in all the cells and gets it just right. But that
leaves far too much room for variability, binding affinities, cells in a lot of parts of our body are at different stages of
maturation, they're turning over, liver cells and so forth. And for instance, we have a clock in
our gut and in our liver, such that if we were just take out your liver and put it on a table
and just look at the expression of these genes, it would be in a 24-hour oscillation on its own.
It's independent, but something has to entrain them and keep them all synchronized.
So it's not obvious that it would be temperature.
Takahashi's great gift to biology was to show that all the stuff coming out of this master
circadian clock at the end of the day.
That's a weird statement.
No pun intended.
At the end of the day, end of the day, at the end of the story,
it all boils down to making sure
that the temperature of tissues oscillates
in the same fashion.
As blowing my mind and thinking,
like what other mechanism could possibly exist
to create that kind of oscillation?
Well, you're Russian, it's cold in Russia
for a lot of the year.
The hibernation signal in certain animals is a remarkable signal.
There are peptides secreted from this very same clock that in
animals like ground squirrels or bears, they go into a kind of a
torpor where everything reproduction, metabolism, everything is
reduced while they're in their cave. They don't actually stay a
sleep all of winter. That's a myth. And they actually do these
very dramatic
and periodic arousals from hibernation where they just shake and shake and shake. It looks
like a seizure. And then they go back under into the torpor. That's from a peptide that's
released. But that's different because that's about shutting down the whole system. It's
clear that having these very regular oscillations every 24 hours is essential for everything from metabolism to reproduction.
Is there an optimal temperature for sleep
that I should mention, I think you're the latest episode.
You and people should go check out helixleap.com slash
human to support Andrew.
Thanks for the plug.
I mean, the amazing thing about the stuff they create.
Oh, and yes, you have a new podcast.
That's amazing.
And this past month, he did a whole series on sleep,
which people should definitely check out.
There's some podcast that come out
that just make me want to be a better human being by just the
quality.
A 3-B-1 brown grand sanerson is like that for me just like wow this is education is best
so Andrew symbolizes that captures that brilliantly so it goes support the sponsor so he doesn't
stop doing the thing So they I think they have a cooling pad too. So I
sleep mattress that sponsors me
they've been
They sent me a mattress and it's been I've never listen I used to sleep on the floor sleep where you fall
You sleep where I fall. I don't give a shit. It doesn't it doesn't really matter
But so like I would have never bought a nice mattress.
Because it's like, why?
I'm fine.
This is the floor.
It's fine.
But it was a game changer to be able to control temperature.
Like for me, it's cooling to cool.
I don't know what the hell it is.
Well, you want the brain and nervous system
and rest of the body needs to drop by about anywhere from two to three degrees in order to get into your deepest
sleep and transition to sleep.
That's really going to help.
You don't want to be cold that you're bothered and can't fall asleep,
but that's why some people like it really cold in the room and under a warm
blanket or with socks on for some people that can, that can be good.
Because this temperature oscillation is such that as your temperature is dropping, that correlates with the generally with the most
sleepy phase of your circadian cycle. So cool is better for falling and
staying asleep and sleeping deeply. And then I guess like that's what A sleep
showed. They're like an app is it warms back up to wake you up. The idea that
I haven't actually used it like I'm like this is stupid.
People say it works, but I just keep it the same temperature throughout the night.
But warming it up, I guess, wakes you up, which is fascinating.
Yeah, because the wake-up signal is interesting to think about. It's not just correlated with
an increase in body temperature. The increase in body temperature is triggering the release of cortisol from your adrenals
And that's the wake up signal. Do you think it's absolutely temperatures?
We're talking about is just even relative just even just the decrease
Well, everyone's gonna have slightly different basal temperature the idea that everybody should be 98.6
I mean, that's a myth and there's a theories that body temperature overall has
been dropping in the last 50 years or so. I doubt that's true for somebody who is athletic,
like you and is, you know, young and healthy. But basically, the coldest period of that 24-hour
cycle is when you are going to be sleepiest. There's actually a period within that 24-hour cycle.
It's a time point called your temperature temperature minimum and your temperature minimum tends to be
about two hours before your typical wake-up time. I'm not talking about the wake-up time in the middle of the night where you go
use the bathroom or where you're setting alarm to go catch a flight. I mean if you were to just allow yourself to sleep without a clock
for a few days measure when you typically wake up two hours before then your temperature minimum. And that temperature minimum turns out to be a
very important landmark in your circadian cycle.
Because it turns out that if you get bright light
in your eyes in the hours immediately
before your temperature minimum.
So two to four hours,
or any time within the two or four hour window before that temperature
minimum, you are going to what's called delay your circadian clock.
The next day, that whole oscillation is going to move forward.
It will make you want to go to sleep later and wake up later.
Whereas, if you get bright lighting in your eyes in the hours after that temperature minimum.
So let's say for me, typical wake up time is 6am, my temperature minimum is somewhere around 4am.
If I get bright light in my eyes, 5am, 6am, 7am,
it's going to advance that oscillation.
So that I'll wanna go to bed earlier
and wake up earlier the subsequent nights.
So you might say, wait, but most nights,
I go to sleep and wake up at more or less the same time.
Why is that?
And that's because the same thing is happening on both sides.
You are both advancing your clock a little bit
and assuming that you're looking at light in the evening,
you're also delaying your clock a little bit.
So you get kind of captured in between
and then your rhythm more or less oscillates
at the same period as we say is the spin of the earth.
Unless you're like you,
where you're,
I get text messages from you sometimes
that on hours and I'm, if you're on the East Coast, then I know that you had to have
been pulling basically in all night.
Yeah, yeah.
Well, that's the interesting point about the messiness of sleep. The most people seem to
up perform the best when they have like a regular sleep schedule. I perhaps am the same, but I don't know that. And I tend to believe
that you can also perform relatively optimally with chaos of sleep of like a weird soup of like power naps and all-nighters and all of that, as long as you're like happy
doing what you love and maybe you can tell me what you think about this.
I tend to for myself try to minimize stress in life. So what I found for myself with diet with sleep is that if I obsess about
it being perfect, then I'll actually stress quite a bit when it's not. Like I'll feel shitty
when I don't get enough sleep because I know I should be getting more sleep as opposed to
the actual physiological effects of not getting enough sleep.
I find if I just accept whatever the how happens happens and smile and just, you know, take it all in, like David Goggin style, like if it sucks, it's even better.
Or what is it, Jaco's like good, or whatever he says, says? Right, I think there's several things that you said
that are important, but I agree that one can have
a dysregulated sleep schedule and still be a happy person
and productive.
Much of my life, I've pulled all nighters
and slept weird schedules.
I think many people can probably relate to going to sleep,
waking up four hours later, being up for an hour or two
on your computer, then going back to sleep and getting waking up four hours later, being up for an hour or two on your computer,
then going back to sleep and getting amazing sleep the next day functioning.
I think we've, I think it's important that people have highlighted the importance of sleep and getting enough rest.
I do think it's gone too far and now I'm editorializing a little bit, but I think that we've created this anxiety about sleep
that it's going, if we don't sleep enough, we're going to get dementia.
If we don't get sleep, then the reproductive axis
is going to completely crash.
There's a lot of evidence to the contrary,
and as well, just based on personal experience
and based on the fact that, sure, it may be that a solid eight hours
with no interruptions in there or nine or ten could
do great benefit, but you can do really well if you do what you say, which is you wake
up, you don't want to start stressing about it, creating this meta stress about sleep.
Being happy is actually one of the most powerful things that you can do, not allowing yourself
to go down that rabbit hole of stress.
For the following reason, a lot of our fatigue is not due just to the buildup of a denocene
or time of day, the circadian thing we were talking about earlier.
An additional factor is that effort is related to the release of epinephrine, of adrenaline
and our brain and body.
At some point, those levels get so high that we get stressed mentally, we get stressed
physically and we want to give up.
There are good data published in cell showing that that signal, the up and effort signal,
is eventually accumulates and there's a quit point.
Dopamine, the molecule of pursuit and reward and feeling good, resets our ability to be
an effort. In fact, a lot of people
don't know this, but dopamine is actually what epinephrine is made from. If you look
at the biochemical cascade, it starts with tyrosine, which is rich in found in red meats
and things of that sort. And tyrosine is eventually converted through things like
altopa into dopamine. Dopamine is made into epinephrine. So, I mean, this sounds kind of new agey, but happiness, joy, and pleasure in what you're doing
creates a chemical milieu that provides more of the chemicals that allow for effort.
And there's nothing new agey about that. It's in every biochemistry textbook. It's in every decent
neuroscience textbook. They just don't talk about the happiness part.
They just talk about the dopamine part.
So I think that limiting your stress
and at least recognizing, okay,
if you're pulling it all night or you're somehow
on messed up sleep,
that there is going to be a point in that 24 hour cycle
where your brain is not trustworthy,
where your mental state is not worth placing too much weight on because
you are near that temperature minimum and near that temperature minimum, which just correlates
to that two hour, about two hours before you would normally wake up. The brain is hobbling
along and anything you feel or think at that time should not be given too much value.
But if you can trick yourself into thinking that's the pleasure point, you afford yourself
a huge advantage.
There's a study done by a colleague of mine at Stanford that showed that positive anticipation
about the next day events actually is a powerful metric for creating quality sleep even if the sleep is very reduced.
And you'll love this one. And a lot of people are going to, you know, might be critical
this, so I just want to make sure that so this is work done out of Harvard Medical. It was
Bob Stick Gold's lab, an Emily Hogan did this study that showed looking at Ochem performance on
Ochem scores. Okay, so organic chemistry, however, is pretty tough subject, highly motivated.
A number of very good control groups in this study, what she showed was that consistency
of total sleep duration was far more important for performance on these exams than total
sleep duration itself.
So it's not that just getting more sleep allows you to perform better,
consistently getting about the same amount of sleep is better for performance, at least in an
onochem, than just getting more. That's interesting. So that's referring to more that there should be a
consistent habit versus the total amount. To me, like the entirety of the picture of sleep is
similar to nutrition in that. It feels like it's, there's so many variables involved and
it's so person specific. So, you know, a lot of studies, I mean, this is the way of science
has to look and aggregate the effects on sleep.
It doesn't focus on high performers, which are individuals, ultimately.
The question isn't, so it's a very important question is like, what kind of diet fights
obesity, reduces obesity?
It's another question.
What kind of diet allows David Goggins to be the best version of himself?
So these high performers in different avenues.
And the same thing with sleep, like people that tell me that I should get eight hours of sleep,
it's like, I mean, I get it and there may be right, but they may be very wrong.
There's no evidence that eight is better than six.
That you could very well do better on six than on eight.
There are a few other things that turn out
to be strong parameters for success in this domain.
For instance, your entire life waking or asleep
is broken up into these 90 minute ultradian cycles.
If you look at ability to attend or do math problems
or do anything drive, know, drive, performance
tends to ramp up slowly within a 90-minute cycle peak and then come down at the end of
that 90-minute cycle.
And in sleep, we go through these Stage 1, 2, 3, 4, ram, et cetera.
We'll talk more about that if you like.
Those on 90-minute ultra-dian cycles as well.
Ending your sleep after a 90-minute cycle at the near the end of a 90 minute cycle,
say at the end of six hours.
In many cases, it's better for you than sleeping an additional hour, seven hours, and waking
up in the middle of an ultradian cycle.
And there are a few apps that can measure this based on body movements and things like
that that have you, your alarm go off at the end of an ultradian cycle.
And if you wake up in the middle of a Naltradian cycle,
sometimes not always, you can be very groggy
for a long period of time.
I certainly do better on six hours than I do on seven.
I happen to like an eight hour sleep, it feels great,
but I haven't slept an entire eight hours
without waking up in the middle of the night at some point in,
I don't know, forever.
I can't remember.
It's probably some point in infancy, but know, forever. I can't remember. It's probably some point in infancy.
But, and I function well during the day.
I think that that's a big, that's an important parameter
is how do you feel during the day?
Almost everybody experiences some sort of dip in energy
in the late afternoon or what would correlate
to their temperature peak.
And that's a good time of day to get either a 90 minute
or less nap, or if you're
not a napper, or you can't nap, feet elevated has been shown to be good for clear out of
some of this, the glimphatic system is this kind of like sewer system with a brain that
you can clear stuff out. So legs elevated, or one thing that I'm a big proponent of and that my lab has been studying is what I now call
NSDR non-sleep deep rest and
This is just lying down
There are some scripts that we're gonna put out there soon as as a free resource
There's some hypnosis scripts that my colleague David Spiegel is put out. There's a free resource
But non-sleep deep rest is allowing your system to drop into states of
Non-sleep deep rest is allowing your system to drop into states of a real calm that allow you to get better at falling asleep later.
And they can be very restorative for cognitive and motor function.
There's at least one study out of Denmark that shows that the basal ganglia, which is an
area of the brain that's involved in motor planning and action.
One of these 20-minute non-sleep deep rest protocols resets levels of neuromodulators like
dopamine and the basal ganglia, too. of these 20-minute non-sleep, deep rest protocols, resets levels of neuromodulators like dopamine
and the basal ganglia, too, the same levels that they were right after a long night sleep.
So I also respectfully, or semi respectfully, disagree with the idea that you can't recover
lost sleep.
What does that mean?
I mean, there's no IRS for sleep.
So what does it mean to be in debt for sleep? If you're falling asleep during the day and you're sleepy,
like you're falling asleep,
that's a good sign of insomnia.
It means you're not sleeping enough at night.
If you're fatigued during the day,
but you're not falling asleep,
so you're just exhausted,
but you're not finding yourself falling asleep
in meetings and in conversation,
then chances are you're fatiguing your system
through something else,
like a long run in the middle of the night and lost in or whatever it is that you're up too lately at 3 a.m.
Yes, there is a magic to the nap and maybe you could speak to the because you mentioned these protocols that don't necessarily so they're non-sleep, but to me, the nap, one or two a day, can almost irrespective of
how much sleep I get the night before.
Have a fundamental change in my mood, in my performance and all the better, for the better,
for the better.
Yeah, likewise.
So, I do tend to kind of experiment with durations. It's it's consistently
surprising to me how like a nap of like 10 minutes. I don't know maybe you can
speak to the perfect duration of a nap, but I find that it's like magic that a
short nap does as much good and often better than a longer one for me for me subjective.
What would be a longer one longer than 90 minutes?
No, no, like 90 minutes or but longer than 90 minutes, like two hours.
Yeah, that's dropping you starting to drop you into REM sleep.
And even if it's a tiny amount of REM sleep, people can come out of those naps kind of disoriented.
Right.
I mean, remember in sleep, space and time are totally uncoupled.
And so they, that's an odd state to reenter the world.
And if you're not going to stay there for a while,
like for a good night's sleep, I think a 20-minute nap is pretty fantastic.
Would you say that's the...
If you were to recommend to the general, it's very weird to recommend anything
to the general populace because obviously it's very person-specific.
But what's a good
one we say to friends is 20 minutes, 20, 30 minutes, 20 or 30 minutes because you're going,
unless you're sleep deprived, you're going to stay out of REM sleep, rapid eye movement
sleep. If you're sleep deprived, you'll drop right into it. If you've ever traveled and
you're really jet lagged, you go to the hotel, you lay down for one second all the sudden, you're just like, you're in a psychedelic dream, which can be pretty great too.
But I think that 20, 30 minutes, and if you can't sleep, some people have trouble napping,
then learning to relax the body as much as possible, like trying to remove all expression
from your face, completely letting your body kind of float.
If people have a hard time relaxing when they're awake, there's some terrific clinically
and research tested hypnosis protocols that we could provide links to that are cost-free
and that teach you how to just completely release the alertness button and you just start
drifting.
Now, the problem is, if you don't have an alarm or something to go off, the other day I did one and I'm almost embarrassed to say this but there's a component of it where you actually are supposed to let your hand float up because it's a hypnosis script.
