Huberman Lab - Dr. Matthew Hill: How Cannabis Impacts Health & the Potential Risks
Episode Date: July 8, 2024In this episode, my guest is Dr. Matthew Hill, Ph.D., a professor of cell biology and anatomy at the Hotchkiss Brain Institute at the University of Calgary and an expert on the biology of cannabis. We... discuss how cannabis affects the brain to produce its psychoactive effects (feeling “high”), including altered time perception, focus, memory, appetite, and stress. We discuss how THC vs. cannabidiol (CBD) affects the brain, the effects of different routes of cannabis administration (e.g., smoking, vaping, edibles), high-potency THC, and whether cannabis is addictive. We discuss if there is a link between cannabis use and the development of psychosis, anxiety, bipolar depression, or schizophrenia. We discuss whether CBD has clinical benefits in regulating stress, promoting sleep, and treating certain diseases. We also discuss if there are real and consistent differences in the biological effects of different cannabis strains, if cannabis impacts hormones, and the uses of cannabis for the management of pain, stress, Post-traumatic stress disorder (PTSD), anxiety, and nausea. Listeners of this episode will get an up-to-date understanding of what is currently known about how cannabis affects the brain and body, including both its potential benefits and risks. Access the full show notes for this episode at hubermanlab.com. Thank you to our sponsors AG1: https://drinkag1.com/huberman Eight Sleep: https://www.eightsleep.com/huberman LMNT: https://drinklmnt.com/huberman BetterHelp: https://betterhelp.com/huberman InsideTracker: https://insidetracker.com/huberman Timestamps 00:00:00 Dr. Matthew Hill 00:00:00 Sponsors: Eight Sleep, LMNT & BetterHelp 00:07:16 Cannabis, THC, Cannabidiol (CBD), Terpenes 00:12:08 Psychoactive Effects, Cannabis “High”; Time Perception 00:16:55 Cannabis & Brain, CB1 Receptor, Endocannabinoids 00:26:19 Endocannabinoids Types: Anandamide, 2-AG 00:33:46 “Munchies”, Cannabis & Appetite 00:42:17 Sponsor: AG1 00:44:06 THC & Anandamide, Pharmacology 00:52:37 THC & CB1 Receptors, Intoxication & Appetite 00:58:57 Cannabis & Focus, Memory 01:04:09 Routes of Administration, Concentration, Cannabis Research 01:15:12 Self-Regulation, Inhalation & THC, Tolerance; THC Concentrates 01:22:25 Sponsor: InsideTracker 01:23:36 Addiction & Cannabis, Cannabis Use Disorder 01:31:30 Cannabis Legalization & Use, Edibles & ER Visits 01:36:48 Oral Consumption, Edibles, Dosing & Time Course 01:41:12 Drug Testing & Cannabis, Exercise 01:46:04 Cannabis & Hormones, Gynecomastia, Sperm Quality 01:54:37 Cannabis & Pregnancy; Selling Recreational Cannabis 02:04:07 Vaping 02:07:05 Psychosis, Anxiety & Cannabis 02:17:17 Cannabis, Psychosis, Schizophrenia & Genetics 02:30:45 Cannabis Use & Schizophrenia, Manic Bipolar, THC Potency, Nicotine 02:40:37 Schizophrenia, Cannabis Legalization 02:45:06 Cannabis Strains, Indica, Sativa, Subjective Effects & Expectancy Bias 02:57:00 CBD, Pediatric Epilepsy, Adenosine 03:07:22 Entourage Effect; Placebo Effect, CBD & Doses 03:19:12 Cannabis Health Risks, Cardiovascular Risk, Schizophrenia 03:27:08 Cyclic Vomiting Syndrome & Hot Shower 03:31:30 Cannabis Benefits: Pain, Stress, Anxiety, Post-Traumatic Stress Disorder (PTSD) 03:40:18 Cannabis & Anxiety, Anandamide & Stress Response 03:45:55 Scientific Discussion, Clarification & Advancement 03:49:47 Zero-Cost Support, YouTube, Spotify & Apple Follow & Reviews, YouTube Feedback, Protocols Book, Social Media, Neural Network Newsletter 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.
My guest today is Dr. Matthew Hill.
Dr. Matthew Hill is a professor of cell biology and anatomy
at the University of Calgary.
His laboratory studies cannabis and its effects on stress,
its effects on feeding, and its effects
on the behavioral impacts of cannabis exposure
at different stages of development.
The origin of today's podcast episode is a bit unique.
So I'd like to share a little bit
of that background with you.
Previously, I did a solo episode
of the Huberman Lab podcast about cannabis,
the biology of cannabis,
some of its medical applications and uses,
as well as some of its potential harms.
That episode came out several years ago now
and remains a very popular episode.
It's had millions of views and millions of listens.
Several months ago, we posted a clip of that episode
to X, formerly known as Twitter.
And Dr. Matthew Hill responded to that clip on X
with criticism about the specific points
made within that clip.
Most notably, my discussion of the data
that cannabis use can in some individuals cause psychosis.
He also took issue with some of the specific points
I made in that clip related to potential differences
in the biology of the effects
of different strains of cannabis,
most notably indica versus sativa strains,
and a few other points as well.
Now, as somebody who's been in the field of science
for several decades now,
I'm very familiar with the fact that every field,
every single field within science has debates within it,
controversies, and sometimes outright battles.
And to me, that's part of what makes science interesting.
It's an evolving process.
It's something for which we should all be very curious
to try and understand what we know, what we don't know,
and try and get to the real answers.
So right off the bat on X, I invited Dr. Hill onto the podcast
and he accepted the invitation.
So today's episode is really a unique one
in that first of all, we cover an enormous amount of biology and clinical data
as it relates to cannabis.
Meaning today's discussion is not a debate.
It is really an up-to-date discussion
about how cannabis works.
So we talk about THC versus CBD.
We address the question of whether or not
indigas versus sativas have different biological
and subjective effects or not.
We of course talk about the potential correlation,
maybe even causation between cannabis use and psychosis.
I think you'll find that discussion very interesting.
And we talk about how cannabis relates to hunger,
to memory, to anxiety, and to the treatment of anxiety.
I'm certain that given the widespread use
of cannabis nowadays, that you'll find the discussion
to be both an informative
and potentially useful one that could help guide decisions
as to whether or not you or others should or should not
use or avoid cannabis,
as well as one that can simply inform
about this very interesting compound.
And of course, you'll learn a lot of neuroscience
and biology along the way.
Before we begin, I'd like to emphasize that this podcast is separate from my teaching research roles at Stanford.
It is however, part of my desire and effort
to bring zero cost to consumer information about science
and science related tools to the general public.
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I'd like to thank the sponsors of today's podcast.
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And now for my discussion with Dr. Matthew Hill.
Dr. Matt Hill, welcome.
Thanks for having me.
Delighted to have you here
because you're an expert in the biology of cannabis, a topic
that many, many people are curious about for a variety of reasons.
So just to kick things off, maybe we can get people up to speed on what cannabis is, a
little bit about how it works in the brain and body to produce the various effects that
it produces and how some of that comes to be.
Then we can dig into some of the nuance.
I have a lot of questions about different types, if you will, of cannabis, the relationship
to mental health, potentially to mental illness.
We're going to drill into all of that.
Just to kick things off, what is cannabis?
Cannabis is a plant that has been around for some time.
It's got a very rich history of use around the world for different cultures,
for both kind of medicinal and spiritual and recreational purposes over several centuries.
The plant has kind of become, I mean, in the West, it really wasn't a thing mainstream-wise
until about the 60s.
And then it became kind of introduced as like a drug of choice that a lot of people started using during the rise of the hippie era.
And I think that was a lot of the time that cannabis got popularized.
And then I'd say more recently cannabis has, into the 90s and on, has become kind of a very heavily used drug by a large swath of people ranging from teenagers on up. In terms of what it is inside it, I mean, it's a plant with a lot of very complex chemistry
and biology behind it, so there's a lot of molecules that it carries in it.
We call these cannabinoids, and they come in a lot of different flavors, but the main
one that's the most important one when we talk about cannabis and what drives the kind
of intoxicating and what I would refer to as psychoactive effects of cannabis is delta-9-tetrahydrocannabinol,
or what we call THC.
And that really is what dictates the psychoactive and intoxicating properties of the plant.
And so the amount of THC that is within the cannabis plant will influence how high a person
is going to get when they consume it. There are probably 70 to 100 and some odd other cannabinoids
that are within cannabis.
Most of them are pretty trace levels,
and they vary from different types
to cannabis from one another.
But the other one that's had a lot of attention
is cannabidiol, or what we call CBD.
CBD structurally looks pretty similar to THC,
but doesn't behave anything like THC.
It's not intoxicating at all.
I'm not sure.
I would probably say it's not psychoactive in the sense that people can't tell if they're
on it or not.
But I would, some people still say it's psychoactive because people claim it can affect anxiety
state or mood state or other things.
So in that context, maybe psychoactive is still somewhat appropriate of a word to use.
And then there's a whole bunch of other things like cannabinol, cannabigerol, and these other
minor cannabinoids, most of which we really don't understand any of the biology of.
We don't know what they're doing.
They may influence some of the effects of THC.
They may not.
But they're there, and they vary in their composition from different
flavor of different cannabis to different flavor.
And then there's those other things called terpenes, which are kind of highly volatile
compounds, but they're not specific to cannabis, they're found in tons of other plants.
So this is a lot of which seems to contribute at least to some of the smell and the flavors
of cannabis.
So these are things like limonene, which gives some cannabis kind of a citrusy odor
or flavor to it. Pinene, which gives things more of like an earthy tree kind of smell.
Beta-karyophylline, mercine, and these terpenes are also, some of which do have known biological
activity, some don't, and they vary quite heavily across different kinds of cannabis as well. And
again, there's some thought that they may be influencing some of the psychoactive
or intoxicating properties of cannabis, but the reality is we really don't know a lot
about them at this point.
There's kind of some emerging work that's starting to come out now that kind of plays
with giving someone THC and adding in one other terpene or one other minor cannabinoid
and seeing how it influences things.
So you can imagine with the plethora of molecules that exist in cannabis, doing this in a piecewise
manner could take decades to kind of really get to a point where we understand all the
interactive components of cannabis.
But people tend to refer to this as like an entourage effect.
That's kind of a phrase that gets used quite widely in the cannabis world. And the idea behind that is that if you took pure
THC, and so there are some like distillate pens and things that exist out there now in
the product market, which are basically isolated THC with trace levels of anything of other
stuff would be very different than if you had THC in combination with some of these
other molecules and how they might influence how THC itself is working or not.
Fascinating plant.
You mentioned the psychoactive effects.
Some people listening to this and watching this presumably have experienced those psychoactive
effects.
Others perhaps have not.
How could we describe for both groups what the quote-unquote psychoactive effects are?
You mentioned the higher the concentration of THC, the quote-unquote higher someone will
get, right?
The greater the intensity of the high.
What is the high?
I know people are probably chuckling, saying, does Heberman not know because he's never done it?
I mean, that's my own business.
I just want people to understand what you mean
by psychoactive effects.
