Huberman Lab - LIVE EVENT Q&A: Dr. Andrew Huberman Question & Answer in Melbourne, AU
Episode Date: March 22, 2024Recently I had the pleasure of hosting a live event in Melbourne, AU. This event was part of a lecture series called The Brain Body Contract. My favorite part of the evening was the question and answe...r period, where I had the opportunity to answer questions from the attendees of each event. Included here is the Q&A from our event in Melbourne, AU at Plenary. Thank you to our sponsors AG1: https://drinkag1.com/huberman Eight Sleep: https://eightsleep.com/huberman Resources Ask Huberman Lab (AI platform) 10 Minute Non-Sleep Deep Rest (NSDR) Timestamps (00:00:00) Introduction (00:02:50) Strategies for Preventing Dementia (00:15:07) Enhancing Willpower: Is It Comparable to Muscle Training? (00:22:40) Minimizing Circadian Disruption for Shift Workers (00:29:24) Difference Between NSDR & Meditation (00:37:32) Combatting Mindless Phone Scrolling (00:42:18) Dream Clinical Trials (00:55:55) Conclusion Disclaimer
Transcript
Discussion (0)
Welcome to the Huberman Lab Podcast,
where we discuss science
and science-based tools for everyday life.
I'm Andrew Huberman,
and I'm a professor of neurobiology and ophthalmology
at Stanford School of Medicine.
Recently, the Huberman Lab Podcast hosted a live event
at the Plenary Theater in Melbourne, Australia.
The event was called the Brain-Body Contract
and featured a lecture
followed by a question
and answer session with the audience.
We wanted to make the question and answer session available
to everyone, regardless if you could attend.
So what follows is the question and answer session
from the Plenary Theater in Melbourne, Australia.
I also would like to thank the sponsors for the event.
They are 8Sleep and AG1.
8Sleep makes smart mattress covers
with cooling, heating and sleep tracking capacity.
Now, one of the key aspects to getting a great night's sleep
is to control the temperature of your sleeping environment.
And that's because in order to fall and stay deeply asleep,
your body temperature actually has to drop
by about one to three degrees.
And in order to wake up in the morning feeling refreshed,
your body temperature actually has to increase
by about one to three degrees.
8Sleep makes it extremely easy to control the temperature of your sleeping environment
at the beginning, middle, and throughout the night, and when you wake up in the morning.
I've been sleeping on an Eight Sleep mattress cover for nearly three years now,
and it has dramatically improved my sleep. If you'd like to try Eight Sleep, you can go to
eightsleep.com slash Huberman to save $150 off their pod three cover. Eight Sleep currently
ships to the USA, Canada, UK,
select countries in the EU and Australia.
Again, that's eightsleep.com slash Huberman.
The other live event sponsor, AG1,
is a vitamin mineral probiotic drink
that also contains adaptogens
and other critical micronutrients.
I've been taking AG1 daily since 2012,
so I'm delighted that they decided to sponsor the live event.
The reason I started taking it
and the reason I still take it every day,
once or twice a day,
is that it ensures that I meet all of my quotas
for vitamins and minerals.
And it ensures that I get enough prebiotic and probiotic
to support gut health.
Now, of course, I strive to consume healthy whole foods
for the majority of my nutritional intake every single day,
but there are a number of things in AG1,
including specific micronutrients that are hard to get
from whole foods or at least in sufficient quantities.
So AG1 allows me to get the vitamins and minerals
that I need, probiotics, prebiotics, the adaptogens
and critical micronutrients.
To try AG1, go to drinkag1.com slash Huberman
and you'll get a year supply of vitamin D3K2
and five free travel packs of AG1.
Again, that's drinkag1.com.
And now for the question and answer session
from Melbourne, Dr. Huen.
Some of your listeners are in or approaching our 50s.
Okay.
Same.
And are thinking of doing all we can to prevent dementia.
Same.
Do you have any additional thoughts or protocols or research we could focus on? Yes, so for the next two and a half hours, I know
I'm kidding, I'm not known for being succinct. I didn't go over too much
earlier. So okay, so ground truths. So let's start with ground truths and then
let's move to emerging.
Let's maybe get to a little bit of speculation.
Let's avoid conjecture.
Ground truths.
Blood circulation is good for the brain,
perhaps most important for the brain.
So anything that is good for cardiovascular health
is going to be good for brain health.
It's not the only thing, but that's true. We know this. So you hear these days a lot about zone 2
cardio. I don't know who gets credit for that. Peter Attia talks a lot about it. I
talk a lot about it. None of us invented the notion, but you know 150 probably
more like 180 to 200 minutes of so-called zone 2 cardio per week is good
numbers to shoot for. Some of us get more, some of us less. What is zone two cardio per week is good numbers to shoot for
Some of us get more some of us less. What is zone two cardio zone to cardio is
Cardiovascular exercise could be running could be swimming could be walking depending on your level of fitness, which you can
just barely maintain a
Conversation were you to push any harder or faster?
You wouldn't be able to complete your sentences with much ease. Okay so is this zone two cardio for me?
No but if I were to jog and try and have a conversation at some point I would
a little bit of a hard time that's a zone two cardio. So we know that's true.
Why? Well it seems to do a number of things at the level of release of growth
factors, brain-derived nootrophic factor, at the level of different, let's call
them, I realize the immunologists are gonna like roll their eyes, but anti
inflammatory cytokines and things of that sort. You also have inflammatory
cytokines and things of that sort. It does seem that increasing blood flow in and through the
brain is important for brain health, which is not all that surprising. There
are species of animals that spend part of their life swimming about and then
when they stop a good portion and stick to a rock or something, a good portion of
the nervous system actually degenerates.
But neurodegeneration and dementia
are not necessarily the same thing,
and this is something that we don't often hear about.
The age-related decline in memory capacity,
in particular working memory,
can be related to reductions
in dopamine transmission in the brain.