So they, my colleague David Spiegel in the script, he says, let your hand float up. I woke up an hour later and my hand was still outing. Wow. Yeah, and I was and I was completely relaxed
so
hypnosis is hypnosis is just a matter of going deep relaxation narrowing of context and
It's all self-imposed a lot of people think that hypnosis is like the stage thing with the pendant and the chicken
You know people fucking like chickens, but you can be a noose is self hypnosis. You're learning to it
involves some shifts in the way that you the hypnotic
induction involves looking up closing your eyes slowly
deep breath and then imagining yourself floating and people
vary on a scale of about one to four for being the most
easily hypnotized. There are a few people who it's very hard
for them to allow themselves to to go into these states. But most people, they just, they're gone. And it's nice if you can have access to those
states, because when you come out of it, you feel amazing. You feel like you slept the whole night,
at least most people report that. So refresh alert. Ready to go. I mean, basically, you're ready. Yeah,
I know you have this interesting challenge coming up.
And I'm curious what you're going to do to reset in the hours.
The frequency of running is every four hours.
It's not going to allow you to get any more than a couple
hours sleep in between.
A couple hours.
So we should tell people, I'd be curious to get your thoughts
and advice on it.
I'm March 5th running 48 miles with Mr. David Goggins.
So four miles every four hours and people should join us.
He's that madman that's going to be live on Instagram,
starting at 8 p.m. Pacific on March 5th.
So you're gonna join him in person,
in person, undisclosed location.
Undisclosed location.
And I was trying to clarify like, okay, so we're gonna,
like, there'll be like friendly people around
or something.
No, it's just me and him.
Friendly people.
I don't know.
Like, I just feel it's very difficult to be
with David alone in the room.
I imagine his, I mean, I've done some work with David.
His energy is infectious.
That's an intense schedule. And the periodicity of those four hours, every four hours, four miles means that there's no chance of catching an extended block of sleep. So it's about
three hours that you have non-exercising every time. And of course, it takes time to try to fall asleep and there's an
intensity to the whole thing. I mean, it's probably impossible to get anything more than
two hours of sleep if you wanted to. So the optimal thing is probably from the sound of
it, I'd be curious to see what you think, but like it's getting a few 90 minute naps. Well, I thought about this a bit before we met up today.
So I think there are two general approaches that could work, neither one necessarily better
than the other.
One would be just to hammer through the whole thing, just to get your level of alertness
and adrenaline ramped up so that you don't
expect yourself to sleep.
There are certain advantages there.
One is a subjective kind of emotional advantage, which is if you can't sleep, you're not
going to be stressed about that.
And if you do fall asleep, it's a bonus.
Provided you wake up and you don't look up and you realize, David's been out running for
half an hour and you're behind, right?
Chances are, that's not the way it'll go.
You're setting alarm. So that's one approach. And I grabbed that from a couple
friends who were in the SEAL teams and they'll say that, you know, during Buds, there's
this infamous hell week and there's this five hour, five days, excuse me, definitely
five days of no sleep, although there is a component where they offer a nap at one particular
point.
And a lot of people will say that it's worse to go down for that nap and then be woken
up 20 minutes later than to just stay up.
So that's one option.
Let's call it the full blitz hammer through option.
And if you happen to fall asleep, you do bonus to bonus.
The other one would be to really anchor in these all-tradient cycles.
So coming back from a run, unless you're thoroughly exhausted, you're probably going to have a
few minutes where you're going to want to stay awake. It's going to be hard to just immediately
fall asleep and getting as much sleep as you can in the intervening periods. Provided you guys
posting constantly or doing something else.
You also, it is a question whether or not you want to nourish, whether or not you want
to eat or not in that time.
Anytime we put food in our gut, I don't care if it's meat or oatmeal or broccoli or cardboard,
you're drawing blood into the gut and so you are going to divert some energy towards digestion
and it's going to make you sleepy.
There's a reason why the rest in digest the person
without a nervous system is called that.
So you could decide that you were only
going to sleep in between certain blocks.
That would be another way to think about that.
That, because I did this last year, I ran very slow.
Some of it was walking.
I was listening to audiobooks.
And one of the biggest mistakes I did
is to overeat during that time.
It was, I made the experience very unpleasant.
So I have been considering basically eating
almost nothing throughout the day.
Being fasted will increase alertness
because high levels of epinephrine in your system
from fasting.
Just think about fasting or being thirsty before Before you get exhausted, people always think,
if I don't eat, I'm going to be tired.
No, the energy that you derive from food
is going to be used from glycogen
after a long storage and conversion process.
So the food that you eat is going to consume energy
to digest.
And so a lot of people feel better fasted.
And presumably throughout history,
people have fasted for long periods of time and had
to stay up for two or three days.
And you know, God forbid if a family member is sick, you can stay awake in the hospital
without any trouble.
So that alertness system, and it's all mental.
Actually, and then there's a third, so you could try and sleep or take care in between.
Yeah.
And then there's a third approach.
Uh-oh.
Yeah.
But I didn't come up with it.
What is it?
What is it?
David did.
Okay.
So I actually texted him earlier because I had a feeling that I heard that you were going
to do this challenge.
So I asked David.
So these are David Goggins words, not mine.
Okay. One. mine. Okay.
One.
Okay.
Okay.
Being organized is super important.
Two, you want to waste as little time as possible.
Three, you need to eat, sleep, and rehab in as little time as possible so you can sleep
as much as possible.
Oh, interesting.
By the way, this is the first time I'm reading this.
Four, meal prep and gear prep, etc. are very important. That's
That's consistent with everything I know about military. They don't
They don't leave too much to chance
five
Again, these are David's words. All that said he's fucked on most all that because he'll be interviewing me before or after
I will also be interviewing him.
Oh, shit.
Five long story short,
the only thing that might help is a very special pill.
Ooh, this is interesting.
They're called S-I-U pills, hard to get,
but I believe he can get them.
S-I-U stands for suck it up.
Tell him to grab his balls.
He will find those pills there.
That's number six. And then the last one, stay hard brother. Stay hard brother.
Amen. You know, that was one of the other things that I think makes us challenging is that
it'll be doing a podcast throughout. So first of all, do a long one before and after, but also I'll
have to come up with things to talk to him about. So like, it's a different thing to do
something privately and then publicly. I know it doesn't seem that way, but like one of
the hardest, the hardest thing I had to do last time was to turn on the camera
and talk to the camera because I last time I did it, I recorded every single time I
did a leg, I recorded something I'm grateful for. It's just kind of unrelated. I'm not a
fan of like talking about like how I'm feeling or how the run is going. I want to do something
totally unrelated to the run and with the run as the background, you know, sort of something I'm grateful for,
just any kind of interesting discussion gratitude. I mean, I hate the word
hack, like, oh, it's a dopamine hack or it's a serotonin. I don't like the word
hack because it's disrespectful to hackers who do a real thing and be a hack. It implies that it's some sort of trick that you're you're kind of gaming the system.
You know what works is mechanism, right?
Biological mechanisms were designed to work and they were selected for to work under
variable conditions.
And as you know, and I know, and we have great appreciation for the fact that
the nervous system was designed to be an adaptive machine so that you don't have to sleep eight hours
every night. You can do this thing. And things like gratitude allow you to tap into chemical
resources. And that's not a hack. The fact that being grateful for something external to the event
The fact that being grateful for something external to the event happens to release serotonin and have a certain soothing effect or dopamine and give you more
epinephrine and let you go further, that's not a hack. That's actually what
allowed the human machine to evolve to the point that it is now. Every time, you
know, an inventor eventually created something that worked and felt great
about it. You can imagine that the first, you know, air flight felt pretty awesome and motivated those people to go on and
do more. They didn't just go, ah, you know, y'know, y'know, y'know, y'know, go have a beer. So,
being able to access the genuine internal states of gratitude and reward works. You can't
trick the system. You can't pretend that you're grateful for something.
But if you can identify or attach yourself to some larger goal or something that's deeply
gratifying to you or place it in service to a relative that passed away that you care
a lot about, that's not a hack.
That's accessing the deepest components of your nervous system.
And to steal your kind of linga, you know, there's real beauty there, right?
Yeah, but for an introvert like myself, and I think David, I don't know if he's an
introvert, but like he's not, despite the fact that he has written a great book
and he communicates, he puts himself out there, he's not really a fan of
communication. He's not, I don't know if he's energized by speaking his mind.
I don't know, well enough to know.
I mean, we've done a little bit of work together
and we're in communication now and again,
he's obviously super impressive.
I don't know.
It seems like he's a pretty private guy.
Yeah, so I don't have access to that.
So for me, I'll just speak to myself, and I think David is the same, but I'll speak to
myself that it was a hugely draining thing not to experience the gratitude, experiencing
the gratitude.
Just like you're saying, is really energizing.
And it's a powerful thing.
It can lift up your mood.
But to turn on the camera and have to use words,
which is very difficult to do, to explain like what you're feeling and do it in the way that you
know a bunch of people will be watching is really draining. And one of the things I'm concerned about
I'm concerned about that in this whole process, how do I keep my mind sharp while also keeping the physical performance sharp?
And that's a little bit scary because talking to David, like actual intellectually sharp,
like thinking, being charismatic and as much as I can be, and like being still maintaining a sense of humor too,
because I can be, I become with sleep deprivation,
with exhaustion, you start being.
The Russian bear comes out.
You start being such a, like, I become a David Gog in the
century, like, oh, it makes you irritable.
Sleep deprivation makes us irritable.
Yeah, it's clear so that in the early part of the night,
we get a higher percentage of those old
trade in cycles are occupied by slow wave sleep.
Sometimes just called non-rem sleep.
And those early night sleep bouts are great for muscular repair
and for certain forms of learning,
but REM sleep, the rapid eye movement sleep,
which it starts to accumulate and occupy
more of those 90-minute-altradian cycles toward the late part of a sleep-bout, so typically toward
morning, but toward after you've been in the sleep a while. That's when you do the emotional
processing. That's when we recover the ability to feel refreshed and not irritated by things.
we recover the ability to feel refreshed and not irritated by things.
And if you deprive people of REM sleep,
they become selectively bad at un-coupling the emotion
from things that happen in the previous days.
So the little things start to seem like big things.
I always know I'm REM sleep deprived when I'm irritable
and when I look at the word the and it doesn't look
like it's spelled right and I'm kind of pissed off about it.
Like something's off and we actually are becoming slightly
psychotic when we're REM sleep deprived. You're not going to get a lot of REM sleep in this thing except as you fatigue more
if you do fall asleep you're going to drop more and more into REM so that those 90 minute cycles you won't have to go through
stage one, stage two, stage three and then REM, you're just going to drop right into RAM.
So you can count on your system to compensate for you.
But I think that just the knowledge that you tend to get irritable is the time goes on.
Does that third personing of yourself, that awareness, the observer, that can be very
beneficial because there may be about stirring this event when you just should probably say
nothing. And maybe you just,
um, I don't know, smile and record or not smile or do whatever it is because you're going
to be conserving energy. If it feels like a grind, that's epinephrine being released. That's
epinephrine that you could devote to the physical effort. But humor is an amazing anecdote for
this because it resets that it's that dopamine release that gives us that fresh perspective.
And it's a real chemical thing. It's not a hack, it's not a trick, it's not a visualization, it's biology in action.
Well, but I think the act of interviewing of conversation in these processes, even if you don't want to do it,
the right thing to do, even when you're feeling irritable, is to do the third person view
and be able to express with words that you're feeling irritable. Like express what you're going through,
you know, use words which I hate doing. I honestly, I think my ultimate thing
would be just to never say a single word to David Goggins and just go through hell. It
doesn't matter what we do, but to do it quietly, to also express it, that's my ultimate
hell. And he's definitely going to be, if I know David at all, he's, he's going to try
and find your buttons like he's going to, he, I mean, he, even though he knows he can complete this,
and I believe that he trusts that you can complete it too,
I believe you can, you will complete it,
you know you will complete it, right?
There's no question about that,
but he's not gonna make it easier for you,
he's gonna make it harder.
Well, I'm afraid, so I'm like, you know,
it's very difficult for me.
So, 48 miles is not easy.
I haven't been training that much,
I'm not ramping up, but it's not like going to kill me.
We'll see what happens. Of course, for him, he might almost get bored because I think the 48 miles for him is easy. I think I'm not aware that I don't know that ever gets easy. I have a friend, Casey Cordial, who works with David, he's a, a, does some physical
rehab type stuff with him, and he took Casey on a 50 mile or, and Casey said it's like 16 miles
into it. He was just like, he'd hit his wall. But they found it. They, they find it to get, you know,
you find that portal. There is one thing I want to mention. There's some very good physiology
that can perhaps support the actual running effort part. These are very new data.
We have a study going on with David Spiegel at Stanford looking at how different patterns
of breathing can affect heart rate variability. Heart rate variability is good. There's this
interesting mechanism that I think most people might not realize, but that medical students
learn that you're breathing and your heart rate and your brain are in this really remarkable interplay.
It goes like this, when you inhale, this isn't breath work, we're not going to do breath
work.
But when you inhale, the diaphragm moves down.
The heart gets a little bigger because there's a little more space in the thoracic cavity.
And as a consequence, blood flows a little bit more slowly through that larger volume.
And there's a category of neurons, the Sinonatural node,
that sees that, that recognizes that slower rate
through that larger volume.
It sends a signal to the brain stem,
and the brain stem sends a signal back
to the heart to speed the heart up.
So every time you inhale, you're in speeding the heart up.
When you exhale, the diaphragm moves up,
the heart gets a little smaller, the volume is smaller, blood're in speed in the heart up. When you exhale, the diaphragm moves up, the heart gets a little smaller, volume is
smaller, blood flows more quickly through the heart, signal sent up to the brain, and
the brain sends a signal back to slow the heart down.
This is the basis of heart rate variability.
So at any point, if you feel like your heart is racing and you feel like you're working
too hard per unit of effort, focus on making your exhales longer or more intense than your
inhales.
If ever you feel like you're truly flagging, you do not have the energy to get up.
It's like, okay, it's time to go and you're exhausted.
You want to draw more oxygen into the system, get your heart rate going faster.
Now, some people want to hear this probably thinking, well, this is really obvious, but
there's so much out there about breath work and how to breathe and all this stuff.
And no one talks about how to do it in real time
while you're exerting effort.
So this is something like almost like second by second,
you can adjust things to just in real time
based on how you're feeling
by based on the heart rate.
That's right.
The experience of the heart rate.
That's right.
So one thing that could be very efficient
and we're doing some work with athletes now, these are unpublished data. But if you, while you're running, if
you want to get into a nice cadence of heart rate variability, do double inhales while
you're running, what this will do is that when you do the double inhale, has the effect
of reopening the ivioly of the lungs. Your lungs are filled
with tons of little sacks. When you, they tend to collapse as you fatigue. When you, and
carbon dioxide builds up in the bloodstream, and that's when we start getting stressed.
If you've ever been sprinting, you start getting beat, and you're going as hard as you
can, what you really need to do is double inhale and re-inflate these sacks in the lungs,
and then offload a lot of carbon dioxide. So when you're at a steady cadence and you're feeling good, double inhale, exhale, double inhale, exhale is a terrific way to breathe while you're
in ongoing effort. By the way, any recommendations or differences in nose or mouth breathing?
So nasal breathing, there's a lot of excitement now, obviously, about nasal breathing because of
James Nester's book Breath. There was also if people are going to know about that book, that I do feel like, out of
respect for my colleagues, there was a book by Sandra Conn and Paul Erlich at Stanford, both professors
at Stanford, with a, forward by Jared Diamond and Robert Sapolsky, so some heavy hitters in this book.
And the book is called JAWS, a hidden epidemic. And it's all about how nasal breathing is better for us,
especially kids than being mouth breathers.