So, I mean, the way that people would usually describe
the intoxicating effects of cannabis is,
they would, I mean, people often refer to it
as there being some euphoria or some positive mood,
not on the same order as what people would describe
with say cocaine or some other stimulants,
but there certainly is some kind of positive aspect.
I mean, if there wasn't, people wouldn't be using it if they didn't feel positive about
it afterwards.
There can be, you know, other aspects in terms of changes in feeding behavior.
People might find things funnier than they found things.
It might change the way they perceive various environmental stimuli.
But it can also, for some people, create a bit of a dissociative state to some degree where people might feel a little bit out of body.
So it's kind of a complicated intoxicating state to describe, I would say,
because usually if someone's referring to somebody as stimulant, they're just like,
oh, people feel like they're God, they're like, you know, jacked up.
Possibility everywhere. Yeah, exactly. Like they're very happy and they're kind of, oh, people feel like they're God, they're like, you know, jacked up. Possibility everywhere.
Yeah, exactly.
Like they're very happy and they're kind of jacked up.
And I think with cannabis,
the way people would describe it would be very different.
It's like kind of an introspective state.
You might be more aware of your bodily feelings
and states that are going on inside of you,
your kind of internal state,
but you also have like a different perspective
on external stimuli.
You might process information a bit differently, focus on things a bit differently.
So it's kind of a complicated state to describe.
I would say usually when people are assessing if someone's intoxicated, like the kind of
lab work where people get someone high, they just kind of use what we call a visual analog
scale, which is like a 1 to 100 or something, or 0 to 100, and say, do you feel high?
Do you enjoy this?
Would you say you feel euphoric?
Is your mood elevated?
So they're kind of scaling things like that.
So I think that's more typically in a lab setting
how you would define if someone's high or not from it.
And this is why when people do studies with something
like a placebo cannabis or a very low THC cannabis,
you'll see kind of a scaling.
So even if you give someone a placebo cannabis, if they think that they're getting cannabis,
a lot of people still respond by saying they feel a bit high.
That's interesting.
Is that true even if they've never used cannabis before?
I'm not actually certain if you are allowed to have someone in a drug study if they've
never done something before.
I think they have to have had some previous experience with a drug to be enrolled. And they pay you, so now pot smokers everywhere
are running to look at subjects.
Yeah, but I think, yeah, I don't think
you can use drug-naive people.
I mean, I don't run human clinical lab studies,
so I can't explicitly say it, but that's my understanding,
is that someone has to have had even limited, like, you know,
not much, but at least once or twice.
They have to have experienced the drug before.
So I don't know if you would take someone who
was completely blind, because I don't know if you would take someone who was completely blind because I don't know how they would replicate that state
if they're not expecting it. What about the effects of cannabis on time perception?
You know, there's this reputation that cannabis has for disrupting time perception that people
will think a long period of time has passed when in fact very little time has passed.
Maybe it's sometimes even the reverse.
Is the mechanism by which cannabis can adjust time perception known?
I wouldn't say it's well worked out.
There definitely seems to be some like temporal dilation like you're saying where people think
things of, you know, someone will be high and someone will ask them, how long do you
think time has passed? They would report usually longer periods of time have
passed than actually have. I feel like there is some older work I could dig up to see if
I could find that is either in like, it might even be in pigeons, but it might be in rodents
that's looking at like temporal ordering and they give animals cannabinoids and that's
kind of a cleaner way of seeing because they are very good at learning. Like I wait 10 minutes and then I engage in a behavior I get a reward.
And so you can really train animals to have this ordinal timing where they kind of know
distinct periods of time.
And if they give them cannabinoids they respond differently.
So in that context it does still seem to produce some state where there's an altered perception
of time passing.
And so I think if we were gonna really understand
the mechanism of it, that would probably be the way to go,
but I'm not super familiar with the work,
because no one's, I mean,
anything I can think of is pretty old.
I can't think of anything modern
where people have actually looked at this.
Interesting.
You mentioned effects of cannabis on appetite,
and I know one of the medical uses of cannabis
is in people that are undergoing treatment
for cancer in order to stimulate appetite because oftentimes they have very low or even
no appetite due to the cancer treatment.
Is the mechanism by which cannabis can stimulate appetite known?
If so, what is the general trend of effect?
Makes people hungrier, obviously, but we hear again in kind of recreational terms
of people getting the munchies,
becoming exceedingly hungry.
Is that related to some cannabis induced effect
on say blood sugar like insulin or glucose regulation,
or is it happening at a different level?
I think we almost need to take a step back actually
to talk about how cannabis works in the brain
before we kind of go into that.
So THC as a molecule exerts almost all its effects
are acting at this one receptor for the most part
that's widely expressed through the brain
called the cannabinoid type one receptor.
CB1.
Yeah, CB1 is the shorthand for it.
And I think, you know, as people tend to create analogies
to describe what receptors are, for those of you don't know, most people use like a lock and key analogy,
that like a receptor would be a protein that sits on a cell and a molecule that binds to it,
like THC is the key that fits in that lock.
When it activates it, it triggers some biological process in the cell,
in this case a neuron that changes its activity in some capacity.
And so THC acts on these CB1 receptors, which are very widely expressed.
In fact, outside of like kind of ion channels that are expressed in the brain,
the CB1 is I think one of the most, if not the most widely expressed receptor in the brain.
It's everywhere. So it's really important.
And I think as kind of you had alluded to previously, it doesn't exist.
And you know, this didn't evolve in humans in the hopes
that one day humans would find cannabis.
This is just-
Although cannabis users everywhere
use that argument.
I know people love to leverage things.
If it's a plant, it's natural and safe.
And there's obviously issues we'll talk about with that.
But I mean, really, this is just biological redundancy.
Nature only has so many ways to create something.
And so there's going to be things that end up overlapping in the way that they function.
And so the receptor that's in the brain and throughout the body, the CB1, and there is
also a CB2 receptor, it's not really expressed in the brain.
It's in some of the immune cells in the brain and maybe some limited distribution in actual
brain cell neurons.
Where in the body is it expressed?
It's mostly immune cells.
So you'll see CB2 is mostly on like macrophages
or other kind of immune cells.
Cells that gobble up debris.
Yeah, and that basically, you know,
regulate inflammatory processes.
And so the main role of CB2 seems to be much more
about like regulating inflammation.
So that's kind of a separate role
that can certainly impact the brain in different ways.
But when we talk about the effects on the central nervous system and the brain and behavior,
we're talking almost entirely about CB1.
And so both the CB1 and CB2 receptors, like I said, don't exist because nature was like,
humans are going to find cannabis.
This will all work together now.
So there are molecules our body produces, which we call endocannabinoids.
And they are kind of funny little molecules because they don't really behave,
like certainly in the brain, they don't behave like a normal neurotransmitter. So, I mean, I assume
most people who listen to your podcast are relatively adept with the basic idea of how
neurons work. So you have neuron A, let's call it the presynaptic neuron because you have that gap
between the two cells where they communicate called the synapse. So neuron A releases a transmitter and it can be something that excites the neighboring
cell, neuron B, or it can inhibit it.
And so the way that we always kind of talk about neurotransmission in the brain is neuron
A releases a chemical that crosses the synapse, acts on neuron B, and it can either jack that
neuron's activity up or it can scale it down.
And that affects brain-wide patterns of activity.
And we call that anterograde because it moves from neuron A
to neuron B, which is kind of the general flow of things
and how we usually think about it.
So endocannabinoids are kind of this little bit
of an oddity in the sense that they could do the reverse.
And so endocannabinoids are actually
made in neuron B on the postsynaptic side, and then they go backwards
and act on neuron A to regulate
how much transmitter is released.
And so in many ways, this is like,
I kind of liken it to a thermostat model for the most part.
Certainly if we're talking about something like excitability.
So if neuron A is dumping out something
that excites neuron B, like glutamate,
which is an excitatory neurotransmitter, As neuron B gets too excited it's gonna start releasing
endocannabinoids to go back and tell neuron A to stop driving it. So sort of a
homeostatic scale and trying to maintain a middle range. Yeah I mean at the end of
the day no matter how you discuss it and what system you discuss it I think the
majority of people in the cannabinoid field would agree that the primary
physiological role of endocannabinoid field would agree that the primary physiological
role of endocannabinoids is to maintain homeostasis.
That's what they do.
They keep everything in its happy place, let's say.
That's probably why the CB1 receptor is so widely distributed is that neurons can excite
or inhibit each other.
That is, raise or reduce the amount of electrical activity in the, let's say, nearby neuron
because we were talking about retrograde signaling, but ultimately you don't want runaway excitation because
that looks like epilepsy.
Exactly.
And you don't want runaway inhibition because that looks like suppression of ability to
think, move, et cetera.
Exactly.
Okay.
So you want to keep things in where they should be.
And so you want neurons to get excited, but you don't want them to get overexcited.
So endocannabinoids in kind of a very prototypical sense act as this circuit breaker, essentially,
where they go back and gate how much is coming in.
And they do this through various mechanisms, essentially turning off the electrical activity
of that presynaptic neuron so that it stops releasing neurotransmitter.
They can also regulate, though, inhibitory neurotransmitter release as well.
And this is usually done through a little bit more of a complex process where it's driven
by excitation, but then it regulates the inhibitory pathway.
So inhibiting the inhibitor leads to more excitation.
Exactly.
I usually liken it to basically taking the brakes off of a car while you're going downhill
kind of thing.
Like you're, you know, you'd use your braking system to keep things in check, but if you
want to go faster, you take the foot off the brakes and you let things accelerate.
And so this can be really important for things
like forms of synaptic plasticity or neuroplasticity,
let's say, where you want synaptic strengthening to happen.
So like under a learning event or something,
you want that synapse to really hardwire better.
And so having endocannabinoids kind of turn off
the inhibitory component is one of the mechanisms to facilitate that.
But at the same time, if you want to have a bit more adaptive flexibility, endocannabinoids
can weaken that synapse at the same time by acting right at the excitatory terminal itself.
And so their ability to kind of play with the relative activity of a circuit is really
dependent on which neuron they're acting on.
And so they can regulate excitation or inhibition differentially.
And I mean, CB1 receptors are found on virtually every single kind of neuron in the brain,
except one.
I think you'll find this interesting because it's dopamine.
And dopamine neurons are basically the only neurons in the brain that don't really, at
least as far as we've been able to characterize
to date, express cannabinoid receptors.
Interesting.
If I may, earlier you mentioned one of the potential psychoactive effects of cannabis
is euphoria.
Does that mean that the euphoria associated with cannabis use is independent of dopamine
and is more reliant on something like perhaps the opioid receptor system or
the serotonergic receptor system?
I wouldn't say that cannabinoids don't affect dopamine because what we understand in the
ventral tegmental area, which is kind of the hotspot of dopamine neurons, or at least the
ones that are involved in motivation and stuff, those neurons are regulated by a lot of inhibitory
neurons that dump out inhibitory transmitter
and keep those neurons kind of quiet.
So there's an opportunity for indirect regulation.
Exactly. So what you have is those neurons that regulate the dopamine neurons are very rich in
cannabinoid receptors. This is actually kind of similar to how mu-opioid receptors work for
things like morphine or heroin. And essentially what the cannabinoid receptors will do is when
they're activated, they'll turn off that inhibitory control.
And that allows dopamine neurons to kind of move into a state where they're more prone
to go into burst firing and have big dumps of dopamine.