So things that increase the catecholamines that we talked about earlier. This could be pharmacology of
course but it doesn't have to be pharmacology. It could be anything that
increases the catecholamines. And we talked about this on the podcast. We have
zero cost protocols that you don't have to sign up for. You can just go to our
website and go to dopamine regulation and it will list out ways to increase
the catecholamines through zero cost and very low cost ways.
Are known to improve working memory. Working memory of course, the capacity to maintain
a string of numbers or information for sake of kind of immediate goals but not information
that's passed to the longer term memory. So that's different than neurodegeneration.
That's simply reductions in the amount of neuromodulators
like dopamine being deployed as we get older.
So modulating dopamine through healthy, ideally, means.
But I do think we are going to see an increase
in the use of selective pharmacology for this purpose.
And here I'm not recommending anyone
do drugs or take drugs, prescription or otherwise,
but it does seem that certain compounds like nicotine,
believe it or not, even though it increases
vasoconstriction and blood pressure,
can offset some of the age-related reductions
in dopaminergic and cholinergic transmission.
And you don't want to smoke, vape, dip or snuff.
I'm not even recommending people take Zin patches, but I think there is some use cases
for nicotine provided you're doing it with your physician knows and you're not getting
into dangerous blood pressure,
dangerous blood pressure range or supplementation
with choline donors and things of that sort
to increase acetylcholine and dopamine.
Some people are starting to take things like modafinil
and Adderall in older age.
Keep in mind these are not modafinil,
but Adderall, Vyvanse, et cetera.
These are amphetamines, they're amphetamines.
I'm not recommending this,
but I think that's where we're headed.
I think you're gonna see a number of different
cognitive enhancers that are used to offset
some age-related cognitive decline, AKA dementia.
Now in terms of, so we're going zone two cardio
to like prescription drugs, we're kind of bracketing here,
and then behavioral protocols that can increase
neuromodulators such as the catecholamines.
Now in terms of other things that can perhaps
decrease the likelihood of Alzheimer's
and other forms of dementia as it relates
to neurodegeneration, currently there are a lot of do nots.
Don't hit your head too hard.
If you hit it really hard, don't hit it again hard.
The so-called two hit model, literally.
You know, and we think of football or I guess rugby,
that's the sport you guys play down here
where they use the head as a battering ram.
I've seen this, right?
Big necks on those kids and then just boom.
And they, yeah, but the problem is not necessarily just rugby
or American football or, I was told that,
someone told me I had to shout out
an Australian football team and I know it's a setup.
So I'm not gonna do it.
They're like, when you're in Melbourne tomorrow,
you gotta say that your favorite team is blank
and I'm like, this feels really dangerous.
So I'm not gonna do dangerous so I'm not gonna
do it I'm not gonna do it but what's that do it I can't remember the name of
the team but I watched the document what's that but I still don't understand
the rugby thing they do they use the guy's head or gal's head as a battering ram?
Because they used to play at UCSD outside my lab.
We had this big field and my bulldog loved watching.
He was like, this sport makes sense.
But they were just like, run.
I never understood it.
But anyway.
What's that?
Got it. but anyway what's that got it I need a translator sorry I need a translator but I love the enthusiasm yeah so we think about head injuries and brain injuries
mostly in the context of sport but that's not where think about head injuries and brain injuries mostly in the context of sport,
but that's not where most of head injuries occur.
Most of them occur construction workers, car accidents, TBI, things of that sort.
There's some interesting data on hyperbaric chambers.
This is getting really into the high level stuff here, meaning most people don't have
access to them.
I look forward to learning more.
These are playing with different concentrations of oxygen in a little microenvironment for traumatic brain injury
and neurodegeneration.
I mean, do I think in five years
that everyone's gonna be sitting in hyperbaric chambers
in order to offset neuron loss?
Probably not, I think it's not cost effective.
But I will say that most of the things
that are good for the body are good for the brain,
keeping kind of anything that plaques the arteries, capillaries and veins of the brain
because it's so heavily vascularized, minimal, and minding those neuromodulators.
Obviously drugs of abuse like methamphetamine can deplete dopamine neurons.
The data on MDMA, by the way,
I don't know, there's drug enforcement in the room.
The data, you know where they have most of the safety data
or lack of safety data in some cases on MDMA?
Keep in mind, MDMA ecstasy is methylene-dioxymethamphetamine.
Methamphetamine, we know, causes neurodegeneration.
No question.
It also causes bad teeth.
Do you know how? Do you know how?
Turns people into mouth-breather. Dry mouth and the teeth degenerate.
Yeah, we have an episode on oral health coming out. This is real. That's actually
why the teeth degenerate. It's from excessive dry and it limits saliva
production. Saliva is very important for remineralization of the teeth.
Shout out to the dentist in the house. So the thing about MDMA is interesting
because it turns out that MDMA,
because it also increases dopamine
just as methamphetamine does,
remember MDMA, methylene-dioxymethamphetamine,
but also huge increases in serotonin
seem to be most of the effect of MDMA,
the kind of empathogenic effect.
There was a study done of people from the LDS,
Latter Day Saints, sometimes referred to as Mormons.
Why was a study on MDMA done with people
from the LDS community?
And I don't want to imply that everyone
from the LDS community does MDMA, but why?
They're a very interesting test population because they don't do other drugs.
But for some reason, MDMA is not on the no-fly list.
So it's a beautiful paper in which they took people who had only done as any drug, not
even taking caffeine, right?
Either once or semi-frequent or very frequent use of MDMA
and they did a bunch of cognitive testing.
And there were some attention issues
when people had taken over what was a couple hundred doses
of MDMA at the 80 milligram dose or more.
But doesn't seem to be much neurodegeneration,
which is not to say that it's all safe.
There is an abuse and addictive potential there.
The biggest issue seems to be contamination of batches.
We have a fentanyl issue in the US.
I don't know if it's happening down here as well.
Very concerning.
Okay, so the point here is that I think very soon
you're going to hear about drugs, prescription drugs
and supplements to augment the release of neuromodulators,
not for sake of empathogenic states or psychedelic states,
but to try and keep those dopaminergic neurons online
to offset dementia,
because that's what the question's about.