Under most conditions for sake of improving immunity,
it turns out there's a microbiome in the nose,
like all sorts of good stuff about nasal breathing
preferentially.
But when we exercise, you can do pure nasal breathing,
but the problem is once you get up to kind
of third and fourth and fifth gear effort, you can't need nasal breathing, be at maximum
capacity unless you've been training it for a very long time.
So I would say double inhale through the nose, offload through the mouth, so double inhale,
exhale while you're in steady effort.
And then if you really feel like you need to gas it and you're pushing, the data show
that then just use whatever's
there, right? Just go into kind of default mode because bringing too much concentration or something
is also going to spend up an effort. The goal is to get into that, I don't like the word, but the
flow state where you're not thinking too much, you're just in exertion. So these are, so these are
things that can help in the transitions, but I don't think there's any secret breathing technique.
Anyone who's been in the SEAL teams will kind of,
you know, they'll tell you like,
there's no breathing technique, right?
There's tools that you can look to from time to time,
and these double inhale exhales can be great
for setting heart rate ability very quickly
and getting into a steady cadence while you're exercising.
But if there's a sprint,
like if suddenly you guys are sprinting,
ditch the double inhale exhale and just sprint.
One thing you mentioned, he's probably going to push my buttons.
It's a good place to ask a question about anger.
So I'll probably get pissed off at him at some point.
I'm guessing.
And do you have thoughts from scientific perspective, or also just the
personal philosophical perspective about the role of anger and all of this in managing
alertness, performance? I think about this a lot because there's so much out there about
how important it is to do things from a place of love. I tweet about it all the time.
And I think love is powerful, right?
It is interesting that autonomic arousal alertness, let's just make use simple language.
Alertness, physiologically looks identical for love and excitement as it does for anger
and frustration and wanting to defeat your opponent. Whoever that opponent happens to be, they're identical, except that the love
component does tend to be associated with the release of neurochemicals of the
serotonin and dopamine type that do have this replenishment component. I don't
think one wants to be in constant anger and friction, but I mean, I'll come clean a bit.
There have been portions of my career where some of my best work, my extra two hours, my
ability to nail a really hard deadline or problem has come from not wanting to get out
competed or from wanting to prove something.
These days, I don't, I'm not oriented from that place toward my work quite as often
But I think we should be really honest anger is powerful it provided it's channeled
It's very very powerful and it can give you a ton of fuel and gas to push when otherwise you tap
Yeah, Joe Rogan has aside from being a of his, has been an inspiration to sort of be,
to have a kind of loving view on the world in where he approached the world to me. So I've
tended to want to approach the world that way. But in the same way, David Goggins has been
inspiration to like, yeah, be angry at stuff and use it as fuel. Like he almost conjures up artificial demons in his mind just so he can fight them.
But at the same time I tried that because I did a challenge in the summer of a world
for 30 days.
I was doing a lot of pushups. And it was over time, it was counterproductive for me.
I found that it was easier to just
like the roller coaster that the emotional,
like being angry at stuff takes you can also be exhausting.
Oh, absolutely.
And it can take you down, like the ups of it are good,
but the downs are bad.
And what I found is better to get,
to use it as a boost every once in a while,
but mostly to get lost in the,
you're talking about the breath work, the,
like getting lost in the ritual of it,
like that, like that, as opposed to going
on the big roller coasters of emotion.
Yeah, this brings us into the realm of neuroendocrinology.
There's a fascinating relationship between the hormone system and the nervous system.
And hormones work in general on slower time scales.
The definition of a hormone is a chemical released at one location in the body, goes and
acts at multiple locations far away within the body.
Pheremon would be between two bodies.
Neurochemicals like dopamine, serotonin tend to work a little more quickly.
There are hormones like adrenaline and cortisol that can work very fast, but here I'm referring
mainly to testosterone, prolactin tends to be in men and women tends to make people
kind of lazy and want to take care of young,
it tends to throw down body fat so we can stay up late, it's secreted in response to having children,
these are all in humans and in animals. There's a very interesting relationship between testosterone
and dopamine that speaks directly to what we're talking about now. So dopamine and testosterone are closely related
in the pituitary system.
And obviously testosterone comes from the adrenals
and from the testes.
But the major effect of testosterone
is to make effort feel good.
That's what testosterone does.
It has other effects too, right?
Reproductive effects,
and organizing parts of the body, et cetera. But it makes effort feel good.
The testosterone molecule is synthesized from cholesterol.
Cholesterol can either be made into cortisol, a stress hormone, or testosterone, but not both.
So you have a limited amount of cholesterol, and it gets diverted towards stress or
towards this pathway where
effort feels good.
That's the pathway you want to get into.
The anger pathway, if we were to just kind of play a mind experiment here, the anger eventually
is going to divert more of that cholesterol molecule to cortisol and stress, and you will
be slowly depleting testosterone.
Now going into this, you'll have plenty of testosterone, but after a couple days, there
have been very interesting studies showing that testosterone doesn't necessarily drop with
sleep deprivation.
That's a bit of a myth.
You need it to replenish testosterone.
You need sleep to replenish testosterone eventually.
But the real question is, are you enjoying what you're doing?
And here that the work was, some of the major work on this was done by Duncan French, who
runs the UFC Training Center.
He did his PhD at Yukon Stores.
Did a really beautiful PhD thesis, looking at the relationship between stress hormones
to testosterone and dopamine.
Really interesting work.
And the takeaway from all of this is if you can just convince yourself,
or ideally, if you can just enjoy yourself, you are going to maintain or maybe even increase
testosterone stores, which will make effort feel good. And to me, aside from neuroplasticity,
where everything becomes automatic after this experience, to me, that's the holy grail. When effort feels good, life just gets way better.
And we're not talking about achieving the reward.
I'm not talking about the end of this thing.
I'm talking about the process of it feeling really good.
Yeah, there is a magic to, I don't know if you can comment
on this, but I find myself being able to,
if I just say I'm feeling good, like this old
hack of like smiling while you're running, if I just tell myself, I'm feeling really
good right now.
No matter how I'm actually feeling, I'll start feeling way better.
And the whole thing, there's a cascading effect that allows me to maximize the effort.
It's quite fascinating.
It's weird.
Hormones are powerful.
The relationship between thoughts and hormones
and these physiological things is enormous.
I had a colleague that a few years ago,
he was dying of pancreatic cancer.
And I was interviewing him just because
his important figure in our community
and I was a friend.
And there was one day where he told me,
he said,
you know, I don't wanna make it past the new year.
I just, and it was crushing for me to hear.
And I knew that he had been on some Androgen therapy
for a whole set of other things.
And I said, you know, have you taken your Androgen cream
and he was like, no, I haven't done it.
Go get it for me.
I have this on film.
He takes it, he puts the Andrew Cremon.
I'm not suggesting people take Andrews, by the way.
10 minutes later, he says, you know what?
I think I want to live into the new year.
And I'm going to write 12 letters of recommendation.
He went to MIT, by the way.
He said, I'm going to write 12 letters of recommendation.
And he did.
And so there's something about these molecules
that in an ancient way, in all organisms, all mammals as far as we know
are linked to the will to live. They're linked to effort and making effort feel good, which has been fundamental to the evolution of our species.
I always say people think that the opposite of testosterone is estrogen, but it's not. The opposite of testosterone is
prolactin, which makes us feel quiescent and not in pursuit
of things, et cetera. Testosterone makes effort feel good. Estrogen makes emotions feel
okay. And they are in mixed amounts in people, as I say, of all chromosomal backgrounds.
Yeah. I mean, you also mentioned fasting potentially through this two-day thing.
It'd be cool to get your thoughts about fasting in general.
Do you think, on a personal level and at a higher level of studies that you're aware of
and physiology and so on, what do you think about intermittent fasting of not eating for
16 hours and then having an eight hour window
or something I've been doing a lot recently which is eating only once a day. So that's 24 hour fast, I guess
one meal a day or something I've been thinking about doing haven't done yet of doing like 72 hours, and some people do like five day fasts in general.
So this will be, for this particular run,
will be at 48 hour fast, if I don't eat at all.
What do you think about that for performance,
for mood, for all those kinds of things?
I can speak a little bit to the science
and a little bit of my own experience,
and then some anecdotes of people that have done
very hard, very long duration things and what they've told me.
So I just want to make sure I'm separating those out so people know my sourcing.
I think now none of this is about the actual long-term nutritional benefits of one thing
or the other.
But if you look at the science on intermittent fasting, it's pretty remarkable.
Before I was at Stanford, my lab was in San Diego, one of my colleagues was Sachin Panda
at the Salk, his phenomenal biologist and researcher, wrote a book called The Circadian Code.
It's very, very good.
And kind of popularized intermittent fasting, although there were others that had talked
about this before, or a Hoffmechler, talked about the warrior diet.
People probably might not know who or is, but he's sort of the originator of this business
of intermittent fasting, he didn't want to do it,
or limited.
Anyway, Sotchin has published purview papers
in very good journals like Cell and elsewhere,
showing that limiting the consumption of calories
to eight, four, six, or eight,
or even 10 hours of every 24 hour cycle,
and keeping that more or less correlated with the light
with when the sun is out,
leads to less liver disease, improved metabolic markers,
less body fat, et cetera.
In the mouse studies, they even gave the mice the choice
to eat whatever they wanted as much as they wanted.
As long as they restricted it to a certain period
within the 24-hour cycle, they did great.
They maintained a healthy weight or even lost weight when they took the same amount of
food and they stretched it out across the entire 24-hour cycle.
So this is eating every hour or two hours.
The animals got fat and sick.
So it's pretty remarkable data.
How much of that translates to humans isn't clear, but one thing that's really clear
with humans is adherence.
We could talk a lot about nutrition and some of the problems with the studies and nutrition is that what people will do in a laboratory is often hard to do in the real world.
Low carbohydrate diets, just because they tend to focus on foods that have high amino acid content content like meats. Generally, people are less hungry on those than they are
on calorie-matched diets of fruits and vegetables
and carbohydrates because when the insulin goes up,
you get hungry and you want to eat more.
So this is not a push for carnivore or a push against
one thing or the other, it's just,
there are a lot of factors.
But we know for sure that when you're fasted or when you have low amounts of carbohydrate
in your system, complex carbohydrate, your alertness is going to go up.
Fast increases, increases alertness and epinephrine for the sole purpose of getting you to go out
and find food.
Can you imagine if our ancestors got hungry and they were like, oh, I'm too tired to go
find food?
We wouldn't be here.
It'd be like robots or something like, what are alien buddies will be like running the land. So I think that
if you want to be alert fasting or keeping complex carbohydrates to a minimum is very valuable.
If you want to sleep and you want to be sleepy, ingesting foods that have a lot of trip to fan,
which is the precursor to serotonin. So complex carbohydrates like rice and grains, turkey, white meats. Those things do create a sense
of sleepiness. However, there is a caveat, and this is one problem with the once a meal, once a day
meal, is that anytime you have a lot of food in the gut, you're increasing sleepiness because
you're diverting blood to the gut, it's gonna trigger the vagus to signal to the brain
to shut down your system and utilize those nutrients,
digest and utilize those nutrients.
So I've done the once a day eating thing.
The problem is I eat so much in that meal that I'm exhausted.
And so it doesn't always lend itself well to the schedule.
But so in a six or eight hour eating block for me
is a little bit better.
I do eat carbohydrates.
I'm probably one of the few people left on the west coast that actually consumes carbohydrates
and we'll say that out loud.
No, people eat carbs anymore.
That's weird.
They don't.
What do you even find carbs?
I like rice.
I like rice.
The other time is if people are doing very high intensity weight training, they need to replenish
glycogen.
On the alertness side, I do feel like it's probably a person dependent.
For me, alertness, being alert makes my life better
in a lot of ways, more than just the alertness itself.
Like, for example, one of the things
that discovered with fasting is that
when I was training twice a day in jiu-jitsu,
for example, in competing and so on,
I performed way better at
things that you traditionally would say you need carbs for, which is explosive movements and all that.
I don't know if I actually perform better in terms of like the force of the explosion,
the explosiveness. What I do know is the alertness resulted in me
doing the technique more precisely.
That's dopamine and epinephrine system in action.
And there are some other just purely physical aspects
to one diet versus the other that can be complicate.
If you're ingesting carbohydrates,
complex carbohydrates,
you're going to replenish glygogen, which is great. But they also tend to be bulky and fibrous.
And I don't have never rolled jiu jitsu, but running when you have a lot of bulky, fibrous
food in your gut or in your intestine, it can be a barrier, it can be uncomfortable. And
so some people do really well on low carbohydrate, meat-rich diets because they're just not
as bloated. They're not carrying as much water and other stuff.
Carbohydrate carries a lot of water molecules with it.
There are aspects to being able to train and being really explosive because you feel light.
One anecdote that really, again, I'm not encouraging anyone particular kind of diet, but I have a
friend who was in the SEAL teams, I happen to know a number of people in that community.
He told me that he did this
very long fast.
It was a fast that I think you'd get to eat
a little bit of soup or broth,
and there was like a bar or something,
but it's like a nine day thing.
And he's a very strong athlete.
And he said that on day six or seven,
he was running up some hills or something
while he was on deployment.
And he felt amazing.
He had kind of hit this other level.
He was somebody who had boxed in the Naval Academy.
He was somebody who had, he knew, knows a new high output.
And he felt like he discovered the 13th floor.
That there was another floor to this performance space that he hadn't experienced except
while he had fasted.
And he said that that was a remarkable clarity of mind, energy.
It's a little bit of what you described.
He described it as kind of suppleness and explosiveness.
So there's probably something there on which day.
At once he was in the fifth or sixth day of the first.
See, this is the thing is I've never been there on the second, third, fourth, fifth day,
that kind of thing.
But when I just don't eat for 20 hours, many times through my training, the clarity, it's
like you feel like everyone is moving super slowly.
And you're able to like dominate people you weren't able to before.
It's like, well, you might have slipped into,
or switched over rather into full ketosis.
And ketogenic diets done properly
can be great for people.
The problem is if you do it wrong,
you can really mess it up.
I tried it once, and I basically got psoriasis.
I thought my scalp was gonna fall off.
I was like sloughing off all this,
and then I stopped, and I was taking the liquid ketones,
and then all of a sudden I felt better again.
But I was told that I just did it wrong.
Yes.
So I think there's a right way and a wrong way
and you have to get it right.
Definitely.
And so I've experimented quite a bit with keto too.
It's to see how my body feels
and doing it the right way
and following all these instructions.
And there's definitely a huge difference
that like for example, one of the things
that discovered everyone
knows said this and but I tried this recently over the past year as I started drinking when
I don't feel great if I'm fasting a bone broth chicken bone bra. Yeah and for some reason like
magically it could be this is the other thing the I don't know, but it makes me feel really
good.
Well, it could be the salt.
So, I mean, neurons, the action potential neurons, as you know, is sodium is rushing into
the cell.
You need enough extra cell or sodium in order for your brain and nervous system to function.
And so salt, I mean, unless people have hypertension, salt is great.
There was an article in Science Magazine about a decade ago about how salt had been demonized unless people have hypertension, provide you drink
enough water. Salt is great. You need sodium, magnesium, and potassium to function, and
for your nerve cells to work. I mean, people who over drink water and don't consume enough
electrolyte die. Hydration is really important. I know David's really into hydration. He's
mentioned that a few times. I mean hydrating
Properly is key and so you definitely want to make sure that you're drinking enough water and getting enough electrolytes that I'm We should have actually talked about that at the beginning because that's gonna keep your nervous system functioning well and a lot of people
They'll get shaky or jittery and when they're fasting and they'll think they need sugar
And if they just put some salt in some water,
they feel fine.
And like the other stuff, potassium, magnesium,
whatever the other electrolytes are.
But yeah, those three.
So I mean salt, yeah.
Salt is the problem right now.
That's the problem right now.
So I mean, this is a vast space.