Whether or not that relates to, you know, the positive affect or the euphoria, I don't
think anyone has cleanly demonstrated that.
I mean, obviously, dopamine's very complicated in terms of its relation to endpoints and
whether it's reward or motivation.
But cannabinoids definitely do have an influence on dopamine transmission.
They just don't tend to do it directly.
And I think that's this very bizarre and interesting component of cannabinoid signaling is why
the brain would have evolved in a way to allow every other neurotransmitter system to be
actively and directly regulated by endocannabinoids, but dopamine is kind of spared from this.
So I don't know.
No one, I mean, obviously you can always just theoretically guess as to why someone would
do that.
I don't know what the reason for it would be, but it is something that has kind of intrigued
a lot of people because every other system in the brain is so tightly controlled to some
degree by endocannabinoids and this one circuit is kind of free of it.
So, but yeah, so the main role of endocannabinoids is really to regulate plasticity or homeostasis,
allow flexibility of circuits to either goose up their activity or ramp it down if they
need to depending on the environment, depending on the experience of the organism.
So there's a lot of kind of roles that endocannabinoids play in that domain.
But even within the endocannabinoids, I mean, there's two primary endocannabinoids.
And again, this is one of the weird things about how endocannabinoids work,
because if you talk about things like serotonin or dopamine,
you have a single molecule that gets released in the typical anterograde way,
and it diversifies at the level of a receptor.
So serotonin has like, I don't know, like 15 receptors or 20 or something now.
Dopamine has at least five.
And so the different actions that serotonin or dopamine
will have is all driven by the diversification
of the receptors.
It's one molecule.
Whereas cannabinoids are the reverse.
Not only do they work backwards across the synapse
and work in this retrograde fashion,
but really you have one receptor that
is regulated by two molecules.
So the diversification happens more
at the level of the molecule than at the receptor, which is, again, very unique. And the two molecules. So the diversification happens more at the level of the molecule than at the receptor,
which is again very unique. And the two molecules that we know are kind of the bonafide endocannabinoids,
there could be more. They're called anandamide, which is actually a kind of a funny name because
it comes from the Sanskrit word anand for bliss. And so Rafi Mishulam, who was in Israel when he discovered the molecule,
you know, 30 odd years ago, wanted it to reflect inner bliss. And so, he named it anandamide. So,
it's like inner bliss with an amide bond is kind of the joke he had for it. And so,
he discovered anandamide and decided to call it bliss because he had familiarity with cannabis,
or because he took anandamide as a direct experience?
No, no.
I mean-
It takes a lot for a scientist to discover a molecule, but then for a scientist to discover
a molecule and then name it Bliss for a particular reason, you have to speculate that they had
some familiarity with the compounds.
I mean, Ravi Mishulam was also the guy who isolated and discovered THC.
So I mean, he has a very, he's kind of the grandfather of whole cannabinoid field.
So he has a landmark paper from 1964, which ironically, and this is one of these weird
pop culture things, I don't know if this is true.
That paper was published on April 20th, 1964.
And so the joke is, is this where 420 came from?
Because the original like birthdate of the first THC paper was 420, 1964.
Well, now that, now that potential myth is definitely gonna propagate.
But yeah, so he had been in the field for a while,
and so he had studied cannabis on that side,
and then in 1990, his lab isolated anandamide
as being the first molecule
that activated the receptor endogenously.
And so it was kind of, yeah,
I think it was a little tongue in cheek
that he named it the way he did.
A few years later, the second molecule, which is just called 2-arachidonal glycerol,
or what we call 2-AG, that was discovered kind of in tandem, both again by Mishulin,
but also by a Japanese group.
And so we understand these two molecules don't do the same thing.
Like, they are a bit different.
So the way an anamide binds to the receptor is it's what we would call a high affinity
but low efficacy agonist or molecule at least.
And what I mean by that is very low levels of anandamide are required to actually bind
to the receptor.
But once it binds, its ability to stimulate a biological response in that neuron kind
of caps out pretty fast.
So it doesn't have like a sledgehammer effect. Whereas 2-AG
seems to require a bit more
concentration in the synapse to be able to bind to the receptor so it has a lower affinity for the receptor.
But once it binds to the receptor, it's like pretty heavy-duty. So it evokes a very robust
intracellular signaling response. And so
why we have two endocannabinoids, we're not totally sure.
Some of us have theories. I'm of the camp that I think they may play somewhat differential roles,
either based on the synapse or the circuit that they're working in, or this idea that maybe
anandamide might be more of a tonic molecule. And what I mean by that is we'll say it's like
a stage setter. So like anandamide might just be kind of made by neurons on an ongoing basis and just released.
And its job may be to kind of keep the steady state
of a brain circuit in a desired range.
So that under resting conditions,
it's not too active or too quiet.
Your thermostat analogy is perfect here.
So in that context, it kind of is like just the thermostat
of the house.
Whereas 2AG is like, let's say, the pinch hitter
who gets brought in to do the heavy lifting.
And so 2AG during a situation like, let's say,
something like even like a seizure is an extreme example
where you have a huge amount of neural activity.
Those neurons that are getting heavily activated
during massive amounts of neural activity
start dumping out huge amounts of 2AG.
And that acts as the, OK, we really
need to turn off this circuit very quickly in this situation.
And in most of these forms of synaptic plasticity,
like I was saying earlier, where you need to either strengthen
or weaken a synapse in response to a change in the environment
or in response to an experience or something that's going on,
most of that is driven by 2AG signaling.
And so all these forms like turning things up or down
in a kind of rapid and on-demand manner, that's mostly 2 AG.
So most people who study like neurophysiology and like record activity in neurons
and look at endocannabinoids, they're almost entirely talking about 2 AG
when they play with stuff.
So, yeah, that's kind of one of the ways we do it.
We say that anandamide may be more tonic and 2AG might be more phasic
and like brought online when needed, but doesn't do a lot.
There is some evidence that 2AG may also have a role to regulate some circuits
under kind of resting conditions as well.
And there's certainly some situations where anandamide might get brought into play
to affect plasticity, but as kind of like an umbrella idea of how we look at it,
that's often how we divide those two up. So we kind of have these two molecules, they end of the day do the same thing.
They're regulating neurotransmitter release through retrograde signaling, but what stimulation brings them online or what drives their activity may differentiate.
And we don't really understand all the details behind that.
Outside of the fact that we very clearly know 2AG
is activity dependent.
So as that neuron becomes more active,
it's going to make 2AG to regulate its inputs.
So yeah, you have this very complex system.
And it's really widely distributed in, you know,
it's everywhere.
There's the cannabinoid receptors,
and the endocannabinoid molecules are in the cortex.
They're in the hypothalamus, the nostriatum, the hippocampus, the cerebellum.
All over the brain.
Except the one area where it's really interesting actually,
where you don't really see much receptor is in brainstem populations
that regulate kind of unconscious cardiac and respiratory function.
So this is one of the things that really differentiates cannabis from opiates,
because a lot of the signaling mechanisms between opioid receptors and cannabinoid receptors
are quite similar.
But as it's been well established,
people can overdose fatally and die
from opiates relatively easily.
And the way that that tends to happen is
when you activate the opiate receptors
in the kind of cardio respiratory parts of the brain stem,
it depresses neural activity.
So as the person loses consciousness,
they also unconsciously will stop regulating their own heart and breathing and they can be a
fatal response. Because cannabinoid receptors don't
really exist in those regions, you don't get the same kind of
impact in terms of suppressing heart rate and breathing
function. And so that's, I mean, you know, there's always the
saying like there's never been an account of someone actually dying from a cannabis overdose
or a THC overdose I mean certainly people can do stupid things while
they're intoxicated that result in their death but in the same manner that
someone can die from consuming too much opiates that doesn't seem to be
physically possible to cannabinoids as far as we've seen so far and a lot of
that is just because of the localization. For some reason, it's just not the receptors in that part of the brain.
So yeah.
Very interesting.
A lot of kind of aficionado questions about the receptor biology.
I'll just spare everyone the details by just highlighting something that you already said
far more eloquently than I will, which is I think it is fascinating that this
whole system has both a tonic, like a steady release capability, and a phasic, so the ability
to spike, forgive the poem, the neuroscientists will know what I'm talking about, to spike
more activity of this system superimposed on that tonic activity, because this is something that you
see in the dopamine system. This is something that you see in essentially every neuromodulator, neurotransmitter system.
But it seems that the endocannabinoid system
has accomplished this quite a bit differently.
So very interesting, unique system
in a number of ways that raise a number of key questions.
So yeah, if you go back to the munchies question you had,
so if we tie into that, one of the, so there's a few ways.
I mean, cannabinoids and feeding are a really interesting thing
because proto...
Like, if you ask people, like, kind of the prototypical responses
to consuming cannabis, most people would usually say munchies
is one of the things that pops up pretty regularly.
And so, you know, the cannabinoid receptors are very...
They are expressed in these feeding circuits in the
hypothalamus.
There's a lot of complex circuitry there that can regulate food-seeking behavior.
We just had an episode with Zach Knight from HHMI and UCSF.
We talked about the AGRP neurons and different neurons of the hypothalamus.
We can link to that in the show note captions.
Nowadays a rich understanding of the neurons that stimulate food seeking craving and eating.
We know that cannabinoids, they regulate, again, those inhibitory inputs around AGRP
neurons for example.
One thing they can do is disinhibit those AGRP neurons so they become more active and
that can drive food seeking behavior.
That's certainly one mechanism of it, but there's also a huge reward component to this
in terms of the munchies.
And so we know that like you can also just dump anandamide, for example.
This is, you know, Steve Mahler and Kent Barrett did this work years ago where they just put
anandamide into the nucleus accumbens and that can also stimulate palatable food intake.
So you also have this ability to integrate with the reward circuitry.
And then there was also this fascinating paper from a Japanese group in PNAS, I think about
12 years ago.
And what they found was they would give a rodent a cannabinoid and then they would stimulate
different taste bud populations.
And then they would look at the gustatory cortical response to stimulating the populations.
And what they found is under the influence of a cannabinoid, if you stimulated sweet taste
buds, you got an enhanced response in the gustatory cortex, but not if you did salty,
bitter, sour, or I don't know if they did umami in that one, but it was very explicit
to sweet tasting.
And so you have this kind of ability to like jack up the way the brain is processing sweet
tasting foods.
You have this engagement of the reward circuitry, and then you also have this ability to regulate AGRP neurons as well as the POMC neurons, those
kind of both sides to that in the arcuate nucleus, to regulate multiple components of
feeding.
But a big question is like, my lab has become kind of interested in this as well because
we have a component of my lab that studies feeding behavior, and one of my post-docs
has been doing these projects for years now trying to understand,
almost like at a behavioral mechanism level, what the munchies are.
And what she's been looking at is we kind of started thinking about the idea that, you
know, what is it that, because it's not just food seeking and it's not just, you know,
like just want to consume something.
There's a maintenance of eating.
And so we know from humans and animals, you can satiate them.
You can make someone fall and then get them high on cannabis and they'll reinitiate eating.
So that's an interesting thing in and of itself because that means you're disrupting either
the ability of the brain to detect satiety or you're messing with a process we call reward
devaluation.