In fact, there's a Nobel Prize-winning neuroscientist
at Columbia University, whose name I won't tell you,
or maybe I will, who, when I went to visit his office,
chewed no fewer than five pieces of Nicorette
in the course of a half an hour.
And I'm like, what's going on?
He's got a Nobel Prize, but this looks kind of pathologic.
And I said, why?
And he said, well, the nicotine is to offset
age-related loss of dopaminergic and cholinergic neurons.
I thought, really?
He's like, yeah, I quit smoking
because I didn't want lung cancer, but this is him.
This is the ANIC data.
I'm not suggesting you do this.
I think there are a number of things that we can do,
but protect those neuromodulators, keep perfusion,
that is blood flow to the brain, strong.
There's a case for cardiovascular exercise,
and it does seem, it really does seem,
that exercise that engages the neuromuscular connections
more than cardiovascular exercise,
so not just resistance training,
but anything that involves coordinated bodily training,
learning new physical skills, dance, et cetera,
really does
seem to offset some of the loss of cognitive functioning in adults. So it's
kind of interesting that physical exercise is great for cognition and
probably cognition may or may not help physical ability, but one probably can
imagine why there's a bi-directional relationship there. Your nervous system
doesn't really distinguish between physical and cognitive.
It's all working as a bunch of functional units.
I could go on and on about this, but hopefully that at least gets your gears turning around
some things that perhaps you've heard about and some things that you haven't.
And we'll do an episode on dementia and offsetting dementia in order to get into some of the
fine details.
Okay.
Can we increase our willpower,
just like training a muscle group,
with your research into the AMCC?
Ooh, I'm so glad that you mentioned the AMCC.
I think of all the new areas of neuroscience research
that are out there, I think the anterior
mid-singulate cortex is one of the most interesting
structures and areas of research nowadays.
You know, I think if I have my way, then not only will most people have heard of dopamine and the
amygdala, I guess you need a Star Wars character named after your brain part. Isn't there one?
Right. I only saw the first three. I'm of that generation. But isn't there an Amy Dala or
something? Yeah. Right. Don't leave me hanging here. Is there or not? If I'm of that generation. But isn't there an Amy Dalla or something? Yeah, right?
Don't leave me hanging here, is there or not?
If I'm wrong, just say no.
Okay, anyway, the amygdala, thanks.
The amygdala is a brain structure that is involved
in threat detection and novelty detection, not just threats.
The anterior mid-singulate cortex is an area of the
brain that we know is activated. Well, let me tell you the best experiment. The best
experiment was done, in my opinion, by a neurosurgeon at Stanford, Joe Parvizzi.
He's probing around in people's brains. They got a little piece of skull missing.
He's stimulating in the brain. He's asking them questions. How do you feel?
What's going on? How do you feel? What's going on? And he's got this electrode in the
anterior mid-singulate cortex and the patient says, I feel like something really
bad's gonna happen. Like a storm is coming. It's like, okay, well we can stop
stimulating. He's like, no, I'm going into the storm. That's interesting, well, that's interesting. Stimulate a little bit further back,
just by a millimeter or so, completely
different subjective experience for the patient.
That's interesting.
Get a different patient in there, map to the anterior mid-singulate
cortex, stimulate.
And the person says, I feel like I'm
going to get out of my chair, and I'm
going to do something hard.
Wild, right?
This is prior to any knowledge
of what the anterior mid-singulate cortex is doing.
Make a long story short,
people who successfully overcome a physical challenge,
a cognitive challenge, that learn a new skill,
that successful dieters, I don't really like that term,
their anterior mid-signal cortex grows
or becomes more active under conditions
that challenge the anterior mid-signal cortex.
So this brain region seems to be the brain region that
puts us in a forward center of mass,
physically and sort of cognitively and emotionally.
I often like to think that the nervous system,
as sophisticated as it is in psychology,
as sophisticated as it is, excuse psychology as sophisticated as it is,
as it is, excuse me,
can be binned into kind of three categories.
Things that we like to eat or don't like to eat,
or can kind of be binned into yum, yuck, or meh.
That's kind of what the nervous system has to do
because ultimately you have to decide,
do I want to go toward it, so-called repetitive behavior,
do I want to get away from it-called the repetitive behavior do I want to get away from it well I only do nothing people were
either like yum or some cases yum yuck or in some cases like or like meh
right yum-yuk-meh yum-yuk-meh this is the the sort of three tributaries that we
have the option of
moving down, not moving down, or moving away from. So the anterior midsingulate
cortex, because it has inputs from so many different areas and outputs to so
many different areas, it can access circuits related to dopamine, norepinephrine,
it can access it circuits related to memory and context. It's a hub, it's a hub that by all views,
through all lenses of the existing research,
suggests that when we, any time we do something
truly challenging, in particular things
that we do not enjoy, this is key,
the anterior midsingulate cortex
undergoes some sort of plasticity.
Everything in the research data now points to the idea that the intermidsingulate cortex
is the seat of so-called willpower, which is linked to concepts like tenacity or grit
and et cetera.
And what I love about this research is that it comes from a bunch of different areas,
human brain imaging, brain stimulation, et cetera.
Here's what I don't like about the reality,
but that we all need to accept,
which is that the intermidsingulate cortex
is modifiable by experience, by leaning into challenges
at any stage of life.
That's great, we talked about that earlier.
Plasticity, but lest we forget.
Plasticity goes in the other direction too.
It seems that when we don't engage in challenges
that the anterior mid-singulate cortex
it doesn't atrophy but it undergoes sort of a downshift
in activation. Now here's what's really really interesting and relates to the
previous question.
The anterior mid-idsingulate cortex seems to be
especially active at baseline
and available for plasticity
in what are called superagers.
Superagers, we've all heard of blue zones.
The superagers are these people
who they don't just exist in blue zones.
They're spread around the world.
These are people that seem seem at least by cognitive measures and other
physiological measures of the body seem to age extremely slowly. So they shouldn't
really be called superagers, right? They should be called super non-agers. Anyway,
the anterior mid-singulate cortex seems to be hyperactive in these superagers, as they're called.