And we're kind of talking about the overlap
between neurochemicals, hormones and nutrition.
And it's a fascinating space. And it's one that the academic community has gems up
within the textbooks.
It hasn't really made it into the public sphere yet.
And I think that's because people get so caught up in the, you know, being, are you vegan
or are you carnivore?
And there's a vast space in between, too, that people can explore.
Like, I'm not a competitive athlete, so I eat meat,
and I also eat vegetables, and I eat fruits,
and it's just about timing them.
But I tend to eat carbohydrates when I want to be sleepy.
I eat them at night.
And everyone said, that's the worst thing.
You can't do that.
You sleep great after eating a big bowl of pasta.
I'll tell you.
And by the way, I should give you a big thank you
for connecting me with a bellcampo farms.
They send me some meat, I think because of you, and it's delicious. So I really appreciate it. I mean, it also connected me with this whole
world of people who are doing farming in this ethical way and really love the whole process.
love the whole process. And like, and as from a both like a human level, but also scientific level in the result, is, it's like ethical, but also delicious. And it makes you think about
your diet in a whole new kind of way. Yeah, I've known, I don't have any commercial relationship
to Bel Campo. So I can be very clear. I've known on your front-end old, who's the one of the
found, is the founder and CEO of Bel Campo. I've known her since the 9th grade. It is true that her parents
are faculty members at Stanford, their colleagues of mine, but she's just a serious academic of nutrition,
but also of sustainable agriculture, of all sorts of things. Also, it's awesome, it tastes really good.
And no, I'm not getting paid to say that, no, they're not a sponsoring my podcast. It's just, I feel like if you're going to eat animals, if that's in your framework,
and you're going to eat animals, knowing that the animals were raised as happy as could
be until, you know, time of slaughter is, is released and born to me.
And actually, uh, talked to her. So I, I will talk to her on this podcast actually. And
she invited me, uh, like a week ago out to out to visit the farm in May or June or what I have the farm up at the Oregon board
I haven't been there yet, but I've seen the pictures and it looks awesome. I was like yes
Looks beautiful. Let me know when you're going. Yeah, let's go together. Look at this. It's you'll probably run there, but I'll drive there
Yeah, but that all that said I do to, because a lot of people who are
vegan write to me, and I do want to seriously, in the same seriousness that I approach Kido,
I do want to go like kind of few months to switch to a vegan diet at some point, to really
try it.
I haven't done it yet, because I'm afraid I'm in a function better. I'm Argentine by my dad's side.
I don't eat meat super often, but well, for most people, it would seem often.
But I do love steak.
I do.
So I'm afraid I'm going to feel better.
There's a social element to steak you're right, because coming from a Russian background,
like, I can't imagine going to visit my folks, like my parents for
Thanksgiving or something to say.
Mom and dad, I don't eat meat, so is that...
Well I think if you're going to eat meat, getting it from sources that are compatible with
a continuation of the planet is good.
There are some real problems with the factory farm meat.
You drive up and down
the five and you pass that point where are there all those cows. I mean, as somebody who
loves animals, it's clear that it's, you know, you want to limit the amount of suffering
of those animals. Whenever I hear about, you know, we have, we know people that hunt
and that go and get their own. I mean, I really admire that. I admire that people do that We don't we don't tend to do that and the hills around Stanford
You know there their mountain lines back there, but that's about it
And I'm I'm certainly I admire the vegan mindset of being of just making that decision
You're just not gonna consume other beings, but you know that I haven't gone that way but performance wise
I'm just curious because
I was surprised.
I was certain that eating 5, 6, 7 meals a day
is the right thing to do for all,
if you want to be perform your best
when I was like 20 or whatever.
And I would eat oatmeal.
Like I thought it's obvious I have to have
a really a lot of carbs in the breakfast.
I had a lot of preconceived notions.
And then when
I started eating like once a day, this was at the peak of my competing in jiu-jitsu. It was like
everything I know about nutrition is wrong. You realize that like you have to become a
scientist. First of all, you have to read literature, you have to learn, you have experiment,
but you also have to become a scientist of your own body In the same way, I have a lot of preconceived notions of what performance is like under vegan
diet.
I want to do it right, like seriously, not necessarily for the ethical reasons, but to
see if it's performance wise.
I remember there's a good footerent diet where you eat fruit only. These extremes are pretty interesting because people have this need.
The extremes are informative though, right?
I mean, well-controlled experiments, you eliminate as many variables as you can except the
one you're interested in.
People are running these experiments.
I think that it's hard to imagine getting, I know people say you can get enough amino acids
from plant-based sources, and I believe that.
I think it probably takes a little more work.
One thing that's really clear is that the benefit of these omega-3 omega-6 ratios, like
fish oils and things like that, there are some data that show that getting at least
a thousand milligrams of the EPA, which
is in high infatuation oils, but other things too, even some meats and other plants.
In double, you know, in matched placebo, double blind controlled studies, placebo controlled
double blind studies have shown that those can offset antidepressive symptoms as much as
some of the selective serotonin reuptake inhibitors like prolec and prozac and zooloth.
So that's pretty impressive.
And in Scandinavia, people know, especially in winter tea, to consume a lot of those omega-3s
because they're good for you, they're good for the brain.
That's the other question.
Nutrition-wise, what kind of stuff have you come across that's used to?
Like, I basically only take
Fish oil like you said electrolytes
Electrolytes with water the David Goggins diet fish oil plus fish oil and then
Again the sponsor I they made it so easier the sponsor your podcast and mine let a greens that comes last you women
Good stuff.
Yeah.
Yeah.
I don't know, like it's great stuff for sure,
but also just takes away the headache of like,
I don't have to think about, like,
you're gonna get a bunch of vitamins and minerals.
You know, it does that.
It sounds like a plug, but I had genuinely been buying it
on, you know, no discount, no affiliation,
I think since 2012, the thing I heard about it
on the Tim Ferriss podcast was like, I'm gonna try that stuff and I liked it. I mean, no discount, no affiliation, I think since 2012. I think I heard about it on the Tim Ferriss podcast.
I was like, oh, I'm gonna try that stuff.
And I liked it.
I mean, when I was starting my lab, I was working insane hours.
I still worked very long hours.
And getting sick limits productivity.
And I also wanted to train.
And I wasn't doing much training back then.
Now I try and get, you know, three, four sessions in a week. I'm not doing
nothing like what you and David are doing or what Joe does or like you guys are way more
regimented than consistent than I am. But I think that being healthy and feeling good
is one of the great benefits to a career is having energy and just being not sick. Can we take a step back to sleep a little bit?
Sure, yeah.
So people should definitely look through your podcast,
the first five episodes were on sleep.
Or no, I guess the first opening episode wasn't.
First one was sort of how the brain works generally
is to give people some background.
And then we did four episodes on sleep, including some stuff about food, temperature, exercise, jet lag, shift work,
for the jet lag folks and shift work. Yeah, I can master class on sleep. And then you're going on
to a next topic in the next few episodes, which is incredible. Well, in your plasticity, we'll talk
about it. But on sleep, one of the cool things about the human
mind when it sleeps is dreaming.
What do you think we understand about the contents of dreams?
Like what do dreams mean, all the stuff we see when we dream?
Is there something that we understand about the contents of dreams?
Some of it is very concrete. So Matt Wilson, who MIT, showed in rodents and it's
been shown in non-human primates and now it's been shown in humans that there
is replay of spatial information during sleep. So initially what Matt showed was
that as these little
rodents navigate through a maze, there are these cells in the hippocampus called playcells
that fire when the animal encounters a turn or a corridor and that same exact same sequence
is replay during sleep. And it turns out this is true in London taxi cab drivers. Before
phones and GPS were what they are today, the London taxi cab drivers. Before phones and GPS were what they are today, the London
taxi cab drivers were famous for knowing the routes through the city, through these mental
maps. And there have been analysis of their place self-firing during sleep and during
wakefulness. And so we are essentially taking spatial information about the location of
things and replaying it during sleep. However, it's not replayed so that you remember it all
It's replayed so that if there's a reason to remember it the links to the emotional system to the
components of the limbic system and hypothalamus that are
relevant like you got into a car crash or a particular location or you lost a bunch of money because you were a cab driver
Uber driver we'd say nowadays and you were stuck at one particular avenue all day and frustrated
and you were getting yelled at by your spouse.
That information gets encoded so that you never forget that at that particular time of
day and that particular time of year and this thing happened.
So context starts getting linked to experience.
So there's spatial information that's absolutely replayed during sleep. And we experienced this sometimes as dreams. The dreams that happen
early in the night when slow wave sleep or non-reb sleep dominates tends to be sleep a very
kind of general themes and kind of location. It can feel a little bit eerie and kind of strange,
not so incidentally, the early phase of the
night is when growth hormone is released. In the 80s and 90s, there was a drug that was very
popular. It's very illegal now called GHB. You could actually buy it at GNC or store that I never
took it, but it was a popular party drug and some famous celebrities died while on GHB. They were
also on a bunch of other things, so it's not clear what killed them.
But GHB was very big in certain communities because it promoted a massive release of
growth hormone and gave people these very hypnotic states.
So people go to clubs and they were in these very hypnotic states who was part of a whole
culture.
That's early night.
And those dreams tend to not have a lot of emotional content
or load.
That phase of dreaming is associated with
the occasional jolting yourself out of sleep,
because it's somewhat lighter sleep.
The dreams that occur during REM,
during rapid eye movement sleep
and that dominate towards morning are very different.
They tend to have very little epinephrine is available in the brain at
that time. Epinephrine, again, being this molecule stress fear and excitement. You are paralyzed during
these REM dreams. You cannot move. There's intense emotion at the level of what you're feeling and
there's so-called theory of mind. Theory of mind is an idea that was put forward by Simon
Baron Cohen, Sasha Baron Cohen's cousin. I think on the podcast I mistakenly said that he was at
Oxford. It's like the Cardinal Sin. He's at Cambridge, forgive me. I'm not British, but
so the dreams in REM are heavily emotionally laden and it's very clear that those dreams
and REM sleep, if you deprive yourself of them for too long, you become irritable and you start linking
generally negative emotions to almost everything. The dreams that occur in REM sleep are when we
divorce emotion from our prior experiences. And it's when we extract general rules and themes.
MIT seems to have come up a lot today, but it's highly relevant. Susumu Tonegawa, a normal prize for immunoglobulin, but obviously fantastic neuroscientists as well,
has shown that the replay of neurons in the hippocampus and elsewhere in the brain
is kind of an approximation of the previous episode and a lot of fear unlearning
of uncoupling emotion from hard or traumatic events that happen previously
occurs in REM sleep. So you don't want to deprive yourself of REM sleep for too long. And those
dreams tend to be very intense. Now, epinephrine is low so that you can't suddenly act out your
dreams. But what's interesting is sometimes people will wake up suddenly while in a REM dream
and their heart will be beating really, really fast.
That's a surge of epinephrine that occurs as you exit REM sleep.
So you were having this intense emotional experience without the fear.
You were essentially going through therapy in your sleep, self-induced therapy.
It's like trauma therapy where you're trying to divorce the emotion from the experience.
And then you wake up.
And some people also have the other component of REM,
which is atonia, which is paralysis. Pot smokers experience this a lot more than non-pot smokers.
There's an invasion of paralysis into the waking state. I'm not a pot smoker, but I have
experienced this. And when you wake up and you're paralyzed for a second, it's terrifying.
But then you jolt yourself alert. So the REM sleep is important for kind of the self-induced
therapy and forgetting the bad stuff.
It's good for un-coupling the emotions
from bad experiences.
And just there are two therapies,
I move into sensitization reprocessing,
which is a I move in thing that shuts down the amygdala
during therapy, not during sleep, and ketamine, which is a dissoci movement thing that shuts down the amygdala during therapy, not during sleep,
and ketamine, which is a dissociative analgesic. It's actually very similar to PCP.
And ketamine is now being used as a trauma therapy when someone comes into the ER, for instance,
and they were in a terrible car accident. I mean, these are horrible things to describe, but you know,
they saw a relative impaled on the driving, steering column or something, and they will give this drug
to try and shut off
the emotion system, so that,
because they're not gonna forget, let's be honest,
you don't forget the bad stuff,
but it is possible to uncouple the bad events
from the emotional system.
And there's all sorts of ethical issues
about whether or not that's good or bad to do,
but PTSD is a failure to uncouple the emotion
from these intense experiences.
So the goal of this kind of therapy is in the uncoupling for that to be permanent
to separate so they can recount the event and they can describe it without it
triggering the same somatic experience of terror and dread because terror those feelings can be
debilitating obviously. And you're staying physiologically in REM sleep,
a similar process has happened.
That's right.
The thematically REM sleep is about experiencing
or replaying intense emotions without experience
the somatic, the physical component of the emotion,
either the acting out or the accelerated heart rate
and agitation, likewise with things like ketamine therapies.
That's the idea.
You're uncoppling the physical sensation
from the mental events.
What is REM sleep?
And why is it so special?
Maybe we can comment on that.
Rapid eye movement sleep.
Yeah, discovered in the 50s in University of Chicago,
it's intense brain activity, high levels of metabolic activity,
dreams in which people report a lot of the theory of
mind.
We were talking about Simon Baron Cohen.
Theory of mind was actually something that he developed for the diagnosis of autism.
If you take kids, most kids of age five, six, seven, put them in front of a TV screen
in a laboratory and you have them watch a video where a kid is playing with a ball or
a doll, and then the kid puts it into a drawer, shuts the drawer and walks away.
And another kid comes in and you ask the child who's observing this little movie, you
say, what does this second child think?
And they, a typical kid would say, they want to play and they don't know where the ball
or doll is or they, they're upset or they're sad, they want the doll.
Autistic children tend to say the dolls in the drawer
The toys in the drawer. They tend to fixate they can't get in on the event
They can't get into the mind of that. They don't have a theory of mind
Dreams in REM have a heavy theory of mind component people are after me trying to get me
You can assign motive to other people. I'm afraid, but it's because there's
an expectation. That doesn't tend to happen in slow-wave sleep dreams. Now, all this, of course,
is by waking people up and asking them what they were dreaming about, which from a standpoint of
a AI guy or a machine learning or neuroscientist kind of like, but it's the best we've got. But
brain imaging, what in waking states, while people view a movie,
and then brain imaging while people are sleeping,
supports the idea that that's basically what's going on.
So REM sleep is amazing,
and you're not gonna get much of it
during your, about with,
so goggins, but you will afterward.
Why, it says, to comment, why won't I,
so is it not possible to get into it real quick?
Only if you're very, very sleep deprived, but because you're going to be at high muscular output, that's going to buy us you towards more slow wave sleep
overall. And your body and brain are smart. They it will know, they will
know that your main goal is to recover so you can keep going.
So you can keep firing neuromuscular contractions and you can keep running so that you can, I mean,
it's amazing to think like, why do we ever stop?
The unlike weight training where I can't do a 500 pound deadlift, I just can't.
I could train for it, but I certainly can't do a 600 pound.
I can't do that.
What causes us to stop an endurance event
is usually not a physical barrier.
It's almost always a purely mental barrier.
And that's a very interesting problem.
I mean, neuroscientists don't tend to think
about those sorts of problems
because it sounds so non-nuroscientific.
But that's fundamentally related to the question of,
what is pursuit, what is the desire to push and to carry on?
Is there a neuroscientific answer for that question, you think?
I think the closest thing is this paper from
from Janelia Farms The Howard Hughes campus showing that if you put
animals into a simulated environment where you can measure their effort, the forces on
while they're running, and you can control the visual environment, and you can create a
scenario where the animal thinks that it's output is futile.
It knows it's running, and it's actually running, but you change the frequency of the
stripes going by in their visual world, such that they think they're not getting anywhere,
and eventually they quit. And the thing that determines whether or not they quit
is a threshold level of epinephrine in the brain stem.