And so reward devaluation is like, you know, if you haven't eaten for a day and you see a picture of a pizza
or someone brings a pizza in front of you,
it just looks delicious.
That first slice tastes amazing.
It's salty, it's fatty, it's delicious.
You eat five of those slices, it feels greasy and nasty.
And so that process of how you perceive the food
and its reward salience degrades as you eat
and as your brain basically shifts into a thing of,
we don't need to consume calories and food anymore, we're okay, we're full now.
And so we've done a series of experiments in the lab where you'd get the animals either satiated
in advance where they have already devalued the food and under a normal state they won't
eat it anymore, they won't work to get access to it. And you get them high on like a cannabis extract.
We have these vape chambers that are like,
I don't know how else to describe it,
outside of like a little hot box.
It's probably the best way to,
because it's essentially a kind of a locked airtight box
that the rat goes in and it gets like vapor puffs
and it fills up and then they inhale this
and then it clears out and they get another puff
and then it fills up and we do this for like 15 minutes.
And we've titrated all this to get exactly blood levels of THC that you would achieve
in someone who's consuming cannabis through smoking.
And so we get them to that point, and then give them access to food, and they will go
gangbusters.
They eat food.
It doesn't matter what you give them.
You give them plain chow.
They go to town.
You give them fatty.
You give them sweet. They love it all. But you presatiate them and they get them stoned, they will re-initiate eating again.
And you make them work for it where they have to like lever press and you get them stoned
and they will go to town on that and they will work.
Proof that even under the influence of cannabis, animals will work hard.
Yeah, they, for food, I don't know about other stuff,
but for food they certainly will.
I mean, at least Weiritz and Cassie Moore
have done this at Hopkins as well.
They've shown similarly using what we call
progressive ratio, which is essentially a thing
where it's like the first time you press a lever,
you immediately get a sugar.
Next time you gotta hit it twice to get a pellet,
then you have to hit it four times to get one.
Yeah, then you gotta hit it 16,
and then it kind of scales exponentially up.
I mean, we've had this one female we kind of joke about in the lab, this one female
rat and you get her high and she'll do like 300 lever presses to get one sugar pelt.
Like she really wants it.
So you can really kind of goose up their motivation to eat.
And so there's clearly a rewarding aspect of this because they're motivated to engage
enough and working to get access to the food.
But you can also do another way of testing this question, which is you can pair a food
with something that will make the animal feel nauseous, like lithium chloride.
This is kind of the way that you would test condition taste aversion.
So you give them access to a food and then you give them something that makes them feel
nauseous and the animals will avoid that food.
And so that's another way to kind of devalue a food
is by pairing it with a nauseant,
so the animal no longer likes it.
So again, same situation, you can get the animal stoned
and it will reengage in eating that food
that it had devalued through being paired with a nauseant.
So through either satiety or making it
kind of a negative associated flavor
because the animal got nauseous before,
you can kind of override these effects by giving THC.
And so that could be a complex process that either involves changes in the reward circuitry.
This could be something that's like from the orbit of frontal cortex,
which is a very important part of the brain that scales reward
and kind of assesses how much someone wants to work
or an organism wants to work to achieve a reward at the end.
So we haven't figured out the circuitry of this and where exactly it's acting, but I
would say a lot of the stuff that we and others have done kind of supports this idea that
a lot of what the munchies is, is this ability to kind of almost lock in the reward value
of food so that it doesn't decay.
Despite satiety, despite eating over time, it just keeps it highly salient
so that they wanna work for it still.
And then similarly, we've also,
we and others have also done work to show
we can block satiety signals.
So we know endocannabinoids at least
are capable of overriding leptin.
So leptin is an anorectic molecule,
comes out from the fat,
and usually we release it when we've eaten a lot,
and it's one of these things that tells our brain, stop eating.
You know, it works through again populations in the arcuate nucleus and changes the way
those neurons function to drive food seeking behavior.
And we and others have shown previously that, you know, if you elevate endocannabinoids,
you can override that.
And actually, one of the mechanisms by which leptin seems to suppress feeding is actually
by turning on the metabolism of endocannabinoids so that their levels decline.
And so as you lose that endocannabinoid function, the animal is less interested in eating.
And so you can prevent these anorectic effects of leptin by like, goosing up endocannabinoid activity.
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That's drink AG one comm slash Huberman you you're talking about increasing endocannabinoid activity
And we've said all this in the context of cannabis
So maybe we could talk a little bit about how the components in cannabis THC mainly but also CBD
Impact these receptors the CB one and let's just leave CB2 out for the moment,
because it sounds like it's more of an immune system thing.
But just to make it very clear, is there
a way to increase the activity of endocannabinoids
without ingesting THC?
Yes.
I mean, they dynamically change all the time.
But you're talking about experimentally or recreationally adjusting their levels, but
how does one do that without using THC?
So okay, a few things there.
We'll take a step back.
So THC itself isn't going to... It does its thing by acting directly on the cannabinoid
receptor.
So it sort of mimics the anandamide and 2-AG.
Yeah, so THC, going back to kind of the pharmacology of this.
So THC, if you look at how it interacts with the receptor,
it's not a heavy duty molecule.
So, I mean, this was kind of one of the things
that came up before as well,
is this idea that THC is a sledgehammer
and it overrides endocannabinoids.
By the way, Matt's referring to the fact that I said that in a previous solo episode about
this and there I was nesting it in the concentrations of THC that can be found in high THC cannabis.
So essentially what I was saying is that at very high THC concentrations, the amount,
maybe not the binding affinity, but the amount of THC that is available
to the CB1 receptors is going to exceed
what's normally found in terms of the amount
of anandamide that can bind to CB1 receptors
because what you're talking about
is a super physiological condition.
I mean, you don't really actually need much THC
in the brain to produce psychoactivity.
Like it's a little bit of a mystery,
to be honest, exactly how it works.
I mean, I think the main way that most people
in the cannabinoid theory field would look at this
is that THC is not, like, a very strong agonist.
I mean, even if you look at its ability
to trigger an intracellular response,
it's much lower than 2 AG.
Like, it's actually more like anandamide.
So you said anandamide is high affinity, low efficacy.
Yeah, so THC is the same.
THC is actually only a partial agonist.
It's not even a full agonist at CB1.
But it is high affinity.
It's high affinity.
So it has the ability.
But the tricky thing with that is it can outcompete 2AG.
But because it's a lower efficacy agonist than 2AG,
in that sense, it's almost blocking the effects,
not amplifying them.
Blocking the effects of 2AG,
but does it block the effects of anandamide?
You know, THC and anandamide,
I would kind of, the way I would visualize it
is because they seem to have relatively similar affinities
and efficacies of the receptor,
they might, let's say, dance around.
So it would be somewhat interchangeable.
The difference there is, and this I think is the big point
about what THC does versus endocannabinoids,
because we know now through the pharmaceutical development
of drugs that can boost anandamide levels, which exist,
we have inhibitors that prevent their metabolism,
we can elevate them, there's no intoxication
and no psychoactivity associated with elevating anandamide.
That's a very interesting point that we should highlight.
So there are drugs that now exist that can block the breakdown of anandamide, make more
available presumably by disrupting some enzymatic breakdown.
And therefore lead to more binding of the now elevated levels of anandamide that are
available to CB1 and you see no psychoactive effects.
People are not aware that they've-
Yeah, you can do-
There's no euphoria.
No one can guess. Yeah, no one can guess.
What is it used for?
Well, I mean, it was developed,
the first molecule really was developed by Pfizer
to look at if it could work on pain.
The first trial that was done did not work.
It was like a kind of strange osteoarthritic knee pain trial
that was like, even in that trial,
the positive control of naproxen barely worked,
but because the
Fah inhibitor which is, take a step back, Fah is the enzyme that chews up anandamide.
So the drug that is developed inhibits that enzyme so you prevent the enzymatic breakdown
of anandamide so we just call them Fah inhibitors.
So this drug will boost anandamide levels quite high and in animal research showed some efficacy
in modulating pain.
And so they put it in a trial and it didn't work
against the positive control of naproxen,
which is like an NSAID, just like Advil basically.
A leave.
Yeah, essentially, yeah.
So, and that drug didn't work that great to begin with.
So it was maybe some issues with the trial,
but it essentially killed the development of the drug
from that point on, because everyone's like,
oh, it's not gonna work.
So it kind of shelved for a while.
A colleague of mine, Marcus Heilig and Leah Mayo, Leah's now a colleague of mine in Calgary,
but at the time she was a postdoc with Marcus in Sweden, and they were able to get access
to this molecule right before COVID essentially.
And they did a trial in just healthy controls with it, which again, this is kind of jumping
the gun on some of the other stuff I'll talk about, so I'll tether back to that.
But what they did was they dosed people for 10 days on this drug, and then we looked at
stress and fear because this is something that I study, this is something that they
were interested in.
And we did find that boosting anandamide with this drug over 10 days was sufficiently capable
of dampening stress-induced autonomic responses, so like looking at heart rate or skin conductance.
I think skin conductance was the measure we did in there, but it's a proxy for like adrenaline
release.
So it blunted that and it blunted subjective feelings of stress as well, so people had
lower levels of saying they actually felt stressed.
And it kind of helped remove this like conditioned fear memory that we had, they had trained
people to do.
And so I worked with them on kind of doing the biochemistry of this to make sure the
drug was working properly.
But it was very interesting because we did see in that situation where elevating anandamide
produced kind of like a reduction in stress perception or reduction in stress physiology
responses and kind of
help kind of reduce fear. And so that is kind of an interesting outcome because it tracks with some of the stuff we know about cannabis, and I'm sure we'll talk about some of the PTSD stuff and anxiety
later. But so that's kind of one of the things. The drug has not really been used that widely yet.
It's still, it's one of the frustrations I have as a scientist who does a lot of translational work
and with clinical partners like Leah, is that getting access to these molecules is not easy
when they're not kind of wide, they're not like out in the market.
So you can just go and get them.
You really have to try and get access from the drug companies to be able to do trials with them.
And so we are in the midst of trying to do that.
We did just complete a trial that Lee and Marcus ran
that I worked with them on as well that was on PTSD.
And so there are various potential indications for this.
I mean, Johnson & Johnson developed one as well,
and they looked at it in social anxiety disorder.
They had some moderate efficacy in their trial.
So I'd say the jury's still out on exactly what
we're going to do with these, but they
have some potential, I think, in certain clinical settings.
We just have to figure that out exactly.
But I think going back to where we started this from, they're not psychoactive.
And so, I mean, when Pfizer first made the drug, they were actually initially concerned
that it wasn't getting in the brain because no one could tell they were on the drug.
I mean, this was the Wild West at this point.
No one had any idea what endocannabinoids were actually going to do.
People were basing it on what we knew about THC.
So the assumption was people would have psychoactivity, but they didn't.
Pfizer then actually had to do, they did a sleep study to show that it did have some
effects on sleep cycle the same way THC does.
And then they also did like an in vivo pet binding study to show that they could displace a radioactive molecule
that would bind to the enzyme in the brain.
Seems like a lot of gymnastics to basically confirm
what they already knew, which is that even greatly elevating
the anandamide by blocking this enzymatic breakdown
of anandamide leads to, at least from what I'm understanding,
vastly different subjective experience
than ingesting or smoking THC. at least from what I'm understanding, vastly different subjective experience
than ingesting or smoking THC.