And so it seems that not only do they maintain cognitive function later in life,
but that seems to be related to their regular engagement in challenging things.
So remember for so many years we heard, okay, like, nuns don't get dementia,
and then there's all sorts of things you can imagine could be related to that.
And then we're thinking, oh oh maybe it's crossword puzzles it was
crossword puzzles maybe it's hanging out with other people and you know and then
you know that person down the street and she's cycling on the weekends like crazy
and she's 90 and she looks like she's 50 and she's sharp as a tack it's probably
leaning into challenge on a regular basis leaning into challenge on a
regular basis as opposed to into challenge on a regular basis
as opposed to one specific cognitive or physical thing,
which means that if you love cycling,
or you love the cold plunge,
or you love a certain form of exercise,
it's probably not doing that much
for your anterior mid-singlet cortex.
But these super-agers also live longer.
And so there is this notion
that because the anterior mid-singlet cortex
has connectivity to a lot of areas of the brain and body that it is somehow linked
to the will to live. And this is being examined now in so-called terminal cancer
patients, so-called you know terminal cases. I don't like the language because
there are these amazing instances and physicians and oncologists have known this for a long time, that when people decide they're going to fight
cancer, they don't always win that fight, unfortunately.
But oftentimes, it's the people who insist on fighting it psychologically that they won't
give in, that end up still living more months, more years, and in some cases,
putting the cancer into remission,
with of course, other tools, right?
I'm not saying you shouldn't use other tools
to combat cancer.
So very interesting structure relates to the question
on dementia, hopefully that was informative.
Julian, thank you.
How would you recommend shift workers minimize
the effects of disruption to their circadian rhythm?
Oh, this is so important, you know why? Because, like right now, 920, 940 p.m.
We're kind of doing shift work right now.
Most people are on a shift work schedule now in the world. This is true.
We think of shift workers as only the people who are up in the middle of the night and sleeping during the day,
but most people are doing shift work.
The criteria for shift work is at least a two hour
variant, at least in the US, a two hour variance in the sleep-wake cycle more
than three nights a week. Anyone here go to sleep every night same time, wake up
every morning the same time, never stay up later than that, more than two nights a
week? Okay, most people are doing shift work nowadays they're just on their phone
or they're on their computer. And I'm not going to argue that's necessary, you know, you shouldn't.
Many times that's me as well. So here's what we do know, and I could, we did a
whole episode on shift work, but I'll try and summarize some of the key points.
You want to have your cortisol elevated early in the day and then subside across
the day. That's the ideal pattern of cortisol release. Cortisol is a great thing when it's high
and then tapers off from early day into the later day. It's a bad thing if that
cortisol peak is shifted late. That cortisol peak is coming every 24 hours.
You don't have a choice. Question is, is it gonna be early day or is it gonna be
late day? Late day cortisol peaks are associated with depression and anxiety.
This was done by my colleague David Spiegel
and the great Robert Sapolsky at Stanford.
I study about that.
Robert, another great beard.
Amazing.
I always thought it was to blend in
with the species that he studies
because he was like the baboon guy.
You know, I haven't quite figured out how to master that one, you know, like the cuttlefish look, but
working on it, working on it. Maybe I just have to sit down. Never mind. There's a story about
you heard, remember the earlier story? The cuttlefish man? Anyway, never mind.
Again, this is why I don't like to speak too late in the day.
I can get myself into trouble.
But the point here is that having that cortisol peak
early in the day sets you up for mood focus and alertness,
immune system function in a really great way.
Shift workers have a serious problem,
which is that late peaks
in cortisol are kind of paramount in all forms of shift work. And so what you need to do
is to put yourself ideally in lighting conditions that limit the amount of blue light coming
in at night or when you're doing that shift work. Now, you have to do your work. And I
think in the next two years, if I have my way one one idea that
I'd like to embed in people's minds is you know we hear a lot now about how
hyper-processed foods and highly processed foods are bad for us sort of
empty calories what are empty calories it's foods that are very calorie dense
but micronutrient poor right that's what it really is it's also the quality of
food issues and people get up you know like let's please not have the seed oil
debate it's like people get really into this and it's unclear to me still and okay
but
We sort of think of empty calories like alcohol sugar, etc
calorie dense
micronutrient poor light
Can be viewed in much the same way these days. We live in a very blue light rich world
Lot of blue light so short a very blue light rich world.
Lot of blue light, so short wavelength light,
blue light, UV light.
And by the way, in sunlight, especially down here,
very UV rich, blue, which is great during the day,
especially when it's offset, or sorry,
when it includes long wavelength light, full spectrum light.
By the way, for everyone that's obsessed with red light,
and I love red light, and red light therapies, remember, that's obsessed with red light, and I love red light and red light therapies,
remember, the best source of red light is the sun.
It's full spectrum light. It includes red.
It's just there's a bunch of other stuff in there too, so it doesn't look like a red light panel.
That said, if you are going to do shift work, one of the best things you can do that's been shown to reduce cortisol
levels at night while you're doing that shift work is to filter out some of the blue. So
that is a use case for blue blockers or even for glasses that put you into more
reddish conditions provided you can still do the work you need to do safely.
You will see a dramatic reduction in cortisol under those conditions. This blue and UV
pathway picked up by a certain set of neurons in the eye, the intrinsic
photosensitive melanopsin cells, etc. is a real thing and it's designed to
activate you. This is why so-called seasonal affective disorder lamps,
SAD lamps, are basically bright blue-white-ish light. So when you're doing that shift work,
if you can get into red or orange or amber light conditions,
if that's great, you can do this very inexpensively,
by the way, by just getting some party lights.
It doesn't have to be any fancy red light.
This is not talking about red light panels.
The other thing, of course, is when you get back
to your non-work environment, you need to do some work to think about when is best to sleep, when is not back to your non-work environment,
you need to do some work to think about
when is best to sleep, when is not best to sleep.
You know, is it best to sleep all day and be up all night
or get that sunlight in the morning?