If you drop that level back down
or you give the animals dopamine essentially,
they keep going.
If you take dopamine down,
they are like this isn't worth it.
It's helpless enough.
This isn't worth my time and energy.
Well, this is where the difference in humans and non-human animals is interesting.
It does feel like humans have an extra level of cognitive ability that might be relevant
here.
You can pull from different time references.
You're in that moment, you're going gonna need a kit of things to pull from. So you can think this is in honor of someone else that passed away.
And you will find a gas reserve that's amazing, right?
Now, whether or not mice are like, I remember my brother back in the other cage when I was a little mouse.
You know, we don't know.
But it's very likely that they don't do that.
That they're so present, they're in the experience of they're in then and now,
that they aren't able to extract from the past, and they're not able to project
into the future like how great it's going to feel when I get to the end of this
really lame VR corridor. I don't think they think about that.
And think about like, if I quit now, how will that have what kind of effect we'll have
on the rest of my life in the future, difficult times, like if you allow yourself to quit in this
particular moment, you'll become a quitter more and more in life. And then you're going to not get
the other nice, the opposite sex mammals. That's pretty severe. You went there. You took it all,
you took it the whole way to evolution and back again. I mean, but that's that's really severe. You went there. You took the whole way to evolution and back again.
I mean, but that's really it.
I mean, our ability to time reference
in the past, present, or future.
I do believe that we can be in the present in the past
or the present in the future or only in the present
or only in the future, only in the past.
But I don't think that we can really think
about past, present, future all at once.
And this has a similarity to covert attention. we can split our visual attention into two things.
We really can do O task, even though we can't multitask. So, or we can bring those two spotlights
of attention to the same location. But it's very hard to split our attention in really
well into three domains, excuse me, into three domains. I think that that's very, very challenging. And our time referencing scheme tends to be
just one or two time references.
So Lisa Feldman Barrett,
I'm not sure if you've done work together,
but Lisa, I found out about her because of you,
your podcast with her,
and I brought her on to Instagram,
do an Instagram live about emotion,
and it was fascinating. And she's a very spirited and very very smart woman and fearless and brilliant so I love her.
She's amazing. She's kind of she's not a scholar of hallucinations hallucinations or dreams but
she had this intuition that there may be a connection between the kind of dissociation that happens in dreaming
and that that happens in, like, psychedelics, I, because of my previous conversation with you,
on this podcast, Matthew Johnson from Jonathan Hopkins reached out.
And he said, but he commented, I think,
on something that we commented on,
I don't even remember exactly what,
but that there's not many studies.
It's not being psychedelics and not being rigorously studied
in academic setting, like with the full rigor of science.
And he said, well, actually, that's exactly what we're doing
and they're extremely well-funded now.
And it's been a long battle to get it, except that it's a serious scientific pursuit.
So, but, you know, I'd like to ask you a little bit about that.
Do you have a sense about connection with your dreams and psychedelics,
or these different explorations of minds States that are outside
of the standard normal one, that's the wake mindset.
Yeah, I loved your discussion with Matthew.
I knew of the Hopkins group and the stuff they were doing, but I didn't know much about
it at all.
And I learned a ton from that podcast.
I reached out to him just to say, love what you're doing.
I think it's incredible.
So yeah, your podcast has been a great source of serious academic and intellectual conversation for me.
I think what they're doing at Hopkins is amazing.
He has a collaborator there, actually,
that had a very popular paper.
I just throw out there for fun, who is a postdoc at Stanford,
her name is GOOL.
She's Turkish, I believe.
And I apologize, her last name escapes me at the moment,
but that's just a function of my brain.
She had a paper showing that she put Octopi on MDMA,
on Exocetie, and found out this was published
in a current biology, showing it was a great journal,
showing that the Octopi then wanted to spend more time with other octopi, and they started cuddling.
So, there are colleagues out there.
But the Hopkins Project is super interesting because I think they were initially supported
mainly through private philanthropy.
And now you're starting to see some more interest at the level of NIH about psychedelics. It's a complicated space because the psychedelics are always looked at through the lens of the
60s and people losing their mind.
And I always say, you know, you don't want to Ken Kizzi out of the game.
Ken Kizzi was amazing, right?
Probably the whole beat generation thing.
And he was actually at the VA near Stanford.
That's where he eventually in Menlo Park, he wrote one floor
of the Kukuz Nestor, maybe that was about him.
Anyway, the comments will tell me how wrong I am,
but I think I'm tossing these words in the general,
in the right general direction, but, you know,
Huxley, Keezy, they did a lot of LSD and they all lost their jobs,
right? They lost their jobs at big institutions like Harvard
and Stanford, elsewhere, or they left
because they made themselves the experiments.
Hopkins, as far as I know, is one of the first places
is not the first place where whatever may or may not
be doing in his own life, I don't know.
It's really about the patients and whether or not
the patients in these institutional review board approved studies, whether or not they're getting better in situations
like depression. I think it's clear that there's a very close relationship between hallucinogenic
states and dreaming of the sort that were described for REM dreaming. And there's a terrific set of
books and body of scientific literature
from a guy named Alan Hobbson who was an MD, is it Harvard Med, and he wrote books like Dream
Drug Store. One of the first neuroscience books I ever read was about hallucinations and how
psychedelics and dreaming are very similar. That was way back when I was in high school. I was
just curious. And he really understood the relationship between LSD and REM dreams and how similar they are.
I think psychedelics and Matt knows way more about this than I do of course, but psychedelics
have some very interesting properties.
They are certainly not for everybody, right?
And kids, it's a problem, you know, the...
I think the major issues right now around the psychedelic conversation is that it's clear
that they can
unveil certain elements of neuroplasticity.
They make the brain amenable to change, changing up space-time relationships, changing up the
emotional load of an event and being able to reframe that.
It's clear that happens, but there's two major issues.
One is that people talk about plasticity as if plasticity is the goal, but plasticity is a state within which you can direct neurology.
And the question is, what changes are you trying to get to?
So people are just taking psychedelics to unveil plasticity without thinking about what circuits they want to modify and how.
I think that's a problem.
I think there's great potential, however, for people opening up these
states of plasticity with psychedelics or otherwise, and directing the plastic changes toward
a particular endpoint. And there's an absolutely spectacular paper at a UC Davis published as a
full article in Nature just a couple months ago showing that there are psychedelics that are now
can be modified. So, chemists have
gotten into the game now and modifying to take away the hallucinogenic component where
you still get the neural plasticity components. And for a lot of people would be like, oh,
that's no fun. That's not giving you the wild experience. But I do think that that holds
great potential for people that wouldn't otherwise orient towards some of these drugs. So, I think
it's really marvelous what's happening
and what's about to happen.
And I think there is one drug in that kit of drugs
that's very unusual, like psilocybin LSD,
those promote heavy, heavy serotonin release
and lateralized connections ramp up, et cetera,
Matt talked about all that.
But MDMA, ecstasy, is a very unusual situation
where dopamine is very, very high
because of the way the drug is designed.
Dopamine release, it goes through the roof.
So people feel great and they wanna move
and they have a lot of energy.
But serotonin levels are also high.
And that's a very unnatural state. And why
MDMA may, and I want to highlight may have particularly high potential for the treatment
of certain forms of depression is an interesting question because never before in as far as
we know in human history, has there been a possibility of opening up dopaminergic
and serotonergic states at the same time, dopamine being the molecule pursuit and reward
and more and more, and serotonin being one of bliss and being content right where you're
at. So it's almost like those two things wrap back on themselves and create this very
unusual state. And I think the bigger conversation is what to do with a state like that. Like,
do you, is it about self love?
Is it about developing love for another person?
Is it about forgetting hate?
Like, these are powerful molecules.
And I think if the academic community and the clinical community is going to move forward
with them in any serious way, I think there needs to be a conversation about what
they're being used for.
Right.
And and couple of that, I think similar to what you're saying used for. Right. And and the couple do that.
I think similar to what you're saying, like Matt has talked about as others have talked
about some of the biggest benefits of like progress, whether it's like quitting smoking
and all those kinds of stuff is in the is in the days after it's the integration of the
experience. So maybe he opened up the brain to the neuroplasticity,
but then there's like, works, he'd be done. It's not, you're like, you shake up something in the biology
of the brain, but you have to do then its work. Absolutely. Now, a friend of mine who's a physician,
he says, who's quite open to this idea that psychedelics could play a real role in real medicine?
Says, um, better living through chemistry still requires better living.
And, and I think it's a, it's a beautiful statement. I wish I had said it.
Be, um, but he gets the credit.
But the plasticity window opens.
And then, as you said, what are you going to do in the two weeks, three weeks, four weeks afterward?
Because that's the real opportunity.
But those psychedelic experiences are really a case of an amplified experience inside
of an amplified experience, so much so that everything seems relevant.
And it's fascinating.
I mean, my hope is that the AI and machine learning and the brain machine interface and all
that will eventually be merged with the psychedelic treatments so that
an individual can go in, take whatever amount of whatever safe for them working with a clinician
and really direct the plasticity while maybe stimulating the orbital frontal,
medial or frontal cortex or increasing the observer or decreasing the observer in the brain or
decreasing the amygdala. I mean, it's doable. It's doable with transcranial magnetic stimulation
and it's for shutting down activity
and it's doable with ultrasound.
Ultrasound now allows very focal activation
of particular brain regions through the skull, noninvasively.
So it's approaching the same kind of therapy
from different angles.
One of AI is the computational size of injecting
like the robotics, injecting like maybe you can even think
about as like electricity, the electrical approach
versus then like the chemical approach.
Absolutely.
And then the psychology is subjective, right?
So it's gonna take some real understanding
of what that person's lexicon is,
like, you know, that wasn't a pun, sorry.
That's not terrible.
I'm like the worst.
That's the one thing I know from the feedback
on my podcast, my jokes are terrible,
but I never claim to be funny.
But somebody who they really trust
and understands when somebody says,
you know, for a very stoic person,
like I'm imagining you interviewed the great Dan Gable.
I don't know anything about Dan,
but can you imagine, like you asked Dan,
like how you feel about something while on one of these drugs?
And like, I mean, his languaging might,
if he says that was troubling,
it might mean that it was very troubling
or not troubling at all.
So people are, language is a poor guide, because if I say I'm upset, how upset is that? Well,
that's very subjective. So you need, we need, can you build a tool for that?
Can you build a AI tool for that? Yeah, deep. Yeah, well, maybe that's the eye.
Maybe that's our, that's what the eyes could reveal. So language is not just words.
It's everything together. And that's one of the fascinating things about the eyes and the window to the soul
I mean they express so much the face the eyes the body
I mean Lisa talks about that the communication with emotions. It's a super complex
perhaps this little bit of a
side
fun tangent but
Matt Matthew Johnson brings up DMT and the experience of DMT is a as from a
scientific perspective just a just a mystery in itself over its intensity and
what happens to the brain and of course Joe Rogan and others bring it up as a
very different special kind of experience.
And elves seem to come up off.
I've never tried DMT.
What allows for hallucinogenic states?
Yeah.
And DMT is a really interesting molecule.
There are a lot of people experimenting now with DMT.
And the way they've described it is as a kind of a freight train through space
and time. Very different than the way people describe LSD type experiences or psilocybin,
where time and space are very fluid, but it tends to be a kind of a slower role, if you
will. So it's clear that DMT is tapping into a brain state that's distinctly different
than the other psychedelics. And you mentioned Jiu-Jitsu and these other communities. I mean, it's,
I think it's interesting because Jiu-Jitsu is a nonverbal activity and people get together and talk
about this nonverbal activity and they show great love for it. In the same way that surfers, you know, I've known some surfers in my time and they will
get up at the crack of dawn and drive really, really far to sit in the water and wait for
this wave to come.
I have to imagine it's pretty fantastic.
I think that human beings now, some of whom are in the scientific community, are starting
to feel comfortable enough to talk about some of these other
loves and other endeavors because they do reveal a certain component about our underlying neurology.
I'm fascinated by the concept of wordlessness.
Activities in which language is just not sufficient to capture, and in which feel so vital as a reset as
important as sleep. You know, I think that's one of the dangers of
the phone is not that you're going to get into some online battle or
that you're always staring at the phone is that it's a words,
whereas we read things we're hearing the script in our head. And I
think getting into states where we are in a state of wordlessness is
very renewing and replenishing and just can feel amazing.
I believe also can help us tap into creative states and allow our neurology to access creative
states.
And sleep is one such wordlessness period.
So one of the most interesting things to me are states that one can approach in waking,
non-sleep, depressed, wordlessness through maybe it's jujitsu, maybe it's for some people surfing,
maybe it's dancing, maybe it's just, I don't know, staring at a wall, who knows.
But where the language components of the brain are completely shut down, and it has to
be the case, that drugs are no drugs, that the brain is entering and starting to states and starting to use
algorithms that are distinctly different than when we're trying to compose things in any
kind of coherent way for someone else to understand.
There's no interest in anyone else understanding what you're experiencing in that moment.
And that's beautiful.
And I think it's not just beautiful because it feels good.
I think it's beautiful because it's important
and it's clearly fundamental to our neurology.
And your sense is there's a connection between dreams
and DMT and like psychedelic,
like all of the, you can understand one by studying the other.
So for example, dreams are also very difficult to study, right?
But they're more accessible.
It's safer to study.
And we're told we need to get more of it.
Whereas with psychedelics, there's this big question mark.
Is it going to make everyone crazy?
Is it going to be legal?
I mean, it's kind of interesting how,
if one looks on Instagram,
one could almost think that these drugs
are already legal based on the way that people commute.
But they're not yet.
There's still a lot of them are scheduled.
There's a lot of questions.
Yeah.
I mean, but nevertheless, it's like, my hope is that science opens up to these drugs a
little bit more.
It's just, I have this intuition that, like a lot of people share, that they would be
able to unlock
a deeper understanding of our own mind.
It's any kind of the same as studying dreams.
Absolutely.
Well, creativity is in the non-linearities, right?
But productivity is in the implementation of linearities.
I mean, that's what is absolutely clear.
This is why I think we were talking earlier about
why a formal rigorous training and something where other people are looking at you were talking earlier about why a formal, rigorous training and
something where other people are looking at you and telling you, no, not good enough,
go back and do it again.
There's real value to that because otherwise it's just ideas.
It's just vapors.
You know, one thing that Matt mentioned as the study that they're working on is, as
opposed to, I think most of the psychedelic studies they've done is on a hotter tree, different conditions.
And one of the things they're working on now
is to try to do a study work for creatives,
for people that don't have a condition of the triantry,
but instead see how this psychedelic can help you create.
So like,
if you take creatives and you give them more psychedelics,
they're not going to be able to get out of their right. I don't know. Well, but this is the,
I, maybe you can speak to that, psychedelics or not, or dreams or tools in general, how to be
better creatives. That's an interesting, I don't often see studies of this nature of like,
how to take high performance in the mental creative space and get them to perform
even better. So it's not average people. It's like masters of their craft. Like taking,
I mean his examples was taking an Elon Musk, which is in the engineering space and maybe
musicians and all that kind of stuff and studying that. That's a, I mean, that's weird. I usually the science,
the scientific exploration there has been done by the musicians themselves, has been documented.
Like jazz is like all non-linearities. But if it's, but the people still have to know how to play
their instruments. Right, right. There's some early, early skill building that's critical. I mean, when you
mentioned someone like Elon, I mean, virtual, I mean, he's already a virtual, so right? Because
he, and in so many different domains, I've never met him, but it's, it's clear, right? He, it's
not just that he's ambitious and bold and brave and all that. It's all that. And there's, there's
clearly a different way of looking at the same problems that everyone else is looking at.
And people are probably banging their head against the refrigerators and thinking differently.
Things that it doesn't work that way.
It involved, there's a certain anxiety for the, I'm not talking about for Elon, but I don't have no idea.