Which brings us back to THC and cannabis.
Like, you know, it seems that this thing
that we call cannabis and THC are overlapping
with the endogenous effects of anandamide.
But here you're not talking about endogenous normal levels. You're talking about pharmacologically greatly of anandamide. But here you're not talking about endogenous normal levels.
You're talking about pharmacologically
greatly increasing anandamide.
No psychoactive effect, no euphoria,
no munchies, et cetera.
Then people smoke or take an edible of THC or cannabis,
and you get a vastly different set of effects.
So maybe we could talk about THC and the CB1 receptor.
And since we're here, we might as well talk about CBD and the,
I think you're going to tell us the lack of interaction with CB1 receptor, right?
And what is cannabis doing at the level of these receptors?
Because it makes me wonder whether or not these receptors are the whole story
or whether or not cannabis is, as you, as you mentioned, you know, 70 plus
active molecules in their terpenes and a bunch of other things that may modify their action that this thing we call cannabis has
many more actions than just mimicking the endogenous cannabinoid system.
Yeah, I mean, I think I would say the main way that we think about this is the difference between
endocannabinoids and THC is endocannabinoids are going to be released in a very specific spatial and temporal
manner.
So...
They evolved to do that.
Yeah.
So there's going to be, and I think like it's very clear that like anandamide, for example,
is not active at every synapse that has CB1.
And so when we boost anandamide signaling by inhibiting its metabolism, all we're doing
is amplifying anandamide signaling at the synapses it already exists.
Whereas THC, when you consume it, orally or inhalation-wise, and it gets into your blood
and into your brain, it's just blanket activation.
You're just carpet bombing the whole system indiscriminately.
You're introducing the ligand, the thing that binds the receptor.
This is far and away different than, say, the actions of amphetamines, which are disrupting
the normal biology in a way that's giving you an amplification of an endogenous mechanism.
Yes.
Right?
If that was all just nerd speak for those listening.
In the context of amphetamines, what you're doing is you're taking an endogenous system,
a naturally occurring system, and you're greatly amplifying the amount of dopamine, the amount of norepinephrine that's available.
With what we're discussing today, the endocannabinoid system seems to be producing a set of effects
that might overlap with the THC effects, but THC is doing a bunch of other things, and
that's because THC, and we'll talk about CBD, but at least THC is acting as the ligand.
In some sense, we don't want to say replacing, but it's masking the effects of anandamide.
I think the problem is when you just blanket activate all the CB1 receptors in the brain,
indiscriminately like you do when you consume cannabis with THC, the resulting effect is
the intoxicating state.
It's probably because there's a lot of CB1 receptors
in the cortex, and those are gonna be
differentially regulated at different times
by endocannabinoids, whereas when THC hits them,
all of them are gonna get affected at once.
And if you think of the way that I had described
how cannabinoid receptors work by,
essentially, I mean, in its simplest form,
what cannabinoid receptors do is they change the way
that two neurons talk to each other.
And so...
So you're changing all the networks simultaneously.
Yeah.
So if you hit a whole bunch of networks simultaneously, you're just going to change the way that information
processing and perception occurs.
And I think as a consequence of that, that's what produces the intoxicating state, not that
THC is like a super duper version of an endocannabinoid or that it's boosting endocannabinoids.
It's kind of like just indiscriminately activating all the receptors as opposed to a system that's
very finely tuned to do very specific things at very specific times.
That's very helpful.
Yeah.
So the analogy that I was considering using coming in here, like the difference between
endogenous testosterone or estrogen versus pharmacologic testosterone or estrogen
given as a therapy is very different
because that's a levels issue.
This is a levels and an extent issue.
Yeah, this is a lot more to do with just, yeah,
the nature of how it hits everything because like,
so for example, if we talk about feeding,
we know it's been established at this point that,
for example, if an organism doesn't eat for like a day, so you've fasted.
At that point, in those feeding circuits in your brain, like the arcuate area where these
AGRP neurons and stuff are, you'll start seeing elevations in endocannabinoids.
So endocannabinoid levels start kind of going up and up following kind of fasting periods.
And part of this is because they're trying to engage that feeding circuitry now and they're
shifting the activity of those neurons to promote food-seeking behavior because an organism
is basically like energy detecting its periphery and saying, oh, you know, we might be burning
through our energy reserves.
We should probably eat more.
And so there are obviously a few mechanisms that do this.
NPY is another one and ghrelin and things like that.
So there's a lot of redundancy in these systems, but endocannabinoids are just one of the molecules
that seem to fine tune the feeding circuitry.
And so in states of fasting, endocannabinoids go up explicitly in that circuit.
And there's some evidence they also go up in the nucleus accumbens and affect some of
the reward circuitries.
So they're probably driving food-seeking behavior and enhancing the rewarding aspects of food
at the same time.
And so that's a natural endogenous mechanism to regulate feeding based on nutritional state.
THC on the other hand, you know, it hits the brain. Yes, some of it's going to be the intoxication,
but in tandem, you're going to hit the CB1 receptors that are in those feeding circuits as well. And
the consequence of that is going to be, I mean, the way I kind of analogize it to people is I say
it's almost like tricking the brain into thinking that you've been fasting, because you're now activating
receptors that are normally activated following kind of a fasting state.
And as a consequence of that, it pushes someone or an organism or human or whatever into a
state of food seeking behavior, because now food also has high reward value and they're
kind of the way that their food circuitry is responding in the brain, at least seems to be similar to what would happen if they've been fasted. And the thought is
that's why when people you know when someone gets stoned they're not like going to eat lettuce they
want high calorie food they tend to like things that are high carb high fat that that combo seems
to be what people like when they're intoxicated with cannabis and that comes with a lot of calories
and the point of that would be you're trying to replenish lost energy stores.
This at least is the theory that I have about what it is that it's doing.
I think you can make this analogy for multiple different things.
If we talk about pain or stress, we can say similar kinds of things are going on, is that
endocannabinoids normally do one thing, but when THC hits the brain,
it's still activating these circuits
in addition to everything else it hits.
So you still drive that response
that the endocannabinoid system
normally physiologically controls,
but you're almost like tricking the brain
into thinking you're in that state now.
And so then you, then yeah,
you go into food-seeking behavior mode.
Super interesting.
Well, I have to imagine that there are many people
who use cannabis not to stimulate appetite,
but for other reasons.
They either like the euphoria or to adjust their anxiety.
What are some other known mechanisms by which cannabis can change people's psychology?
Let me focus in on one particular aspect of subjective experience, which is focus.
Do you think that some people use cannabis because it allows them to focus better?
And I raise this specifically because I think that in the past, cannabis has had a bit of
a reputation for making people spacey.
You used the word stoned, kind of out of it.
And yet I've heard of some potential uses for enhancing focus.
I mean, honestly, this is a bit of a tricky one to speak to because I just don't think
there's good evidence for it.
Either way or?
I just don't.
I mean, as far as I'm aware, it hasn't been studied in a lot of depth.
I mean, there's some things, you know, a lot of the stuff that's been done is usually more
like kind of acute memory tasks, like a working memory or recall or something like this, as opposed to explicitly studying focus.
Anecdotally, there is certainly a lot of people that report that.
My understanding is that people who use cannabis have poorer certain forms of memory, but not
necessarily poorer memory across the board.
Is that correct?
I don't think I would say that.
I don't think you could lump anything in that context.
I mean, I would say the only thing you can say confidently that I would be comfortable saying
is that acutely while someone's intoxicated on cannabis, there is definitely short-term
effects on memory processing. So people tend to...
Negative effects or enhancements or decrements?
I would say most of it has to do with recall or consolidation. So there does seem to be
some... I mean, certainly the animal evidence is very compelling there,
but again, we can talk to what some of the limitations of that are.
But in humans, I would say most of the work that's been done would suggest there is some
short-term memory deficits that are present during the intoxicated state.
I have not seen very much compelling evidence of long-term effects that emerge,
like when someone's not intoxicated but they use cannabis somewhat regularly. I don't think there's
anything compelling for that. And even in that case, like Kerry Cutler, who's at Washington State,
she's done a lot of this stuff looking at cognitive processing and different kinds of memory tasks
in users while they're stoned often.
And within a person, either they have adapted to using it as
much as they do or they've developed some form of tolerance
to it, but even in regular users, the impact on memory
processing is usually not super robust.
It's still there.
I mean, I think the effects that are more often seen in kind of, let's say, smaller laboratory studies
where they're using people who've used cannabis
but aren't regular users might be a little bit more profound
because they may not be used to that state, let's say.
I mean, there's certainly something
we call state-dependent learning,
which I'm sure you're familiar with.
And this is something people, I mean,
I remember learning about this in undergrad through alcohol.
So like, someone, first time they get get drunk tries doing something, they're very
bad at the task.
But if every time they're drunk, they do that task, they become better at doing it under
the influence.
And so then all of a sudden, you know, they regularly do this task while they're drunk
and someone tests them and they don't look like they're impaired at all, because they've
done it so much.
And so I should just say this point has often been confused by undergraduates and others to assume that
just because one can gain proficiency at a task
while under the influence of a substance
does not mean that you have higher proficiency
at that particular task while under the influence.
In fact, the way it was presented to me
when I was an undergraduate was incorrect.
I remember the lecturer said and later corrected himself.
I won't call him out here because that's unfair.
He's not here to defend himself, but it happens in lectures that people who studied drunk
would be better off coming to the exam drunk.
That is not true from what I understand.
I don't think better off, no.
But they would probably score better than someone who had never studied drunk and came to the test drunk.
Correct.
Just because they had had some state-dependent learning.
And so I think when we're talking about, if you're talking about someone who's a chronic cannabis user,
they're going to have done a lot of cognitive tasks while they're under the influence.
And so if you acutely test them, the impairment you might see in them is probably less
than you would see in someone who's relatively naive or a much less experienced user.
That being said, I think it's relatively well established.
Most people would agree that acutely intoxication with cannabis does impair memory processes
in some capacity.
What explicit form of memory?
I don't think I could speak to comfortably just because I'm not a memory researcher and
I know there's very specific things of like episodic and declarative and whatnot.
So I can't say that, but I'd say it's kind of generally,
and I mean, again, you can replicate this in animals
where if you train them on a task
while they're under the influence,
they don't seem to have consolidated
that information as well.
But again, I don't really think
there's super compelling evidence
that there's kind of long-term permanent effects
on cognitive function in individuals who use cannabis.
At least I've never seen anything that's replicable or reliable or stable in any way.
So yeah.
Thanks for clarifying that.
And also thank you for clarifying the discrepancy between endogenous cannabinoid binding and
affinity for CB1 versus THC.
I really appreciate that because that's something that you and I discussed in light of the solo
episode I did about cannabis.
Now you've made it clear that THC does not bind with much higher affinity.
I think your words were it assuming high THC levels in the cannabis, carpet bombs, all
the networks as opposed to binding more with higher affinity at particular receptors.
Yeah.
I mean, I don't actually even think it matters if it's high THC in the cannabis.
I think some people can get very intoxicated off of very, very low doses of cannabis.
Is that right?
I mean, you look at edibles, for example.