And I talk about that in the shift work episode
and I'm tempted to go down that rabbit hole now,
but I would just encourage you to take a look
at that episode and I'll just cue you all to a resource.
The hubermanlab.com website allows you,
thanks to our wonderful engineers,
to put in multiple topics.
So you could say shift work red light,
or shift work dopamine, or shift work sunlight,
and it will take you to the exact time stamps
across all the episodes where those specific topics occur.
It's all zero cost.
As opposed to having to go and peruse
all these different episodes.
A lot of people have said, why not shorter episodes?
It's like, well, the idea was to create a library
of information that now AI and better engineering
of websites can allow you to just pull
the relevant information just like you would a book.
Well, I used to go to the library,
for those of you like me old enough to remember,
you actually took this thing called a book off a shelf,
you Xerox copied it.
In any event, it was very archaic and very expensive
and you'd always get the margin of the book in the middle,
like the spine, it sucked.
Now you can go to the website and just get that information
and then we also just launched an AI.hubermanlab.com website
and it's all zero cost.
You can just say, hey, what should I do for shift work?
But I wanted to come here tonight,
so I didn't tell you that until you got here.
No, I'm just kidding.
I'm just kidding.
OK.
And there are a few other tools about adjusting eating
schedules and whatnot for shift work,
but hopefully that gets you going, Julia.
Thank you.
What's the difference between NSDR and meditation?
Thank you for this question.
I am a huge, huge, huge believer and proponent
and practitioner of NSDR, non-sleep deep rest.
What is non-sleep deep rest?
Well, to be fair, yoga nidra, which translates to yoga sleep,
is a thousand year old practice, thousands
of years old practice in which you lie completely still, keep the mind awake.
You're not thinking in a structured way, it's more of a body scan, directed relaxation,
etc.
I discovered this in 2015 when I was doing some research for a book that I still can't
manage to seem to finish on trauma and addiction.
And I went, I have a friend, very talented trauma therapist
who's managed to help people with all sorts of addictions.
He'll be on the podcast in the not too distant future.
And I went down to this clinic in Florida
and everyone there spent the first hour of the day
doing yoga nidra.
This is pretty wacky.
I was still in my pure scientist,
quote unquote pure scientist, naive scientist lens,
and I thought, what is this about?
And he said, well, you know, so much of addiction
is about an inability to regulate impulses,
to deal with agitation, especially in the early days
of trying to get sober or being sober,
and it just helps people learn to self-direct
their nervous system in terms of relaxed of self-directed relaxation.
It also seems to help with their sleep.
It also has these components about time and sort of,
because he said, you know, it's kind of interesting.
If you take a step back, you know,
if you can tolerate craving for a second, you just did it.
So why couldn't you do it for another second?
If I can do it for another second, another second.
It's not as if it necessarily increases linearly over time.
So what's going on?
And so again, our ability to realize and regulate our states
across time and to realize there's this funny thing
where when we feel terrible,
we think it's gonna go on forever,
and when we're happy, we're like certain it's gonna stop.
There's like kind of asymmetry in our nervous system
that we don't understand.
We showed, he started talking about,
yoga nidra really seems to help addicts recover
and stay sober if they do it regularly.
I thought, well, this is cool.
What is it?
I'm a neuroscientist, we started studying it in my laboratory.
We discovered that the brain goes into these states
during yoga nidra that are similar to sleep.
Body still, mind alert.
And that seems to be very beneficial,
maybe even accelerates neuroplasticity and learning,
and indeed there's evidence for that,
and there's evidence that yoga nidra
from a laboratory out of Scandinavia,
not my laboratory showing that it can increase dopamine
levels in the striatum,
basal ganglia, by up to 60% using human positron emission tomography imaging. So
we're talking about how to increase dopamine through non-pharmacologic
means. This is something about body still brain active, very very powerful way to
do that. I made up this term, this acronym non-sleep deep rest, because I
have tremendous respect for
Yoganidra and the yoga traditions, but I was concerned. For a lot of people, unfortunately,
when they hear Yoganidra, it sounds esoteric and they're not going to approach that practice. Also,
Yoganidra includes intentions and some things that are a little bit on the mystical side.
I knew I was going to take some heat for it.
And I feel badly about it.
But that bad feeling is offset by,
I think when you call something non-sleep deep rest,
it tells you what it is.
And then more people are likely to come to the practice.
And I felt like it was worth kind of putting myself
jumping on the grenade for that one.
So non-sleep deep rest is very effective
at restoring cognitive and physical vigor
and can indeed offset some degree of sleep loss.
It also gets you better at falling and staying asleep
and it's very simple and very easy to do
and at zero cost and if you wanna try it,
you can go onto YouTube and put NSDR in my last name.
There's a woman named Kelly Boyes, B-O-Y-S, who has a much more pleasant voice than mine, who does them as well. These
are all zero cost protocols. She's also in the Waking Up app. And there are many of them.
Kamini Desai is another person who has wonderful Yoganidra scripts. So you can find these things,
and they're really about 10 minutes to 20 minutes, sometimes 30 minutes long.
You can do it for an hour, but most people won't do that consistently.
You don't have to do them every day and they're very, very effective at restoring mental and physical vigor
when you're feeling depleted and getting you to be a better sleeper.
So I figure that's a zero-cost tool that is grounded in good mechanistic science and makes sense logically. So why not?
meditation
typically and if and there are many different forms of meditation, but if you're let's just say kind of
Standard if there were such a thing
third eye meditation closing your eyes focusing your
Concentration on a point just sort of at your forehead concentrating our breathing your breathing, redirecting your attention to your breathing if your attention drifts.
We know based on work from Wendy Suzuki's laboratory at New York University and some work
out of the University of Wisconsin can improve memory, can improve focus,
and does seem to have some stress offsetting effects, but it's more of a focus exercise
as opposed to an energy replenishing exercise.
Now some people meditate and feel better afterwards,
they have more energy,
but then it's sort of like, well, compared to what?
I don't think that's the major effect of meditation.