But I think for somebody who's very structured, very regimented, very linear, the anxiety comes from letting go of those linearities.
And for the person that's very creative, the anxiety comes from trying to impose linearities, right?
The really creative artists or musician, they seem nuts, they seem like they can't get their life together, because they can't.
And you know, we look at people who are kind of pseudo-assburgers or assburgers or some forms of autism,
and they are so hyperlinear,
but you take away those linearities and they freak out.
And that's kind of the essence of some of those syndromes.
So I think that the ability to toggle back and forth
between those states is what's remarkable.
I mean, because we're here and we're having this discussion,
I mean, Steve Jobs is a good example.
He probably the best example somebody
who actually talked about his own process
about the merging of art and science,
art and engineering, humanities and science.
Very few people can do that.
Well, you seem to have a capacity to do that.
Like you know, poetry and you are AI guy.
Like you, there's nothing linear about poetry
as far as I can tell.
I mean, I do wonder, Jessica, we've been talking about,
if there's any ways to push that to its limits,
to explore further, I don't like leaning.
This is why I'm bothered, there's not more science
and psychedelics, is I haven't done almost,
so I've eaten mushrooms a few times allegedly, but that's it.
You know, and the reason I don't do more, the reason I haven't done DMT is because it's
illegal, and it's like not well studied, and you know, I'm in those things, I'm not usually
at the cutting edge, but I'm very curious, and it feels like there could be tools to be discovered there not for fun, not for
recreation, but for like encouraging whether you're a linear thinking to go nonlinear or
it's nonlinear to go linear, like to shake things up. You mentioned Dan Gable. The idea
of Dan Gable and psychedelics is fascinating to me because he's such a control freak.
I mean, he was like, that I would show up for.
That would not show up for.
But like so much of these psychedelic experiences, these feels like, are letting go.
That's right.
You don't want to resist.
But that's supposed to, supposedly, were the growths in giving oneself over to the process.
And that's for people who are like master controllers,
he's one of the greatest coaches of all time,
it's fascinating to see what that battle looks like
of resistance and then of letting go.
Yeah, I can't wait to see where these studies take us.
What's clearly happening, you know,
I've asked, I have a couple colleagues at Stanford
who are doing animal studies, I've asked around, you know, it's, there's a lot of discussion in the neuroscience
community about what the perception of a laboratory is if they work on psychedelics. I mean, I
have to tip my hat to the folks at Hopkins. They are pioneers. And as Terry Signowski, he's
a computational neuroscientist down at Salk says, I don't think he was the first person to say he says, you know, how to spot the pioneers.
They're the ones with the arrows in their backs.
Yeah.
And, you know, it's an unkind world to a scientist that's trying to do really cutting edge
stuff.
My colleague, David Spiegel, who studies medical hypnosis, he's got dozens of studies
now showing that hypnosis can be beneficial for pain management anxiety management cancer outcomes
And it's finally, you know at the point where there's so much data
But people here hypnosis and they think of stage hypnosis, which is like the furthest thing from what he's doing and
I think
mind-body type stuff hypnosis
respiration and breathing I think the hard science walk into the problem
is always gonna be best to get the community on board.
And then it's up to people like Matt
and to really take it to the next level.
And as I say, not Kizzi out of the game
because Kizzi basically was taken too much of his own stuff
and he started dressing crazy of banana hats. And like you see him, he had the magic boss.
So you know the day, so like the day I start driving to work in the magic boss, that's
the day I lose my job.
Well you're getting, I'm not into bosses or or or wearing fruit, but you're going to get
a phone call for me and I hope you do the same for me is like, like dude, what are you
doing?
Well what's interesting earlier we're talking about the challenge with David that you're about to do.
I mean,
that is a psychedelic experience of sorts because you're biasing your mind towards a pretty extreme neurochemical state,
and you don't know what you're gonna find there. And that's kind of the excitement.
At least for me as an observer, it's like, I want to know what the experience is like
afterward. I want to know like, how was it? I mean, I'm sure you're
going to get something like you said, you're going to grow the question is how. And not resisting.
I mean, it's the same as with a psychedelic experience. It's like not like giving yourself over
completely to the experience and not resisting and going through the whole mental journey of whether it's anger or excitement or exhaustion, the whole thing.
That's the entirety of the process that David goes through when he does his own challenges
and so on, is that whole journey.
He finds purposely, like, missile seeks the limits of the mind that that whatever the resistance is felt runs up against it and then goes to the full
Journey of going beyond it and seeing what's there on the other side. Well stress has these two sides the limbic friction of being
Tired and needing to get more energized. That's one form of stress and then there's the feeling too amped up and needing to calm down.
The typical discussion around stress is one thing
But it's all limbic friction. It's just that when I say limbic friction
I that's not a real scientific term
I just mean the limbic system wanting to pull you down in a sleep or wanting to put you into panic and you
Using top down processing using that evolved
Forbrain to say mmm. I'm not gonna go to sleep and mmm. I'm not freak out. And those top down control mechanisms are, I mean, when those get honed, that's beautiful
because then you're increasing capacity for everything.
You uh, this month on the podcast, you're talking about neuroplasticity, you mentioned
a bunch already, is there something you're looking forward to specifically like something maybe
you're fascinated by that jumps the mind about neuroplasticity, this fascinating property
of the brain?
Yeah, I think that it's clear there's one facet of neuroplasticity that is very well
supported by the research data that hardly anyone is implemented in the real world. And
that's the release of acetylcholine from these neurons in the forebrain called nucleus
basalus.
This is mainly the work of Mike Mercinick who used to be at UCSF and some of his scientific
offspring, Greg Reckon's own and Mike Kilgard and others.
What they showed was, increases in acetylcholine, this molecule associated with focus. In concert, meaning at the same time, is some event, motor event, or music event, or any
kind of sensory event immediately reorganizes the neocortex so that there's a permanent
map representation of that event.
And I absolutely believe that this can be channeled toward accelerated skill learning.
And my friend and colleague Eddie Chang is now the chair of neurosurgery at UCSF, also
a fine scientist in his own right, not just a clinician.
He's doing studies looking at rapid acquisition of language using these principles.
He trained with Mercenic.
It's clear we have these gates on plasticity in the forebrain and they are gated by nicotinicacetocolein transmission.
And why that hasn't made it into protocols for motor learning, sport learning, language learning, music learning, emotional learning.
I don't know. I think part of the reason it's been kind of cultural is that scientists publish their paper and they move on. Merznik talked a lot and still can be found from time to time talking about how these
plasticity mechanisms can be leveraged, but he had a commercial company and so then people
kind of backed away from it a little bit.
I think he was, to be honest, I think Merznik was ahead of his time and I think the timing
is right now for people to understand these mechanisms of plasticity
and start to implement them. Also, you know, it all sounds like being coming superhuman or optimizing
or whatever. All that, yes. But also, what about kids with language learning deficits or with dyslexia
or just performance in school in general? I mean, I have a deep interesting concern for the future
of science and mathematics and in not just in this country,
but all over the world.
And more plasticity equals faster, better, deeper learning.
And if we don't do this, I don't think we're going to get the full reach out of all the
machine learning tools either because everyone talks about these huge data sets.
But those huge data sets have funnel into human interpretation.
I mean, we don't just like stare at the numbers and bask, right?
So the human brain, I think, needs to leverage these plasticity mechanisms to keep up with
the thing that's happening very, very fast, which is technology development.
That's a long-winded way of saying, basal-forbrain, colonergic transmission and plasticity, it
allows for plasticity in adulthood and it allows for it in single trial learning,
which is incredible.
But how do we leverage that?
Like in the physical space taking actions
or is there some chemicals that can stimulate
stimulate neuroplasticity?
Like what is the intersection of the two?
I think it's being engaged in a physical practice
while enhancing pharmacology.
It has to be done safely.
This is full of open questions.
This is very beginning, like you're saying.
Yeah, a pill that's safe,
that increases nicotinic transmission.
I mean, I know a number of people that chew nicorette.
Actually, there I have a Nobel Prize-winning colleague
at Columbia, not to be named,
who'd choose six pieces of
Nicarat and a half hour conversation with him, and he started doing that as a
replacement for smoking, because smoking is nicotine, nicotine, extimulation of
the colonurgic system. So smokers have long known that increases focus and
attention and learning. It's just that the lung cancer thing is a barrier.
Now, I'm not suggesting people take Nicaret, but it's clear that we need better directed pharmacology,
but you can imagine next time you go in for a learning
about if it's really essential,
you might want to stimulate the nicotinic system
if that's safe for you.
Again, I'm a doctor, so again,
I'm not telling people to do this,
but that's where it's going.
Until we start merging machines with pharmacology and behavior,
it, we're just kind of walking around
in the circle over and over again.
And it's going to happen.
Do you find computer vision, machine learning,
from the perspective of tooling as an interesting tool
for analyzing, for processing all the data
from the neuroscience world, from the
neurobiology biology, the kind of ever all the different data sets that you can have
about the mind, the eye, the everything that's neck and above, and also the central nervous
system and all.
Absolutely.
I mean, I think that computer science and engineering and chemistry by engineering is that's what's
creating the acceleration and progress in neuroscience right now.
I think it's actually one place where science, I'm very reassured, science has invited
in psychologists, computational biologists, at least at Stanford, MIT, and other places,
too, of course, it's clear that it's everyone's invited
kind of party right now.
The major issue in the field of neuroscience, at least through my view, is that there's
no conceptual leadership.
No one is saying we need to work on and solve this problem or that problem.
It's very fragmented right now.
Now the good news is people are communicating. So computer scientists and people
work on AI, machine vision are talking to biologists and vice versa. But it's very
dispersed. Is there a lot of different data sets like in your work that you've just come
across? Is there a huge number of disparate data sets around neuroscience and so on?
Well, there's a lot of cell sequencing stuff. So the brode over at, you know,
I'm in Boston and then on this coast, the Chan Zuckerberg initiative, what, you know, they did
$3 billion to sequence every cell type in humans and in animals and trying, I think their goal is
to cure every disease by some day, I don't know, in the future.
Huge data sets of gene expression and protein expression.
That's valuable. I think no one really knows how to think about neural circuits. And what is a neural circuit? Is it one structure?
Is it two structures communicating? I think this is where I actually think that the robotics is going to tell
us how the brain works because it's tempting to think that the brain has all these cell types
and circuits in order to solve specific problems. But it might be that the fundamental algorithm
is to create cells and circuits that can solve variable problems. We know in the retina,
just a very simple example
is that we've always heard about cones
or for color vision and high acuity and rods
or for night vision and non-color vision.
But at the dusk dawn transition,
certain cell types switch to do completely different,
have a complete different function
for viewing star-in-night versus what they do
during the daytime.
So neurons multiplex and I think building machines that can multiplex and can evolve themselves
is going to help us really understand what the brain is doing.
We need to tease out the fundamental algorithms.
We know they're like motion detection and spatial vision and things like that.
I think machines are going to be much faster at that than our understanding of
biology and how the brain does that.
Basically, I'll be out of a job and people like you will have a job. No, no, I think the main idea is that there won't be a job
that's machine learning or a computer vision. It's just it's a tool that
neuroscientists will use more and more and
biologists would use. I mean this whole idea that it will just be a tool that allows
you to start expanding the kind of things you can study.
Well, the next generation coming up, I can say this because I know I'm blessed to have
a bioengineering student.
They think about problems so differently than biologists do.
We realize the other day we both came up with a set of ideas around a certain project
and we realized that her version of it was the exact opposite of mine.
And hers was far more rational.
It's just an engineering perspective.
It's like, why would we do that last?
We should do that first.
I think that the next generation is really interested in solving practical problems.
Yeah. So a lot like computer science and engineering was in the late 90s,
was like, you can go to a PhD and computer science and engineering, maybe,
or you go work for a company and actually build stuff that's useful.
I think neuroscientists and people interested in neuroscience are starting to think,
how can I build stuff that's useful?
And this is statement is supported by the fact that many people in my business leave their academic labs, fortunately not all of them, but they leave their academic
labs and they go work for companies, like neural link.
Like neural link. This is something I think with spoken a few times offline about, as
in the speaking of computer vision, I'm fascinated by the eye. I did a bunch of work on the eye.
So from there's the neuroscientist, there's a neurobiology way of studying the eye,
and there's the computer vision way of studying the eye.
And the computer vision way of studying the eye, I've just like observing,
non-contact sensing of humans, is really fascinating to me in studying human behavior
in different contexts, like in semi-autonomous vehicles.
It seems like there is a lot of signal that comes from the eye, that comes from blinking. studying human behavior in different contexts like in semi-autonomous vehicles.
It seemed like there is a lot of signal that comes from the eye, that comes from blinking.
That's not fully understood yet.
It's been in the lab, it's been used quite a bit to study the dilation of the pupil, all
those kinds of things to infer workload, cognitive load, all those kinds of things.
But the pictures is murky.
It's not completely well understood,
especially in the wild, how much signal
you can get from the eye, from the human face.
I've downloaded Joe Rogan's,
all of the podcasts he's ever done, video.
You have the YouTube bank.
I have the YouTube bank. I have the YouTube bank for a reason that
this was before he went with Spotify.
It, you own the archive.
There's PubMed and then there's the Joe Rogan experience
owned by, or maintained by Lexi by,
privately for my private collection.
No, the reason I did it,
and I did the really really rigorous processing of it, which is like,
I extracted all of the faces.
I did the really good blink track of the pupil tracking and the blink detection for the
entirety of the art.
I should say it's from episode like, I forget what it is, but it's like episode 900, when they switched to 1080p video,
it was like much crappier video.
It's still kind of log when there was marijuana consumption
or when it was drinking.
There's so many.
Because it's gonna, like, just,
it won't throw off the data,
but it's relevant to the people data.
It's relevant to the people data.
So let's just put it this way.
There's a lot of fascinating computer vision problems involved, but I only kept long sequences
of data or the eyes detect the exceptionally well.
And I also removed people that were wearing glasses.
I removed. moved. There are certain people that have a way of moving their eyes and squinting where
it's harder to infer, like, concrete blinks. You know, they'll kind of have a squint the
whole time. And their blink is very light. It's very tough to know what's an actual blink.
So when you got those baseball cap wearing guys'
like, yeah, there are certain people
that go on podcasts and wear baseball caps
and don't reveal their, I don't know if they realize it
or not until it comes out,
but their face is completely obscured from vision.
And from a computer vision perspective,
people that wear makeup and usually women on their
eyes is complicated things, like eyelashes, all complicated things.
So you can clean stuff up just so you have really crisp signal, you don't have to, you can
deal with issues, but there's so many hours of general opinion.
Anyway, I say all that because I was searching for an interesting personal experiment for me because
I saw in drivers when I was looking at eye movement and drivers. It seemed to indicate
There seem to be quite a lot of signal there that indicates
amount of cognitive load
But it's not clear if there's something conclusive
But if there is some signal,
that's a really powerful one because I movement can be detected in the wild. Like you and I
sitting here, I can detect I move really well. People dilation is a really crappy indicator.
And it's luminance dependent. Like I turned toward a light. It's it's a route. It people
just change size. It depending on level of alertness aroused, autonomic arouse, but also overall levels of luminance.
It's very, very hard.
But there are, I mean, you're sitting on a gold mine because there is a lot of interest
right now in measuring state through non-contact sensing.
Heart rate variability through changes in skin tone, just off a camera.
Can you imagine that at the point where you just look
at some video and you're like,
oh, they're getting more stressed or worked up
and they're not based on a heat map
of some little patch on their face
because everyone's gonna have this sort of compartmentalize
it slightly differently,
but you can learn it pretty quickly.
We know this when someone's giving a talk
and we see them starting in blotching on their neck.
This is the thesis defense response, right?
We know it and we're it's a stressful situation because it not passing your thesis defense is rough.
And we can see that, but cameras can pick that up really easily at much lower levels than the
blatant blotching kind of effect. And eye movements certainly are powerful indications of the state of the autonomic system.