I mean, this may be an interesting segue into root of administration stuff because I think
it's an important point that a lot of people don't recognize is the difference between
someone inhaling cannabis versus someone orally
consuming cannabis is like a different game. Yeah, let's talk about this because I know that
you and I arrived at different understanding of the fastest, typical and slowest routes of entry
for THC into the system to arrive at the brain, right?
The numbers I gave in the previous discussion about this were related to how quickly inhaled
smoke moves from the lungs to the bloodstream and crosses the blood-brain barrier.
Which is very fast.
Right, which is very fast.
I don't know if it's different than nicotine.
I'm not sure.
Again, I don't know if I would say that, but yeah, it's very fast. Okay. So there may be, it may be that it is the same as nicotine.
It may be that it's faster, but importantly, it can be fast.
But typically, how fast is the onset of the subjective experience of, okay, somebody takes
a hit off a joint or a bong hit, and they start to experience the subjective effects
of euphoria, et cetera.
How quickly after?
Two to five minutes, I would say.
It's pretty fast.
I mean, so this is one of the things with cannabis is, and again, this will kind of
go into this idea of the change in potency of the plant as well.
It's pretty quick, and people titrate cannabis pretty well.
Like, at least people who've used it a couple times
and understand this.
I've seen some people not titrate it very well.
Depending again on how you're.
So again, this can vary.
So like, you know, cannabis from the 70s was like,
I don't know, 5% THC, let's say.
It was pretty low.
And nowadays, cannabis is, a lot of the commercial stuff
is between 20 and
30. Although whether those are super accurate numbers, not entirely clear, but so it's gone up
a fair amount. Yeah. Yeah. I mean, that's not just a fair amount. That's, I mean, if we were talking
about alcohol concentration- It's beer to vodka. Yeah. Basically you're talking about a beer or wine
to a spirit. And there are aquavit varieties, so to speak. By the way, I think when people hear me talk about any kind of drug that can be used recreationally
or alcohol, I think some people assume that I'm ultra anti all these things.
I'm actually not, right?
I'm not an alcoholic, so I can drink a little bit and I have, I just don't tend to.
And we could discuss cannabis in a different venue.
But the point here is we're not trying
to frame this as what people should or shouldn't do.
We're just trying to inform people.
I want to be very, very clear about that.
But when I hear about 20% to 30% concentration as opposed
to 5% concentration, it's significant.
So I would say this is what's super interesting.
And this was something that came out of the way
that cannabis research is done, certainly in the States.
And Canada's been quite behind on this,
even with legalization.
We haven't caught up.
But they have been doing lab-based studies
of cannabis.
Meg Haney, Harriet DeWitt, there's
a cluster of researchers around the country.
Ziva Cooper at UCLA here have all done this,
where you have people come into the lab, Ziva Cooper at UCLA here, have all done this where,
you know, you have people come into the lab,
you give them cannabis, you measure subjective outcomes
or neuroimaging outcomes or whatnot.
So to do this, you can't use commercial cannabis.
And even like the state by state legalizations
hasn't changed this.
So if you are doing cannabis research in humans
and you're funded by like NIDA,
which is the National Institute of Drug Abuse, you get all your cannabis sourced.
I mean, this may be changing.
I think there are some shifts that are happening, but historically in all the literature that
we would talk about that's kind of pre the last couple of years, all that cannabis came
from one source, which was, I believe a farm in like Mississippi that was essentially funded
by NIDA to produce cannabis.
Lucky farm.
And well, the cannabis that came out of it though, and this is one of the reasons a lot
of the clinical stuff people have kind of been like, oh, I don't know how representative
this is because it reflects cannabis that I would say is more from like the 70s or 80s.
So it would be like 5% to 9% kind of THC cannabis.
Now when you put someone in a lab setting and you get them to smoke to level of intoxication,
people would take, you know, whatever, eight tokes, let's say, something like that.
And that's where they would stop.
And so, you know, a lot of the labs that use this have always been like, are people who
are regular cannabis users are getting high off of it?
It's not as potent as the stuff that's on the street, but they're clearly getting intoxicated
from it and it's giving us reliable data.
So when they started looking at the blood levels of THC that you achieve, it was around
100 nanograms per mil of THC, give or take.
That seemed to be where it was.
Now, because of the way that you can legally study cannabis in the States, you couldn't just go down to a dispensary
and buy the products that everyone on the street are using,
which is kind of like, it's been a weird thing
for a lot of people, because they're like,
why wouldn't you study what we're using?
But because of the legal aspects of this,
you couldn't bring those products into the lab,
they'd never been standardized,
no one knew exactly what was in them,
pesticides, all this other stuff that could influence it.
So from a safety perspective, it was always like,
no, you use the cannabis that's sourced from NIDA.
So there's a group in Colorado, Kent Hutchinson and Angela
Bryan and Sinman Bidwell have kind of, I would say,
became very creative, actually, to figure out
how to study cannabis that's being used,
I call it, in the wild, in kind of an ecological
setting, let's say.
So they created what was called the Canavan.
The Canavan was a way to study people using products on the street, but not have them
come into a laboratory setting where it was complicated.
So what they would do is they would drive the Canavan to someone's house, but they'd
be parked on the street, and someone would
use the product, whatever it was, in their own property and their own time, and then
come into the canavan to have blood taken, to look at what their THC levels are, and
to undergo testing.
And so it was actually like, I think this was a great advance in the field, because
it was this huge innovative approach that allowed us to start comparing what we've learned
from lab-based settings with this kind of old school weed that was coming from NIDA with what is
being used on the street.
I love this.
I mean, as somebody whose lab has done an in-laboratory VR-based experiment on human
anxiety and fear and then compared that to a clinical study that we did sort of in mass
where people were at home doing specific respiration
practices.
You have many more subjects, but of course they're reporting back their effects.
You can monitor them by device, look at HRV, look at hardware, et cetera.
I think having the ability to compare and contrast in laboratory and ex laboratory data
is extremely valuable.
Yeah.
I mean, my view is you need both,
because you need the in-laboratory for the control,
because we all need control over various things,
but you also need the ecological validity
to see how it shakes out and make sure it looks the same.
Yeah, for people that have never been to a laboratory
or tried to find a parking spot at a university,
that's an anxiety-inducing experience in and of itself.
A novel experience,
while someone's intoxicated with cannabis cannabis can also create a very different
altered state.
I would want to be stoned in a laboratory.
I'll tell you that much.
I feel like there's pluses and minuses to both sides, but I think the data together
is very compelling, and that's where we get a lot of advance in the field.
So what Kent and Angela and Siniman did with the Canavan was kind of create the situation
that allowed this research to occur.
And what we found fascinating, I remember talking to Meg Haney about this because all
the people in her lab studies tended to always hit around 100 nanograms per mil using this
relatively lower potency cannabis.
When Kent and Angela and Cinnamon started studying this in the people and taking blood,
despite the fact that these people are now using cannabis that's 20 to 30%, their blood
levels are the same. So they're still coming in around 100 nanograms per mil because people are now using cannabis that's 20 to 30 percent, their blood levels are the same.
So they're still coming in around 100 nanograms per mil because people are really good at
self titrating.
Now where things fall apart is with the concentrates.
So then you go into things like dabs or these like high potency products that are now like,
because cannabis itself realistically, from what I understand from the botanist that I've
talked to, you can't really grow a plant that's going to exceed more than 25 to 30% THC just
by sheer biology.
So it taps out there.
That's about as high as it's going to go.
Concentrates can go up like 90, 98%.
So you can get really, really-
These are tinctures?
Distalates, like yeah, various just in oil-based forms that are very, very high-potency products.
Those are incredibly challenging to titrate.
Like, they cannot be titrated because the sheer volume
of THC that hits the system, even from a single hit,
is so overwhelming.
And so when the Colorado group looked at those,
their blood levels were closer to 200, 300 nanograms per mil.
So with cannabis plant, there does
seem to be this ability for people
to relatively self-titrate.
And then my buddy Ryan McLaughlin, who's also
at Washington State, he was really
one of the ones that pioneered these vape chambers and rats,
and created this really cool model of self-administration,
which was a very important thing to actually establish,
because it was very challenging to get rodents
to self-administer cannabis if you're doing like an IV approach or something else because
they found it quite aversive.
But when you let rodents actually titer their ability to get vapids, they will like work
for this the same way they will other reinforcing drugs.
So it was a really important finding that you could do this.
And what Ryan found was he actually did one study where he gave them access to a low potency
product, we'll call it medium, and then a high.
And what you ended up, if you look at the data, is the one the rats like the best was
the medium potency product.
And if you gave them the high potency product, they would actually take less vape hits off
that than they would off the lower ones.
And again, all their blood levels tended to cluster in the same range because they titrated.
Even at the rodent level, they're able to titrate because of the lag between inhalation
and feeling the effects is only on the order of a couple of minutes.
People can titrate better.
I mean, not just people.
It seems like the rodents can as well.
So the higher potency cannabis, where it becomes a problem is if someone's highly inexperienced
and they consume a whole bunch of it without allowing that time lag to occur, and then
they can probably exceed the levels they intended to and consume too much and then have probably
an adverse response.
So does that mean that cannabis use rarely leads to tolerance of cannabis use?
I wouldn't say that.
There's definitely some degree of tolerance.
The tolerance is definitely more prominent when people start using concentrates.
There's no question about that.
I mean, we can talk about the concentrates, I guess, separately after, because I would
say if we're talking about a harm reduction thing, that's more where we need to focus
a lot more is this idea of these high-potency products.
Yeah, it sounds like those are precarious.
Yeah.
That somebody who thinks they have a lot of experience or, God forbid, no experience,
takes a concentrate and is what?
No longer getting the euphoric experience that they anticipated, but instead are getting
what, a paranoid anxiety attack?
I think you're far more likely to go overboard and have an adverse response, but also I think
the problem is if you're using a product of that potency and that much THC floods your
system on a regular basis, the biological changes from that are going to be very different
than what you get if, again, you're titrating your THC from inhaling plant at roughly the
same level, whether that's a 10%, 5%, or 25%, people generally tend to scale.
This is a very important point, and I'm going to highlight it because I think it's very,
very important, although you're making it very clearly already, which is these days
we hear a lot about the, quote unquote, problems with high THC-containing cannabis as relative
to what was present in the 70s and 80s, and presumably 90s as well.
I was a teen in the 90s, so maybe I'm alluding to something there.
But what you're saying is that unless one is talking about concentrates, that people
and animals in the laboratory will self-regulate the amount of intake in a way that leads to
approximately the same blood levels of THC.
So it may not be as much of a concern,
at least in light of the concerns about,
oh, these levels are so high
that people are overwhelming their system with THC.
Basically, this could be stated in real world terms
as people are taking fewer tokes
of the higher concentration stuff
that allow them to match blood levels
that were present in the person
taking many more tokes in the that were present in the person taking many
more tokes in the 70s.
So the joke I always make to people is they say, go watch a Cheech and Chong movie from
the late 70s.
Look at the size of the joints that they smoke in movies like that relative to what you would
see someone on the street consuming nowadays.
So the advantage that existed from a titration perspective was with like 70s weed, there's a large window to titrate.