And while we're on these topics,
I should just say that self-directed hypnosis
of the sort that my colleague David Spiegel studies is more about solving a particular problem.
So hypnosis is more about engaging neuroplasticity. Remember earlier we said
that neuroplasticity in adulthood can be activated by focus followed by rest. It
seems that in the self-directed hypnotic states the brain enters kind of pattern
of activity in which neuroplasticity can be accessed
more quickly, we think, because the brain is both focused and relaxed, in a particular
way merging that focus and rest state.
And of course, the hypnotic script is not about getting you to do crazy things on stage,
that's stage hypnosis, but self-directed hypnosis is, for instance, smoking cessation.
By the way, the success with smoking cessation
from hypnosis is far greater than the cessation
with smoking from pretty much any other protocol.
But unfortunately, it has the name hypnosis,
which makes people think about stuff that people do
on stage that's kind of wacky.
So we need a new name for it.
Because unfortunately, names are a problem.
Their names can be differentiators as opposed
to integrators. They don't bring people. When people say I'm going to hypnotize you or you
should try hypnosis, people are like, eh, like yum, yuck, man, they're like yuck. So
by the way, does everyone here remember how you know if you're highly hypnotizable? Do
you know that the Spiegel eye roll test? it's not what teenagers do, David Spiegel
and his father, psychiatrist, discovered the clinical application of hypnosis.
It's a clinically approved tool.
There's brainstem neurons that cause elevations and alertness and focus, and they're associated
with moving the eyes up.
They're brainstem neurons that close the eyelids and push and essentially drive the eyes down that are associated with
parasympathetic states. Which is why you go like this when you're tired, you're out
there I'm sure. If you are capable of keeping your eyes, your gaze upward and
closing your eyelids, you score on a particular end of the so-called Spiegel
eye roll test which makes you highly hypnotizable because that state of hypnosis is one in which you're what
alert but very very relaxed. So if you go to Spiegel's laboratory they're gonna
look at you and they say look up at the ceiling and then close your eyelids and
if you can still see the whites of the if they still see the whites of your
eyes as your eyelids close well then you're in the highly hypnotizable realm.
Kind of interesting right there's all nervous system related and you can
see this stuff is this is like real clinical tools. Okay how do we stop
ourselves from mindlessly scrolling on our phones? Hard questions. I didn't look
at my watch because I'm bored I'm just thinking how much time do you have? Well, on the way here to Australia,
Rob, who you met earlier, my friend and podcast producer,
he said, okay, guys,
everyone's deleting social media from your phones
for the whole trip, the whole trip.
And I'm like, I don't know if I can go on this trip,
Rob, no, I'm kidding.
We have one guy who's kept it on his phone
so that we can post things.
And we continue to.
Honestly, I think that's what it takes.
If it's social media that you're scrolling,
I think you should do a delete and reinstall.
If I'm honest, a delete and reinstall every day.
Because I think, and then you have to limit
the amount of time.
And one of the members of my podcast team experienced this.
He said, I just picked up my phone a minute ago
and I went to like hit the Instagram tab
and it wasn't there and I know it's not there.
And that's where I say, yeah, at some point
it becomes more compulsive than addiction.
These are just reflexive behaviors.
It's like walking in the refrigerator.
I could do it every day of my life, all day.
I walk into people's homes and just look in the refrigerator.
I don't even know.
I get into people's cars, I look in the glove box.
I just do this.
I'm kinda like looking around.
I'm not gonna steal anything.
But it's like the teenage boy in me.
You know, I just kinda like walk in,
I'm gonna open your refrigerator.
So I think it gets to the point of reflexive, and it's compulsive, and it might be addictive,
but it can't be good when it's like that.
But I think social media can be really useful. So I think if you're, you can set timers,
you can try graying out the screen, getting rid of the color thing.
There's all this stuff, but I think if there are particular apps
that you're struggling with, I would just delete them from your phone
and do a reinstall, because that's enough of a behavioral barrier.
There are enough steps involved, enough sequencing
to put the thing back on there each day and each time,
maybe twice a day, that you're going to vastly
reduce your use.
To be honest, I think that's probably the best way to do it.
And there are probably people in this audience that are thinking, this seems crazy.
Like, just don't turn it on.
Just don't open it.
And look, if I was 65 years old, I'd say that too.
But it doesn't work that way for certainly the younger generation. It doesn't work that way for certainly the younger generation.
It doesn't.
I know this because I gave a talk
at Santa Clara University a few years ago
and I was talking about limiting social media use and phones
and this kid came up to me afterwards,
he said, you don't get it.
It's like, you're like, back then I was like 43.
He said, you don't get it.
He said, for you, the phone was a thing
that you like integrated into your like-90s high school life.
You watched The Breakfast Club,
or I don't know how we knew that movie.
I was like, you're right, I did watch The Breakfast Club
a bunch of times.
And he said, but for us, it's like life.
I rolled my eyes and I thought, wait, no, listen.
I'm gonna listen, because no one knows what it's like
to be 16 years old or 24 years old in 2024,
unless you're 16 or 24.
Like, okay, here we go.
Listen, he said, when my phone powers down,
I feel the energy drain out of me.
And when it comes back up,
I feel life energy come back into my body
and I thought oh my goodness like we are host but that's but that's the reality
and I'm of the mind you know I was a kid I was a camp counselor I worked with
at-risk kids I was a wild kid and you learn something especially when you work
with kids like me when I was a teenager I was was a hellion, is be a channel, not a dam. You
cannot block this system that's emerged. This is here and it's here to stay. So I
think things like deleting the app is putting it back on there is the only way
to go. We have to listen. I think we have to listen, understand that, you know, we
after all adults created these technologies and these kids are using
them and I don't think we're are using them, and I don't
think we're going to see a reversal.
I don't.
So we have to really, I think what he said to me, as scary as it was to me, I think reflects
the reality.
It's part of their life energy.
It's part of their connectivity, and we're going to have to come up with better tools.
And I doubt those tools are going to be to the effect of eliminating it.