So what do you do you think there are things from a high level that you can pick up from eye movement and blinking?
Well, blink frequency is going to increase as people get tired, right?
I mean, it's actually been teased a lot online because I don't blink much when I'll do a post.
And so I did a whole post about blinking, about the science of blinking.
There's some data, very strong data, not from my lab that show that every time you blink,
it resets your perception of time.
They have people do these kind of track of a kind of a Doppler-like thing.
And anyway, blinking resets your perception of time.
There's a dopaminergic mechanism in a in the blink-related circuitry of the brain.
When people are very alert, they tend to not blink very much.
When we're sleepy, we tend to blink more,
and our eyes tend to close.
Now, some people are more hooded than they're the way
their eyes sit.
Some people are like this all the time.
There are some very famous people.
I'm not gonna name them because I might run into them
at some point who are like accused of being sociopaths
because they don't blink very often.
But they might just have high levels of autonomic arousal.
They just don't blink very much.
It also depends on how lubricated the eyes are.
So I think within individual, you can get a lot of information.
I don't think we can say this person's blinking a lot.
They're lying.
This person or their tire.
This person doesn't blink.
They're stressed.
I think if you understand that person's baseline, you can get it.
Presumably, while having been on the Joe Rogan experience, I can say, when you first sit down
there, if you've never been in there before, you're in my days, that by the way. Well, I bet you,
I will admit to being, you know, first time sitting down there, I mean, Joe is incredibly gracious,
make me feel very comfortable there. But it's an intense experience.
It's a small space to anytime you enter a small space from a big space, in this old studio.
Is it you're familiar with?
There's a breaking in period where you're getting to know somebody.
And so I'm sure my level is of autonomic arousal in front of the podcast, we're higher than
later.
But once you have a baseline established, you can get a lot of data
on somebody, simply from blinks, some people averting gaze to. If you have both people, that's really
powerful. This is the Holy Grail, another Holy Grail of Neuroscience. We've mainly looked at
subjects in isolation. There hasn't been much brain imaging of two people interacting, or even
in animal models of two mice or two monkeys interacting.
It's all like person scanner, bite bar.
I mean, if you've never been in one of these scaring, you're like in a bite bar.
It's very medieval.
And so you think in the interaction, there's actually, you can almost study them as a single
brain, or as a single system, that the two brains are a single system.
I think with AI, it's highly correlated.
Yeah, maybe are your blinks triggering my blinks?
Are your non-blink epochs, extending my non-blink epochs?
There's a fascinating space to explore there
and no one's done it.
Cause everyone let the Joe Rogan experience archive
disappear except for you.
You grabbed a comment too.
Because I think the comments were almost as entertaining
as the conversation.
You know what you just made me realize
with the coupleings, I have a better data set
than the Jorogan podcast with high resolution video,
which is the raw video for this podcast.
So for example, both cameras right now,
are recording you and I full feed.
The final result will switch cameras back and forth,
but I have the full feed, right? So I can have the blinking for both you and I the whole time.
I bet you people trigger blinks and in one another, you know, and there's also like the simplest
way to think about the blinks and the attentional thing and the alertness is two fighters in the
in the standoff.
There's this whole lower around who blinks first.
Yeah.
It's like they blink first. Well, what are what are we really asking? They're asking whether or not one person can maintain focus
longer than the other person, which is an important parameter. It's not the only parameter,
but it's an important parameter. And so that blinking contest, even though they don't square off
as a blinking contest, it's well known that the first to blink is revealing
something about their capacity to hold attention.
You've started an amazing podcast, we'll mention a few times, people should definitely check
it out, it's called the human and lab podcast.
It does your, it's basically, it embodies the personality of Andrew Hubertman, which is like, make science
accessible, but also fascinating and giving it, like, what do you call it? You give tools
for everyday life, meaning it kind of grounds it like what the hell does this mean for my life?
But then also does the beauty of science at the same time. So I love both the
rigor and the openness of the whole thing plus the whole corrections things I'll mention.
Anyway, what's been the hardest part of this whole process? Here one of
been the hardest part of this whole process. You're one of already one of the only and one of the best science
podcasters out there.
So in that process, was been the hardest, was been the most exciting part?
Well, well, first of all, thanks for the kind words about the podcast.
It was inspired by you.
I absolutely, that's that's no BS. I the last time
we met to do an interview for your podcast, we talked a little bit about it and you gave me the
subtle nudge that maybe there was a there was a podcast there and I thought about it and I left
and it's just like, I got to do this thing and you really gave me the encouragement to do it.
And that your podcast, this podcast has really forged forged the way you've been tip of the spear on serious scientific, intellectual,
yet fun, accessible conversation. And so I as your colleague and friend and but just even if
those things weren't true, like this, this podcast was and is the inspiration. There's no question.
Yeah, I really, like, 100%.
And when I decided to do the podcast,
the Human Lab podcast, I thought really long and hard
about what would work best and would be most beneficial.
It turned out to be the hardest thing,
which is to stay on a single topic
for three or four more episodes
before switching to a new topic.
Because I know from the experience of university
and teaching in university,
as you know, as well, that there's always the temptation
to pivot to something else,
but the drilling into something really deeply
is where the gems reside.
And the challenge has been how to make it interesting, how to keep people
on board, how to give people tools along the way, but also stay close to the scientific
data. I like to think that we're headed in the right direction. It still needs to evolve,
but that's been a challenge. I think I also am challenged by the fact that there's a tremendous range of backgrounds
of listeners.
So some people have asked for more names, like more bits and parts of the nervous system
and cellular molecular mechanisms and all that kind of thing.
And other people said, I don't understand any of that stuff, but I think I'm keeping
up.
And so unlike a university course where there are prerequisites and everyone's coming
to the table with more or less the same knowledge, I have a very limited sense of what the audience knows and doesn't know.
So that's why I incorporated the feature of the comment section on YouTube being a source
of feedback.
And I do a kind of an office hours like episode every third or fourth episode where I address
common questions.
And I think that the podcast space in my mind, at least for the sort of podcast
I'm doing, needed a venue for the listeners to be a more integral part of the experience
as opposed to just commenting on what they liked or didn't like. So while I like to hear
what people liked and didn't like, I also really like to hear about, hey, tell me more about
temperature minimums and how they can be used to phase shifts or cadium rhythms or whatever
it is.
And I realized that I'm probably losing
some people along the way, but hopefully,
at the end of each month, and because of the way
that the episodes are archived,
people will come away feeling as if they've learned a ton
and they have tools that they can implement,
and perhaps most importantly,
that they're starting to think scientifically
about the tons of other stuff that's out there.
So that's been the challenge and it's still really early days.
But and of course there's also an intentional challenge.
I realize that people are busy.
Not everyone has two hours to listen to a podcast about jet lag and shift work and raising
kids and sleep and that kind of thing.
I'm not raising kids by doing a whole thing about babies and sleep with, you know,
and how parents can manage their sleep
when kids aren't sleeping.
So it's been I'm hacking through the jungle
of all this stuff,
but, and I'll come right back to it.
My inspiration and my North Star on this
is getting to a point where the audience that listens to this
feels the same way that I do when I listen to your podcast.
Thank you so much.
Thank you.
Like, when I turn into your podcast, I'm going to embarrass you a little bit more by complimenting
you a little bit more, but not out of a sadistic thing, but just because when I tune into your
podcast or Joe's podcast, I have the same sensation
that other people have.
Like, I feel like I'm home of sorts.
I'm like, I'm familiar with the space.
And I'd like people to feel comfortable in the space that is the Hubert and La Pagas,
whatever that ends up being.
Yeah, that's the magic of podcasting.
It's like, I feel like I'm part of your life now in a way that as a fan
that I wouldn't be otherwise.
And, you know, like I would never was able to have that with Carl Sagan, for example,
you know, and that's a whole nother level of connection with the human being that gets
you excited.
And then I share your excitement about different topics in neuroscience or just biology in
general.
And then I don't have to actually understand everything you're saying to really enjoy
it.
So that's the magical podcast thing is like you can go through like 10 minutes and understanding
what the hell a person is saying.
And then you enjoy the excitement
and then you reconnect to a thing
that you do understand what they're saying.
And that's that personal coupled
with the scientific rigor is magic.
And finding the right, it's exploration.
Like a Joe found something that works for comedians,
which is like having a good laugh, but also every once in a while talking serious about difficult topics
The scientific space it was unclear. I you haven't had guests on
No, yeah, but maybe you'll come on as a
I was gonna invite my I was gonna try to
For myself. I am I am officially inviting you now.
Will you come on the podcast as well?
I was a fantastic.
But it was hard, it's still a little bit difficult
to tell people that no, you don't get it.
We're not gonna talk for 10 minutes.
We're gonna talk for three or four hours.
It's a different for scientists.
For like,, for like,
they're like, what, I don't, what are we gonna talk about?
They think it's like the NPR interview.
Yes, and they don't realize, first of all,
I think at his best, if you're like at the level of Joe Rogan,
who I think is an excellent conversationalist,
you just lose track of time.
It can be three, four, five hours
and you lose track of time. I'm still three, four, five hours, and you lose track of time.
I'm still not there.
I find that it's still painful.
Like the conversation is still challenging sometimes.
You don't lose quite as much of track of time.
It's still an intellectual effort.
And I think it might always be as it would be with you
because you're talking about difficult topics.
Maybe that require more brain.
You're not just shooting the shit with like a
Brian Red Band or somebody like comedians or just joking. What's like, remember those shows,
like where those shows where someone would come out and like spin plates and they're running
back and forth and it's really good scientific discussion is like that. You have to be
maintaining three or four different logical arguments and jumping back and forth. It's occasionally getting to like a real streak of linearity, but
as we found today that typically there's three or four different things that we're bouncing
back and forth from, and that requires a lot of updating of these, you know, four brain
circuits. It's not a passive listening experience, but I like to think that the brain likes
that. I do want to ask, just because we all, I don't want to forget the question came up to me,
is your podcast has the same kind of rigor that I think like a Dan Carlin podcast has,
who's a history podcaster.
Well, that's definitely a compliment.
Thank you.
It feels like Dan's way, you know, he's something for me to aspire to.
So he goes through hell to prepare. He spends months preparing. It feels like you've had to really prepare for your podcast.
I definitely prepare hard. How? Is that? Are you okay? Yeah. I mean, how much effort does that take?
It feels like a conference presentation.
Yeah, so we record once a week, and in the intervening time,
I listen to many university level lectures.
So NIH has a bank of lectures.
I have some sources of recorded university seminars.
I'm trying to find the points of intersection.
So like for four episodes on sleep,
it's not like I'm going to just regurgitate a popular book
or take one lecture and just, you know,
poach the content, I'm going to find the overlap
in the different elements.
I also, so what I'll do is I'll generally read 10 or 15 papers
and generally those are good reviews, annual reviews, So what I'll do is I'll generally read 10 or 15 papers.
And generally those are good reviews, annual reviews, interview of neuroscience, annual
review of physiology, those kinds of things.
I'll chase a few references.
I'll listen to some YouTube videos, but of university level lectures.
And then I throw all that on a whiteboard, usually while I work out in the morning, I'll
just be working out.
I have a gym in my house and I'll just put up all these
random ideas. I want to cover that dream, solucination, and then I take that and I start to eliminate,
I draw lines between the common points of intersection. And then from that, I distill out an outline.
And then I basically think about what I want to say on my walks with my dog.
And I bother a couple people and blabbed of them. So I would
say each podcast, yeah, I put in 10 to 15 hours at least of passive listening preparation
and maybe five or six of active preparation. So I do prepare quite a lot, but it has a
certain reward component for me. I to come up at the end with something that's somewhat
crystallized for me's just so satisfying.
It feels like there's something about my dopamine circuits
that just love that.
And the only pain is that a year later,
after I've talked about the stuff a bunch of times,
it's so much more succinct.
But that's life.
You know, at some point, you got to pull the trigger.
Well, I don't know what you think,
but for me, YouTube
is that's why I'm sad that Joe left YouTube. There's an archival nature to YouTube that's
kind of magical. And so I'm really glad you're now. You're doing a lot of educational content
on Instagram before, but now I'm doing this podcast thing on YouTube, it's like, you know, it's like
fine man lectures. Like, I'm not saying every podcast, but there will be, you will have
some, I could already tell, there'll be some lectures, which are like definitive, like
really special ones. And there's some aspect that's archival to YouTube
where at least I hope like 20 years from now,
some kid is gonna watch a lecture,
yours and you know, it'll create the next mobile prize,
right, it'll create another dream that becomes a reality.
And that's a special thing that YouTube provides.
I'm really excited that you're on YouTube.
And at the same time, I'm excited to see where this thing goes
because it seems like change is the cliche thing.
The change is the only constant in these times
because you're paving with this podcast,
with this creativity,
with you were doing on Instagram as well,
you're paving the new era of what it means to do science.
So actively doing research
and actively explaining that research in new media.
It's very interesting.
To...
And genuinely inspired by you.
We had this discussion last time after the podcast recording
and it was clear that communication of science
cannot be left to the existing institutions.
And I'm gonna talk about universities.
I just mean that the science section of newspapers
is sometimes there are some gems there,
but generally it goes, you know,
and I think you really have to know a field
in order to extract the best things from that field.
And my hope is that other practicing scientists and people finishing their PhD in post-doc
and people who are running labs or working at companies will start to do this.
I mean, how amazing would it be, for instance, if someone at Neuralink was giving us hints about not necessarily what they're developing
because that's complicated for all sorts of reasons, but would talk to us about what
the real challenges of building futuristic brain machine interface are like and what
it means to understand a clinical problem and address it.
My hope is somebody there might eventually do that,
that somebody in the world of chemistry or synthetic materials,
or whatever it is, will do this in a way that I could understand,
because I don't have expertise in those.
I think it would be marvelous.
And you were tip of the spear, you were out first,
and I'm just happily trying to move along in the direction I'm going. But I think the future
of science education is online and I think that's going to be scary to a lot of existing institutions,
but it's not about disrupting anything. It's just about trying to do things better.
Yeah. You know, some of the best interviews, some of the best investigative journalism is done by people
inside the field.
Comes to mind a guy by the name of Elon Musk, who, who, uh, I love the, the possibility that
he gets the Pulitzer for that interview, but, uh, he grilled the crap out of Vlad, the,
uh, CEO of Robin Hood.
I'm not sure if he's going on. Oh, and then Clubhouse.
Clubhouse the other night.
Yeah, I saw you guys in there.
I was kept out.
I wasn't quick enough.
My thumb's gonna go fast enough.
So I was, and I wasn't about to sit in the waiting room.
Have you tried that social network,
by the way, the Clubhouse?
I've gone in there a few times and checked some things out.
I'm, there, I have a few questions about it that,
like, if I'm in there, how one can participate or not participate.
I like being a fly on the wall for those conversations.
I've been very curious as to what's going on in there.
Oh, it's quite.
I mean, I have a lot of thoughts.
Maybe it's useful to comment.
I also have a Discord server that has a few tens of thousands
of people on it, and then they have also a voice chat capability.
So they have these get-togethers. And I was using it in the spring and summer,
like actively on those voice discussions and it's anywhere from 10 to like a thousand people
all together in voice. Like, you, anyone can speak anytime, right? But there's this weird dynamic that people stay quiet.
And only one person speaks at a time.
Interesting.
Because they're all like respectful.
And it's the community of like, like, fundamentally respectful people, even though they're all
anonymous.
So like, except like me and a few others, it's all anonymous people.
So interesting.
And it works. But the magical thing to me about that community was how intimate voice-only communication
can be.
It felt as intimate as like a small get-together at a home with close friends.
It felt like there's a calmness to it
and you're revealing things about,
you know, somebody suffering from depression
or being suicidal.