So people could, you know, take small amounts and not over consume, let's say, because there was a
much lower concentration of THC in the plant. So they're able to consume, you know, even if they
were doing it relatively fast, because of how little THC was coming into the system, it was a
little easier to scale that. So there certainly is the propensity for people to overconsume higher potency cannabis, even
independent of concentrates, if they're not allowing that titration to occur.
Also, if you have someone who is just exquisitely sensitive to THC for various reasons, even
one or two tokes could be too much for them because at the higher potency, they may not
have that ability to titrate quite as well.
And so a lot of people, anecdotally, you talk to people about cannabis and a lot of people
who don't like cannabis have said, oh, you know, I've tried, the new stuff's too strong.
And if there's someone who's kind of more in our age range who grew up in an earlier
decade where things were a bit different, they may be referencing their own experience
from when they were younger and what they were able to consume.
And now they try doing the same and it hits them like a sledgehammer.
Got it.
So it's a little different in that sense, but,
and I don't think it's to say it's like not concerning
that cannabis is as high as THC as it is.
I just think if I'm gonna put my efforts
into kind of like public health perspectives of this,
I would be digging my feet in much more
about the access to concentrates and the issues and the potential harms that are going to come with them than I would about the
cannabis flower myself. That's just my opinion based on what I see with the concerns and what
we've seen from the data in humans. And I think the real world ecological studies that the Colorado
group have done have been very informative in this sense because yeah, if the blood levels of THC you
achieve from concentrates are double to triple of what you get even from higher potency
flour, that's a concern.
I think that's where problems start arising because then you're going to start seeing
a lot higher degree of tolerance.
There used to be more of a debate in the field as to whether people develop tolerance because
one of the things with cannabis that I do find very interesting is with a lot of chronic
users, they don't escalate the way you would see with cocaine or alcohol, where there's very profound
tolerance that develops. And so, I mean, people definitely see this in cocaine, where people can
become tolerant almost immediately. And so dosing starts scaling up very fast.
Usually it's the life destruction that thwarts their progressive increase.
Seriously.
Or the cost. I mean, the sheer cost.
Another form of life deterioration.
Yeah, that is required to be able to maintain that.
But with cannabis,
it seems like there is some degree of tolerance
that people exhibit. It varies from person to person.
But, you know, as, like I've, you know,
as Meg has said to me many times, you know,
the guys that come in, her studies,
these are very heavy users.
And then, you know, they will use this relatively low potency product and
still get high off of it.
And so it's not to say that there's no tolerance.
It's just it's not as profound as I think we see with a lot of other drugs.
And this is probably due to the fact of just like, you know, we definitely see like if
we look at some pet imaging studies, chronic cannabis users do have some down rate.
Sorry, I have to interrupt, pet,
positron emission tomography, not pets.
Although people get their pets high
and we don't know what those pets think about that.
Not good, don't get dogs out.
Although if also high, one can assume a lot of things
about what your pet is thinking while also high.
Sort of half joke there.
But yes, positron emission tomography is one way to assess
the binding of drugs within the
brain as well as activity of endogenous neurotransmitters, neuromodulators, such as anandamide, dopamine,
et cetera.
Yeah.
So, a typical PET study in a human looking at this, they'd give a molecule that's radiolabeled
that will bind to CB1 receptors.
You can scan them and then look at the emission rates of the radiation to get an idea of the
density of receptors that are in the brain.
Chronic cannabis users tend to have less.
What that means in terms of the functional outcome is unclear.
There could be some... I think there's a lot of evidence that there's some degree of a reservoir of CB1 receptors
that, you know, there might be a lot more receptors there than we necessarily always
need or are always using, let's say.
So we might be down regulating a component of this, but maybe not all of the ones that
are required to produce the psychoactive effects because there's clearly some maintenance of
the system that allows someone to continue to get intoxicated.
And so with cannabis users, we do see that.
But you do see much more profound tolerance with people using high-potency extracts and
concentrates and things like this.
And again, surely I think as a response to the biology of hitting the system that heavily
with that much, you know, THC as it comes in because they can't titrate it the same
way.
It makes sense. Yeah, these concentrates sound like something
to at least pay attention to as a potential problem.
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Along the lines of use, tolerance, et cetera, is cannabis addictive and or habit forming?
I think it's probably important that we distinguish between the two.
I may have made this joke in the previous episode I did on cannabis.
I've known a lot of chronic cannabis users and none of them admit to being addicted.
It's not my place to challenge them on that,
but they do seem, in my experience,
this is not an experiment,
but in my experience, more irritable
when they don't have access to what they call
their quote unquote medicine.
Yeah.
So, you know, that speaks to a dependence or something,
but then we need to be careful because in the classic sense,
addiction, you know, I've defined in others
in the field of addiction have defined it as a,
you know, progressive narrowing of the things
that bring you pleasure such that, you know,
it causes disruption to other areas of life
and your life becomes maladaptive.
Yeah, I mean, I'm not gonna play
with the definition of addiction.
I feel like I have enough friends in the addiction space
that it's a very contentious field.
So, I mean, I will try and not use that word,
although I understand talking to the general public,
that's kind of, you know, if you say someone has a use disorder
versus an addiction, that may not make sense to them.
But that's the nomenclature now that people are using alcohol use disorder,
or cannabis use disorder.
This is what you start to see now instead of saying being addicted to pot
or being addicted to alcohol.
And so I mean, an addiction is obviously a very complex thing that, again,
I don't want to touch it simply because it's not my space.
But that being said, there's no question that people can develop cannabis use
disorder.
I mean, it's definitely a thing.
So if we say, is cannabis addictive and kind of a normal lay speak, I would say, yes, it
is addictive.
What does that look like?
How does that relate to other substances of abuse?
I mean, certainly the outcomes associated with it are going to be slightly different
than something like opiates or alcohol
because that's a totally different beast.
Because you have fatality potential, there's a whole bunch of other health consequences,
but if we look at how we would define a use disorder,
the criteria for someone hitting cannabis use disorder is really no different
than how someone would hit alcohol use disorder or opiate use disorder in the sense that
it can consume their life, it can shift the way that they behave, they can put themselves in risky positions to get
access to a drug, it can consume their time and their energy to have it.
Like you said, if they don't have access to it, it can trigger an assembly of behaviors
that looks like irritability, anger, frustration, things like that.
So I mean, the numbers in terms of the conversion rate of use to
developing use disorder, I would say are not entirely clear. The kind of old numbers that
used to get tossed around were like 9% to 11% of people that would start initiating cannabis use
would probably transition to develop use disorder. The more modern numbers, I would say, you know,
if we're looking at people who are already using weekly, we're talking probably closer to 30%.
Like, so it's a much higher...
30%.
I mean, when you're using that frequently, then the rates of people who would qualify
as having cannabis use disorder probably go higher.
So I just want to make sure I'm understanding clearly.
For people that use cannabis weekly, the propensity for developing cannabis use disorder is on
the order of about 30%.
Yeah, I'd say in that neighborhood, they would probably qualify as meeting criteria for cannabis
use disorder.
Because weekly doesn't seem like that often.
No.
I mean, it depends again on how you vary this.
Again, I've had a lot of conversations with the public and I think depending on someone's
experience in their own or in their own inner circles, life with cannabis, the way they
would view it is very differently because I think a lot of people,
you know, again, regardless of anyone's opinion of alcohol, if someone told you they had a
glass of wine with dinner every night, I don't think people would say you have an alcohol
use disorder.
I think that's not uncommon.
No, I don't think they would.
Similarly, if someone had a brandy at the end of the night or like, you know, a nightcap
to go to bed and they did that on a nightly
Basis, I don't think anyone would say that they have a use disorder and I think with cannabis
There are a lot of people that kind of fall into that bracket that would use it
You know even daily but relatively infrequently and kind of as an end-of-the-day thing
I think some of them certainly would fall into the criteria of cannabis use disorders, because if you start looking and say, well, if you travel to Egypt, are you going to go
put yourself at risk of going to jail to get access to cannabis because you can't function
without it?
If you do, then yeah, you've got cannabis use disorder.
Are you going to burn relationships?
Are you going to start failing at meeting responsibilities or getting things done in
time because you're preoccupied
with cannabis?
Yes, you're going to hit the criteria for cannabis use
disorder.
If it's someone who's kind of just intermittently using it
the same way that a lot of people casually use alcohol,
I would say a lot of them probably wouldn't hit criteria.
But I think as someone who has never
had cannabis in their inner circle or in their life,
they look at it like a drug like cocaine, I think to someone who has never had cannabis in their inner circle or in their life, they
look at it like a drug like cocaine, whereas they're like, wow, if you're using cocaine
on a daily basis, we'd be super concerned about you.
And so I think that's this like, it's just as you go, I mean, cannabis is in this really
weird transitionary period, I would say, of going from illicit to not just because of
the changes in the legal regulatory
framework.
I mean, in Canada now, we're like five and a half years into legalization.
So in many ways, I would say the transition has happened where a lot of people view cannabis
very similarly to alcohol, whereas you go to some states and the perspective is still
very different.
And certainly if you're still in one of the states where there's no legal access, people
still look at cannabis the same way they look at a lot of other illicit drugs like cocaine or amphetamines or things.
That's interesting.
I was under the impression this has really changed over the last five, 10 years.
Growing up, I think there are still people in jail now because of possession and sale
of cannabis.
Then, of course, there are stores not far from here where people are selling cannabis.
It's ironic, yeah.
Yeah.
Sadly.
It's a very, I mean, obviously a big push for legalization is not endorsement of the
safety of cannabis.
It's more the harms associated with prohibition outweigh the harms associated with legalization.
I think that's generally the public health perspective.
That's certainly what motivated it in Canada.
And there was some attempts, let's say, at restorative justice in terms of removing criminal
records and things may not have been entirely as successful as people had hoped it would
be, but it certainly has changed things.
We can look at our federal data and see that arrest rates related to cannabis are obviously
very low compared to what they were.
That obviously becomes very important because there are clearly minoritized communities.
They get hit more with this than other communities.
And so the kind of perpetual disenfranchisement
that happens with a prohibition model
in communities that are already suffering
from various other things that affect them
just potentiates all that.
So I can understand the legal framework
behind why there'd be a move to a legalization state
over a prohibition state,
which again, a lot of people confuse legality with safety,
which is a weird,
I mean, alcohol is the perfect example of this.
I mean, you look at the scale of harms
on a public health level,
I mean, alcohol stacks at the top.
Across the board in terms of harms to the individual,
harms to society, it's a lot.
Cannabis has harms, there's no question on that.
It just would fall lower than alcohol.
But the way that people view it, a lot of people are like, alcohol is legal, therefore
it's safe, and it's not something to judge people on.
Cannabis at least historically was illegal, and in some states still is.
So people view it very differently.
And I think it's an interesting thing because I feel like, you know, despite the fact that
some people hate the government and hate the way that it regulates their life, there's
this weird passive belief that like if the government dictates something is legal, that
means it's safe.
Matthew Feeney Is the legalization of cannabis leading to
more cannabis users or fewer and or incidents of people going into the emergency room, suffering
from cannabis-induced psychosis, something that I hope we can also talk about.
Yeah.
So, it depends on how you break this down.
So what we've seen in Canada is, I would say there's like demographic differences.