You could say, unfortunately, you know, all the adult,
last I checked I'm an adult,
people in my life have argued differently,
but I think we're gonna have to learn to be a channel,
not a dam with this, I do.
If resources and ethics were not an issue,
what would your dream clinical trial to run?
Oh my goodness.
This is a hard question.
Okay, dream clinical trial.
What's that?
Oh gosh, the accent is killing me.
More cuttlefish, yeah, more cuttlefish. Like, cuttlefish?
I like the idea of more cuddling.
Physical contact, so key.
I think we're all still recovering from the years.
We had a few years of just like no physical contact,
so minimal.
I mean, there's the classic Harlow experiments, right?
The wire monkey versus the cloth monkey. I mean, prim the classic Harlow experiments right the wire monkey
versus the cloth monkey. I mean primates go to the cloth monkey even if they
don't get food there. I mean it's such a critical component of you know how our
nervous system forms. I think this is a this is a you know what I'm gonna do
something I've never done before. I'm gonna turn the question around. I
actually would I am seriously I'm not sure no I've never done before. I'm gonna turn the question around. I actually would, seriously,
I'm not trying to avoid answering this,
but we've worked on all sorts,
I've worked on cuttlefish,
we've worked on respiration practices,
we've worked on vision,
we've worked on neuro regeneration.
I've enjoyed working on a great number of different things.
I'm sort of curious what people,
what do you think we need more of?
I've never done this, but I really wanna know.
I don't know how we're gonna do this
in any kind of non-chaotic format, but what the hell?
It's late enough in the evening, we'll just do it.
Like, really, I mean, so now there's trials on psychedelics.
Maybe we do this by kind of, like,
I'll throw out some options and then we'll do it.
So right now it seems that psychedelics are a big thing.
Do they increase plasticity? Yeah, I'm excited about it. I'm a convert,
but I do think that one has to be careful and there are certain people in populations like people who
suffer from certain types of manic bipolar or schizophrenia that really need to avoid these things. Kids,
I mean being a kid is basically being in a psychedelic state.
You know lateral connectivity of the brain is extensive and you know I don't
encourage it. I mean the trials with MDMA and PTSD are incredible. What's
happening with MAPS is incredible. You know 60 plus percent remission rates
done with licensed physicians of course. I don't get cavalier with this. So okay
so I'll just ask, so I mean,
it's gonna be hard to draw out the dissenters, but more work on psychedelics, psilocybin, et cetera,
as ways to ameliorate depression,
are people like more like yum, yuck, or meh?
Is it like yum?
Okay, or like yuck?
Don't be afraid to say yuck.
I like a good argument.
Is anyone like yuck on psychedelics?
Sorcery, it's sorcery. I heard that. Meh. Okay. All right. Interesting. Okay. So
psychedelics get a strong push. I think we have enough evidence that changing
patterns of respiration changes brain states, but I think that that's an
interesting area. I don't know. Can you just shout it out? Just shout it out.
Okay, first over here, yes?
Oh God, the accent, you guys are so good. I love the accent.
Listen, I don't drink anymore,
but when I used to go to bars,
I'll just say the Australian accent never fails.
In the US, yeah?
Time chambers. Time chambers. in the US yeah time chambers time chambers
Oh hyperbaric chambers yeah hyperbaric that's an interesting one yeah I mean
when I think of ways to modify physiology you think temperature light
neuromodulators right you think but by the way, anytime you wanna think
about changing something in the body or brain,
you think mechanical and chemical.
So this is kind of, this is changing the chemistry
of the brain and body through hyperbaric chambers.
Thank you, appreciate it.
I think I reckon, did we run into each other
at the gym the other day?
No, anyway, I think I recognize you.
the other day? No, anyway, I think I recognize you. Okay, I'll get to you in one second. Yeah, yeah, I love that. Okay, so protocols for childhood trauma. Yeah, so I mean, I think we're finally at
the place where we as a world where like this word trauma actually is meaningful, like because we knew
it before,
but I think before people thought
if you hadn't lived in a war zone,
which obviously is trauma,
now I think people appreciate that trauma
is inherent to a lot of life.
By the way, I love your shirt, I own that shirt.
It's like, yeah, it's a Lonsdale shirt,
it's against racism, hey, I love that shirt.
You know the history of that shirt, right?
It's like Lonsdale was co-opted by some neo-nazi groups as a brand so Lonsdale
came out with an against racism and hate shirt which is like the best like to
that which is yeah so anyway a little side note there not sponsored by Lonsdale
but rad shirt. Yeah I think childhood trauma you know trauma can be best
defined as an adverse event
that changes the nervous system in a way that causes maladaptive functioning going forward.
It's not every bad thing, right, but it certainly happens and I think we need to learn to rewire
the nervous system.
Let's face it, whether or not psychedelics or it's talk therapy or it's hyperbaric chambers
or it's cold plunges, what we're talking about is neuroplasticity, we're trying to rewire
the nervous system, so I love that one.
We need some very structured tools.
There's all sorts of stuff about SOAS release for trauma,
and there's little bits, like little silos of things
that are all very interesting, breath work, release work,
but so far there isn't a structured framework
for treating trauma, different groups doing different things, EMDR, etc. I think they all have
merit. Okay, there was that shouting out consciousness. The big C. Yeah, in my
house Costello was the big C. He would always remind me of that, but consciousness.
I think that, and now with AI, we have to ask ourselves, like, what is consciousness?
And I think we need a clear definition of what that is.
Do you guys know the story of, like,
they were gonna solve consciousness a few years ago,
and they didn't do it?
There was this bet in neuroscience
that it was gonna be solved by 2015 or something like that.
So I think we need, and it's not, obviously,
so we need better definition of what that means,
but I think it's a very important problem indeed.
So thank you.
Maybe a...
Free will, yeah that's a tough one,
that's one I usually avoid.
Robert slammed me on that one on the podcast.
What was it in the back?
I heard as an adaptive technique, but.
Oh, yeah.
You know, we hear, yeah, we hear so much,
I'm agreeing with you.
We hear so much about ADHD these days
without an understanding of like what it really reflects,
except in the extreme clinical cases.