So those are the dark things
or being super excited getting a new girlfriend
or boyfriend, like just the depth
of human experience shared on voice without video
is, I was really surprised how intimate that
is for human connection, especially in this time of COVID, it replaced that.
So that, so that, so just to give you some context, there's something there.
There's definitely something there. One thing that comes to mind is when, like in Clubhouse,
you have your little icon, so they don't actually, you don't see your face moving.
I think when people see their own image, it puts them in a state of self-consciousness
that is eliminated by just having an icon or an avatar.
Yes, absolutely.
So like Zoom is dreadful,
because if I'm not used to talking to people
and seeing a little image of myself
staring back at me in a mirror,
and it's just, I know there are ways
that you can adjust that, but it's really awful.
And I think that when I get on zooms now,
I say hello and then I shut down the video component
and then I just talk in the end,
I come back on just to show that still there, it's still me.
But I think that voice only is really interesting.
Eddie Chang would be an interesting person to talk to about this
because he understands so much about how
in flexion communicates emotionality in deeper state.
But there's a balance between, I think, just like you said, the privacy somehow allows for
the intimacy. So like, being able to, as opposed to putting on an act, which I realize we do when
we're visually presenting ourselves in remote communication, But I think that there's so few places
where people can actually communicate
without the fear of penalty.
Yes.
That's, you know, woefully absent these days.
And so maybe people are just relieved to be in a place
where they feel like I can say what I want
or not say anything and it's okay.
And so clubhouse, as you can see,
a kind of question is is it was a big
improvement to me over discord which is it has tears. It has a stage where people the person that
created the room can invite people up that would like to speak potentially have the opportunity to
speak and then there's a bigger audience that don't get a chance to speak unless they click raise their hand and
they get called on.
So there's like a tier system that allows for there to be a group of like 5, 10, 20,
30 people talking and a lot larger amount in the audience, which in Discord is a problem
is that everybody could talk.
And the other thing about clubhouses, everybody is strongly
encouraged to represent themselves. So you're using your real name. It's not anonymous.
And how many people were in that game stop discussion?
They currently limit rooms to 5,000. So I'm sure maxed out of 5,000. There's a lot of overflow rooms.
This is the cool thing about clubhouse. Really big people were on there
all tuned in and having a conversation, having all these different worlds being able to connect.
Even though without the nice cities of arranging the meeting, you could just show up and leave, which is nice.
But the reason I'm from my lessons from Discord, I'm going to mostly stay away from
co-house and I think we're going there under another name. Right. I'll pretend I know the actual
your actual name. Yeah. It's quite a dicting. It's a time sync. It's so the intimacy of it is you find yourself
wasting quite a bit of time on there. It pulls you in. Well, it's interesting. They would sort of
going back to the podcast or earlier time out books or creating a technology. One thing that's
absolutely clear is that anything that's easy to reproduce is probably not worth much effort and time.
Yes. Right? I mean, most posts could be easily reproduced. You just repost them.
Yeah.
So, now, there are some original posts for which the attribution goes to the original person.
It's clear it came from you.
But anything that can be easily reproduced
is doesn't really expand us very much
as individuals or as groups.
And most of what I see on social media is stuff
that is purely reproduced.
Yes, but I think Clubhouse,
I mean, it could be that some real magic emerges on there.
So in moderation, it could be good some real magic emerges on there. So in moderation, it could be good.
The magic is, this is another thing
that I've found through COVID
that maybe you can think about is live.
I used to be not understand the appeal of live video
or live connection or like in this clubhouse, live events
because clubhouse is technically
for the most part.
It's not supposed to be recorded.
Most people don't record most conversations.
It's a one time live event.
And there's a magic to that.
There is.
That's not captured by your podcast or my podcast produced video that's like recorded,
like packaged up, or anything can happen.
It's that anything can happen.
And that's the kind of thing like live concerts.
I definitely love live music.
And it's the idea that,
because you can always listen to the album.
Actually, the album usually sounds cleaner and better,
but it's just this idea that anything can happen.
And then you listen to the parts, I don't know,
you like a Castella did something weird,
your dog did something weird,
and then you have to go, oh god damn it,
you have to go to the kitchen or something
to get something and then you come back.
And it's funny, I watch a live video like that of people,
and I'll be there for the whole time.
I'll wait for them to go to the kitchen and come back.
It's not like I tune out.
And that makes it like a richer experience for some reason.
It's weird.
Well, it humanizes it.
Yeah, humanizes.
And I think there is this weird effect of whether or not it's a podcast, Instagram, or
Twitter or anything else.
There's it's kind of like two people shouting into a tunnel and then a bunch of people
with ears at the other end of those tunnels and shouting some things back.
You know, that's kind of the format we're in.
I think I'll check out Clubhouse again.
I've gone in there a few times during the day and I was surprised to see how many people
were in there in the middle of the day.
I was like, don't, aren't these people supposed to be working?
Exactly.
But maybe that is their work.
Well, be very careful about the time sync of it.
But yeah, if you want to, you and I go together, we have a conversation on there,
but one of the things you have to figure out,
I don't still know how to do it, but how to exit.
Which is like,
isn't there the leave quietly button?
Yeah, no, but like when you and I are on stage,
have a conversation.
Okay, you and I is harder,
but like, you really, if it's just you and I, then it's harder, but like you really,
if it's just UNI, then it's the usual human communication
of like, all right, I gotta go.
But when it's like four people,
you don't want to interrupt everyone
and ask your leaving, you just have to,
I mean, there's a weird dynamic
that I haven't quite figured out of how hard it is
and clear.
The etiquette is not clear.
Well, the etiquette on different platforms. The etiquette is not clear. Well, the etiquette on different platforms
and how that changes is really interesting,
how YouTube has one etiquette,
which is kind of, a lot of harshness
is tolerated on YouTube video comments.
Twitter seems a bit harsher than Instagram.
Instagram, there's kind, it seems to be a little nice.
You're really nice.
You look really nice on Instagram for the most part, except for those fishing things.
I actually know someone who had their quite sizeable account poached by those copyright.
They come in with those like you violated coffee, copyright thing.
There's also a harshness in there that if you think about it in the real world, I like
to think about Instagram as if it was the real world.
Someone that comes over is basically saying,
like, hey, can I hold your wallet and go into the bank
and I'll get some money out for you.
But there's this trust based on the format it comes in
that it can almost get past your radar
unless you're suspicious.
If you took comments, like you know,
you're post-kill comments and you use it,
you just walk past 500 random people on the street
and just listen to what they say.
It's like, that's ridiculous. I don't have time for that. But the comments somehow take on this
importance and this relevance. And you feel we feel obligated to give them value, right? And so
the online communities, the rules really are different. And they evolve with time, which is
fascinating. With Clubhouse, it's a new social network,
so it's evolving and people are figuring out as you go.
And the same thing with podcasting on video
and like scientific podcasting.
This is the cool thing when I look at what you've created.
I'm learning.
I'm thinking like, hmm, that's interesting
to do it this way.
Because like, nobody, I have nobody to copy.
Not many people to copy
you know what I mean when you threw out an idea I'm not gonna put it out here now because I
I don't want to because knowing you you'll hold yourself to it no matter what but when we talked
about this issue of the challenge of staying on a particular topic for a while I mean you do have
some cool stuff brewing in there oh no no I separate from this format and I love your interview
format but no no when you told me about that I got really excited that you might go forward I'm not I do have some cool stuff brewing in there. Oh, no, no, no. I separate from this format. And I love your interview format.
But when you told me about that,
I got really excited that you might go forward.
I'm not gonna tell your audience what it is.
But I will say this, it is super cool.
I would have never thought about it.
It's distinctly different than what I'm doing
or what Lex is currently doing.
And if you decide to do that podcast,
I will be your first and your number one fan, and I know
there are going to be millions of other people interested in that.
It would be amazing.
So, if you decide to go forward with the idea, that would be awesome.
Obviously, let's say what it is, but now I'm not going to because that's even more interesting.
I brought up the clubhouse thing, actually, in Elon, because I just wanted to get your thoughts
about something he said a few times to me and in general, is that he's under a huge amount
of stress.
And I'm thinking of doing a startup now and kind of thinking about all of this. Because I enjoy podcasts, I enjoy science.
But he says that his life is basically hell.
That's very difficult.
He looks happy, but he's probably very good at that.
He's fulfilled.
He's fulfilled.
But the stress levels, the constant fires
that he has to put out.
And he says that most people wouldn't want to be me
and that basically the reason he does what he does
is because there's probably something wrong with him.
Like it's not, he can't help it, but do that.
It's kind of beautiful.
In a kind of Russian, masochistic way.
Well, I just wonder the stress.
I mean, I'm sure you can imagine the kind of stress
he's under because it's running three plus companies.
Oh.
And there's constant, he says that every single meeting
is not about, should we install a coffee maker in the kitchen?
It's like, you know, this rocket is going to blow up
and we're all fucked, I don't know what to do.
And we have to, you have to fix, you have to fix it.
Real like big problems there.
And like, how do you deal with that?
What do you think about that kind of life?
One, is there a way to, you think about that kind of life?
One is there a way to walk through that fire and two, should you walk through that fire?
Well, I mean, without knowing I've never met Elon, but certainly we have common friends
in you and in other people that he worked with long ago,
in the PayPal days,
all of whom speak very highly of him
and show express immense admiration
for the number of things that he can maintain.
I think it's fair to say that he accomplishes more
before 9 a.m. than most people do in a decade, it's clear,
and that what he does would dissolve most people into a a decade, it's clear,
and that what he does would dissolve most people
into a puddle of tears.
Mostly because of this whole thing,
about the brain working hard equates to
thinking about duration, path, and outcome
and anticipating outcomes given A, B, C, or D,
a lot of very scripted linear thinking and prediction.
And that is hard, it's stressful, it requires intense neurochemical output.
And he's doing that for multiple projects.
So presumably he's buffered himself from the coffee maker issues and the little tiny
issues, but he is it himself, unless there's something I don't know, he's walking around
in a biological system.
He is.
That's allegedly, yes. Yeah, allegedly. So, and I don't want to
reveal too much here, but I have a common coworker and colleague through some contract work I do,
that what I can tell you is that he's accessing the best resources in terms of how to optimize his
biology. And he's thinking about that, not just for himself,
but for all of Neural Link.
Because I think, I'm not trying to dodge the question,
but I think there's the scale of the individual.
But then there's the companies that he's creating.
And you've got people there that you could imagine
if they're working at 10% better capacity
or can focus 5% better for
20% of the day, you're looking at an enormous increase in productivity and a reduction in the
time to reach goals, which will reduce the amount of stress presumably on Elon unless he goes and
starts another endeavor. Right, so I think it's certainly not healthy for most people.
It seems to be where he gets his dopamine hits.
I'm also really struck by the fact that he has a family
and he has, you know, he's got kids growing up
and a relationship and all that.
So it's super impressive.
I think that, I don't know how old is Elon.
Yes. 40, I'm pushing 50, I think 48.
Even more impressive. I because it you know many people who've been at exceedingly high output for a decade or more don't
Do well their system breaks down. Well, this is what he was saying he
Actually the I mean, I don't listen to all of his interviews, but on that live on the clubhouse, he mentioned
that he was kind of worried.
It's interesting.
He was worried that like sometimes what I think he said is, I'm worried that at some point
my brain is just going to fail because of the amount of load it's under. Like how much I have to think through throughout
the day, like how many like problems you have to think through. Like, you know, it's like
puzzles. It's past the puzzle solving. I would be concerned about taking somebody who's
in that regime and suddenly putting them into a regime where they don't have enough to
bite down into. It's like my bulldog Costello, he's happiest when chewing and tugging at that big ol' neck
of his, and he is just not going to become a retriever, he's not going to, that he does
well and gets his dopamine hits from chewing and pulling.
And it, it seems like Elon has ended up where he is by way of his natural leanings.
Unless there's a backstory that's trauma-based or something
and I don't even begin to think that there is, it seems that he has one of those rare
individuals in history that has an immense drive to create in all these different domains.
I'm just saying the obvious here, but it seems like that's what makes him tick. I mean,
you're doing an awful lot too. Well, the problem is not really,
the problem is I've been on the verge
of pulling the trigger on starting a company,
which will increase the workload significantly.
And I'm attracted to that because of a dream I have,
but it's a little bit scary because
it can destroy you in a lot of ways.
There's two sources of destruction.
So one source is, for the first time in my life, a few months ago, I think, have gotten, this feels like such a
new thing to say, but I've gotten some hate on the internet. No, I know, right? No. But like,
I'm such an idiot. I'm so naive. Just, it was super, I had the question that I guess a lot of
people have when they get hate. I'm there and I was like, like, it's like, mom, why are these people making up stuff about me?
You know, that kind of feeling of like, why are you saying that?
And the reason I mentioned that is like, well, if you go, if you want to go and start a business
and do, as I think people should when they start a
big ambitious business, really try to go big.
Like, what does success look like in terms of your emotional journey?
You're going to have a lot of people who make up stuff about you, who say, negative,
majority, hopefully, if you do a good job, will be supportive.
But there's still going to be this army of people there.
And like that, that was scary to me because of how much emotional impact that had on me.
Well, and I also know a little bit, I have some glimpse into the fact that you put your heart
and soul into everything you do.
You're not a, you're lighthearted about certain things,
but you're even lighthearted about being full gas pedal 24, 7.
There's kind of this, you know, was it,
was it lared Hamilton always says, you know,
the big wave surfers, he always says, you know,
bright light dark shadow, you know,
and I think it's that intensity.
And when you do that, and then suddenly people are starting to like throw
some paint on your picture, you're like, wait, hold, you know, you're going max
capacity. But I think the company is interesting one because you've talked
about doing this company before. I've been afraid I just not been pulling
trigger out of fear because I enjoyed this life
This is this is starting to drop it. It's ultimately this question of taking a leap is like
Say you're in academia like you're at MIT
You're I really love doing research at MIT. I really love that life
Why take a leap out? You know, but I did
that life, why take a leap out? But I did, because it's been a dream.
But now, accidentally, along the way,
I found this podcasting thing, which is also really fulfilling.
And it's like, why take a leap?
Because you have a huge lust for life.
Yeah, I mean, that's you.
I mean, sometimes you want to run on the internet,
and I think, you hear about it, like, oh, it's a dicting, YouTube's a dicting, actually, sometimes, I mean, that's you. I mean, sometimes doing them on the internet, and I think, is this, you hear about it, like, oh, it's a dicting, you know, YouTube's a dicting all that.
Actually, sometimes I think maybe that's true, but a lot of times I just think there's
so much here.
There's a lot of garbage, but there's so many gems out there in the world now.
It's almost like, sure, how you allocate time is key, but I I think you can do it all
Yeah, I mean not five more things, but yes, but all yes and one thing I just had this idea
And this is not grounded in any scientific paper, but I think the answer might come to you during this
This torture that you're about to yourself. You're with David because in those mental states
You're really asking the question right you're asking the question, where is my capacity?
And am I even close to my capacity?
And if I am, what's, what's of the most value?
I think we find the answers to those things in those nonverbal, non analytic states.
It just comes to us.
I hope you're right.
And I hope it's
profoundly fulfilling experience as opposed to one that leads to mind demise, but
It all goes to the to the exactly to the hedgehog
Now it all makes sense Andrew
Like we talked about offline and on this podcast. I do hope we write some stuff together
Do some research together.
You're one of the most inspiring scientists
speaking and communicating to the world.
So I can't wait to see what you do with the podcast.
I'm already a huge fan.
I've been telling everybody about it.
I can't wait to see you talk to Joe as well soon. And I can't wait to see you talk to Joe as well soon.
And I can't wait to see what kind of people we're right together.
Thanks so much for talking to me.
Thank you.
That project is going to be a lot of fun.
I can't wait.
And thanks again for having me on.
Appreciate you, brother.
Thanks for listening to this conversation with Andrew Huberman.
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Thank you.