So I think a better understanding.
I did two episodes of the podcast by the way on
Attention in ADHD, one focused mainly on behavioral and nutritional tools.
It was positively received by about half of people and then the other half were like, this is
garbage, what about all the drugs that are useful? Then I did one about all the drugs that can be useful and people said,
this is garbage, you're putting kids on meth and I'm like, wait a second, hold on,
we try and cover it all.
So because I favor balance, I heard excellent things.
There was, we're all male voices,
we kind of got a sampling bias here,
unless I've got a high frequency cutoff.
Thank you.
Something negotiation, sorry.
Science of negotiation.
Yeah, so people being able to resolve differences better.
Lord, please, yes.
Oh my goodness.
I mean, this is, yes, thank you.
If ever there was a call to action, it's like,
you know, this is a big question, right?
I'm a neuroscientist, not a historian,
not a futurist or a politician, but thank goodness.
Imagine what a terrible job I would do.
I like being outdoors, I hate meetings.
I like dressing like this, and I don't like the news.
It'd be the worst.
But yeah, if ever there was a need and a question,
are we just gonna continue in these iterative cycles
of when the economy is good, things seem mostly good,
and then a lot of people are still suffering,
and then these cycles of,
or are we going to finally just sit back and go okay what are we good at as a species what are we really bad at what are we like kind of good at and
start coming up with some tools to try and function better on the whole with
the understanding that there are bad actors out there that are constantly
trying to you know exploit and manipulate but there are also a lot of good actors too.
And by good actors, I don't mean actors
in the stage acting sense.
I mean, I think that, look, we're a smart species.
We can think in past, present, and future terms.
We can look at mechanism.
We can communicate better with each other
better than any species, except maybe the cuttlefish.
And so I think the question is are we you know is there going to be
some sort of sitting back and finally just saying like enough like let's just
figure out a way to dialogue and I love that you know it's a it's a science we
that there are problems and there are hard problems.
And honestly, I think it's going to come about, if it comes about, it's going to come
about through groups, not through individuals.
I don't think we're going to get the world leader or world leaders of 12 people like,
let's get it done.
Let's get it done right this time.
I think it's going to be a more collective consciousness.
I'd like to see fewer individual leaders
and more groups and panels leading things.
But anyway, that's my bias.
Genetics?
Genetics?
Genetics. Love it. Yeah. Okay, well, there's, okay, I'll say two things and then I think my team's gonna make me close out.
Wait.
Rad.
Okay, awesome.
Now it's turning into like a science punk rock show. So the genetics,
well I think the big thing is in genetics, we're soon going to be in the place where
we can do genetic, right now you can take human embryos and screen them for mutations
by whole genome sequencing. It's very inexpensive compared to a few years ago.
It's still expensive.
And you can do selection.
You can select out based on lack of mutations, maybe even based on over-representation of
certain genes.
That's interesting.
It has some ethical considerations.
But soon will be, you can do CRISPR.
You could, in theory, you could modify the genome of adults and certainly babies.
And so that's where we're headed.
It's already being done in certain countries.
It was done in China.
It was not looked upon kindly
by the international ethics committees,
but it was done, a mutation in the HIV receptor. So those
babies exist. So it's happening. It's gonna be interesting times. The microbiome,
I think, is really exciting. Here's my big call to action is that there's a
microbiome in the gut, but there's also microbiome on the skin and the nose and
the mouth and the genitals like these all these little
niches and well I guess it depends a little or not so little niches depends. I was thinking about
the nostrils. The night's getting long. There I go again. They are all important and there's a lot
more to understand. I think the gut microbiome is just one of the microbiomes.
And female hormones, certainly important topic.
It's received far less, sadly, far less attention than male hormone therapy or understanding.
Things are starting to change there.
It's been slow.
Yeah.
Yeah, it's been, can you believe it?
It was like only like eight years ago that the National Institutes of Health in the
United States was like, hey, maybe you should start studying female mice too.
It's like, like this, I mean, we're, modern science is very far behind. We're very
far behind, and I think it's a, it's a resource issue. It's also, you know, it's,
there's a bunch of sociological considerations in science.
Anyway, I'm trying to change the story there,
but I'm but one person, and you know,
I hope to live a very long time, but you know,
should I get hit by a bullet, a bus, or cancer tomorrow,
I want you to know that it's gonna be,
or like long time from now, natural causes.
Sorry, I have a morbid sense of humor.
I worked with the physicians.
They all talk like that.
I hope to live a very long time.
But it's a collective effort.
So I just want to, before we wrap, I want to say a couple of things we can get on with
the rest of the night.
First of all, it is a collective effort. You know, as I've mentioned several times this evening,
I look no differently on the massage therapy
versus chiropractic versus whole genome sequencing.
It's just all different lenses to look at the same sort of set of goals through.
And yes, there's a range of quality and rigor and communication styles and personalities,
but if you can maintain some level of curiosity
and discernment about what works for you
or doesn't work for you or where you think there's merit,
that's great.
But it's gonna be a wonderful thing
when we can all start to dialogue
and see where the points of convergence are,
where you're basically talking about two different groups
talking about the exact same thing
through a different language.
I think that's where things really can move forward.
The discourse of public science and health communication
obviously is something I'm very passionate about.
I would love to see more podcasts, believe it or not,
not just my podcast, but there are more podcasts.
If you have something to say to the world, please say it.
Please put it out there on social media.
I do think that there's value there, so I'm encouraging the every
person, not just usually they go the young people, but like the every people
to you know get information out there and and to support the efforts. And I
also want to say thank you so much for coming out on a Saturday night here in
Melbourne and for listening to the podcast and for yeah it
really means a lot to me thank you
thank you
I really appreciate it that the podcast is indeed a labor of love. I feel oh so
blessed to do it and and my hope is that the tools protocols and information will
radiate out as far and wide as possible. I don't need or want credit I just want
people to have the information I really mean that and to share it where you
think it can be useful to people. And last but certainly not least, thank you for your interest in science.