Proportionately, when we look at the biggest change in use,
it's actually elderly communities.
It's like 55 plus.
Especially women over 55 tend to be more cannabis use.
Now, granted, their baseline was quite low, pre-legalization.
So if you look at a full change, it
looks like a very dramatic increase.
Raw numbers, it's probably not that high.
But I mean, it was like 1% to 2% or something before,
and now it's gone up to like 8% or something.
So it's a four-fold increase kind of thing.
So we do see the magnitude of that seems to be the biggest
in terms of where the use has come from.
Definitely the young adult population, like 20, 24,
that group has definitely seen increased use as well.
Does it split male-female?
Historically cannabis tended to be more male-biased.
I'd say the gender separation there has kind of narrowed quite a bit, where you do see
a lot more females used than historically had.
There is a little bit of difference.
Females tend to prefer edibles over males.
Males tend to like edibles over males. So males tend to like inhalation over females.
So like roots of administration vary a little bit based on who someone is.
But yeah, interestingly, we don't have a lot of actual indication that teenagers have used
more.
So like, you know, you look at 14 to 18 year olds that has been now granted our baseline
going in was pretty high as is down here in the States. I mean, Canada and the States both hover... You look at like
grade 12ers and it's somewhere between 35 and 40% of them have used cannabis. Now, I
mean, you even have some that are like, probably around 5% are probably almost daily users.
So like you do have a pretty high baseline to begin with in that group, but that has
remained relatively unchanged.
If anything, some of the states when they legalized saw slight dips in teenage use of
cannabis.
So I think that's obviously an important demographic to have tracked.
This was one of the concerns with legalization was you'd prove increased access.
Teenagers would get it from their parents and whatnot or had just other siblings and
stuff, and so you'd get this big boost in consumption.
But we don't seem to see that in terms
of raw numbers of teenagers who are using cannabis.
So that's good.
ER visits.
So we did an interesting roll letter in Canada.
We legalized flour for a year before edibles came online.
So we have kind of a before and after.
Once edibles became available, there was a notable increase in
unintentional pediatric consumption that resulted in ER visits.
Because kids would, you know, a lot of these look like gummies and candies.
People are buying them, not, you know, storing them properly.
Kids would find them and eat them and like become very intoxicated.
I want to make mention of something along those lines.
I actually know somebody whose child accidentally ate THC containing gummies.
Fortunately, the child was fine.
But they're actually pretty serious ramifications for this. The parents actually are quite susceptible to legal action if this happens.
So this is something to really keep in mind.
There are a million other health-related reasons why this is probably something to keep in mind.
I don't know if that's true in Canada the same way, but in the States, yeah.
If your kid gets into a stash of THC-containing gummies and ends up in the
emergency room, there will also be, most likely, there'll be a police visit to that emergency
room also, and it doesn't bode well for the parents.
It's a very serious issue.
Again, this was highlighted to me by someone that I know who didn't anticipate any of this,
but kids are good at finding candy.
If that candy contains THC and they end up
in the emergency room, serious issues.
Nonetheless, if your kid is acting strange
because you think they ingested THC containing anything,
take them to the emergency room anyway.
Well, so this was one of the things that also
was influenced by legalization is in Canada,
some of the increase in the ER visits was because of
the shift in legalization and the change in policy.
And so, you know, if your kid ends up drunk underage, it's not the same ramifications
as if your kid used an illegal substance underage.
And so people are, when once cannabis was legal, people were more likely to actually
go into the ER because the consequences were different.
I see.
And so sure, some of this is availability and some of it is just like, okay, I'm not
as concerned now about something happening because I've taken my kid in.
Like, I'm not going to have my kid taken away from me or whatnot.
So there is, I mean, both those factors I think have contributed to it, but we definitely
see the majority, at least the kids ending up in the air is almost all based on edibles. That's I I can't imagine a
Situation where that would happen from inhalation. It would be very rare if it would it's almost always edibles because kids find them
So as long as we're talking about edibles
Is there any fundamental difference between?
The dose regulation that you talked about earlier of inhalants versus edibles, meaning
earlier you said that even if it's high THC containing cannabis, people will self-regulate
to achieve approximately the same blood concentrations.
With edibles, I imagine you eat half a cookie, a quarter of a cookie, and you can end up
in a vastly different place than you expected.
Edibles, so this throws a wrench in the whole system.
And I'll say this in the context of blood levels and then what that means from a regulatory
capacity as well because of the impact this has.
So edibles are very low doses for the most part.
I mean in Canada at least you cannot buy a pack of edibles and I think this law might
be changing at least when they first brought it in.
No pack could have more than 10 milligrams of THC in it.
So that either meant one 10-meg gummy or two 5-meg gummies or four 2.5-meg gummies, you
get it.
So you couldn't in one package have more than 10 milligrams of THC.
Now for people who are, I would say, relatively naive to cannabis or THC, even people who
might use it intermittently, most
people will feel 5 milligrams, like they'll feel some form of intoxication.
Some will even feel it at 2.5 mgs.
Most people will feel it at 5.
Virtually everyone will feel it at 10.
Now if you look at the blood levels these produce, we're now talking blood levels of 2 to 5 nanograms
per mil, so folds lower than what you get from inhalation.
Right, before you said 100.
Yeah. So, this is dramatically lower.
And so, also the time course of this is fundamentally different.
So, in oral consumption, you know, you're looking at a minimum of 30 to 45 minutes
for onset of intoxication, for some people up to 90 minutes after they've eaten.
Now, this is also the reason why the majority
of adverse events that happen with cannabis
happen with edibles, because people don't understand this.
And so they eat a cookie or a gummy.
They wait half an hour.
Like, I'm not feeling anything.
I clearly didn't take enough.
And then they'll double their dose.
And then like 15 minutes later, it starts hitting them.
And then like once it fully kicks in,
it's just like a steamroller.
I've heard of this happening.
Yeah, I mean, there was that New York,
I think it was Maureen Dowder,
someone went down to Colorado
and she ate like an insane amount of THC
in a chocolate bar or something like 50 or 100 milligrams
and spent like the weekend on the floor of a hotel room
being like, this was the most aversive experience.
Why would anyone do this?
And again, I think people just don't understand the dosing around this.
And so, this is one of the things we're trying to do in Canada,
and I was creating this idea of standardized dosing units
so that people have an, like we do with alcohol,
we always say, one beer is the equivalent to one glass of wine
versus, you know, like a shot of tequila or something,
so that there's some comparator that people understand
how many drinks are, you know, is these two drinks you do,
you're going to hit legal limit kind of thing.
Yeah, it seems very important.
Yeah, and so this is very difficult to do with cannabis
because the dosing with oral consumption
is just a different ball game than it is with inhalation.
But what happens with oral consumption is like,
it kind of very slowly leaks out of the GI tract.
And it also goes through first pass metabolism in the liver.
And what happens there is you get a metabolite called 11-hydroxy-THC,
which seems to be a bit more potent than THC is in terms of its ability to activate the receptor.
So its efficacy, at least at driving a response through CB1 receptor,
seems to be higher than what you would get with just the parent molecule of THC itself.
And it seems to accumulate a lot more as well.
So at any given time, you know, you've got THC kind of leaking out of the gut,
going through the liver, making 11 hydroxy, and it progressively accumulates in the brain.
And that's one of the reasons why it takes, you know, 45 to 90 minutes to kick in.
But then the high itself also lasts like six hours,
four to six, sometimes eight,
depending on the person, what they've eaten,
versus inhalation is just this like spike.
So you get this very rapid,
because it goes right through the lungs into the blood,
goes into the brain, but it also clears out.
And so, yeah, people will start feeling intoxicated
two to five minutes.
The peak high is like 15 to 30 minutes maybe from consumption, and then they'll start to
come back down.
You will still see some indications of intoxication that can go on for three to four hours, but
the bulk of the intoxication from inhalation is done by two hours for the most part.
As long as we're on the topic of time course, based on what I was able to find, I believed, and tell me if I was wrong, that
cannabis can stay in one system for as long as 80 days.
The reason I brought this up previously was there are a number of people who have used
cannabis are going to take a drug test and want to know how fast it can clear from their
system.
But based on conversations we had offline, sounds like that 80 days might be a bit too
long.
I mean, you could still fail a drug test at 80s.
I would say, I feel like, I think the way it was worded more, it was like that you made
it sound like that was the standard.
I wouldn't say that was the standard at all.
I would say for the majority of people, 30 days probably after that, they would not pass or they would be able
to pass a drug test.
So abstinence for 30 days.
After abstaining for 30 days.
And it's gonna be highly variable
depending on how much you consume.
I mean, if you're talking about someone who's used it once,
I don't imagine it would be in your system that long.
That'd be surprising.
The thing is THC is a lipophilic molecule.
It's fat soluble.
Yeah, so it's fat soluble. It likes the stortza. It doesn't like the blood. The blood is a THC is a lipophilic molecule. It's fat soluble. Yeah, so it's fat soluble.
It likes the storts.
It doesn't like the blood.
The blood is aqueous and watery.
It likes fat.
So it goes into the brain, it goes into the fat,
and it kind of resides there.
And it can essentially kind of slowly leak back.
As THC concentrations in the blood would reduce,
THC that's in the fat will start kind of leaking
back into the blood still.
So detectably, you will still have THC for quite some time.
I mean, some of this, again, it's going to be dependent on how much cannabis someone's
used, how much THC they've consumed, how long it's been in their system for.
I would have thought this was going to be somewhat reflective of people's body fat content,
although talking to colleagues who do this, they say not always.
But we do know, you know, certain things like exercise, for example,
anything that's going to trigger adrenaline, because adrenaline is lipolytic.
So adrenaline causes fat to metabolize and release stuff that's inside it.
So there are plenty of cases I've heard from people where they were testing themselves
and were negative and then went for a run or went to the gym and then tested positive.
Aaron Ross Powell Or lost weight.
Dr. David S. Levenson Yeah, or they've lost weight.
And anything that's going to cause the lipolysis to occur so that it releases that THC, you
can certainly all of a sudden test positive again when someone had tested negative previously
just because of the fact that there still is some in the fat. you can certainly all of a sudden test positive again when someone had tested negative previously
just because of the fact that there still is some
in the fat.
And so this is where something like,
and this is what I mean by standardization
of regulatory issues become very complicated.
It was, I remember right when legalization happened
in Canada, all these kinds of chemists were like
talking to me about they're gonna create like a breathalyzer
for cannabis because this way they'll be able to do
roadside detection the same way they could do with alcohol.
And I kept trying to say to them, I'm like, the rate limiting step here is not the science
of detection thresholds.
It's the biology of how the body processes cannabis.
And you're never going to get a test that works because you can take someone who has
eaten an edible and is profoundly intoxicated, And they will have possibly under five nanograms
per mil of THC in their blood.
But you were talking about this metabolite
that can come from the edibles
that doesn't come from inhalants
that can have a much more potent effect.
You get a bit of it from inhalant,
but not nearly as much as you get from edibles.
So it's a different,
it's sort of a different situation altogether.
It is, but it's also the timeline
because of the fact that with inhalation,
it's like a bolus that hits fact that with inhalation, it's like
a bolus that hits you at once.
You get a high blood level.
With edibles, it's like the time course.
So I mean, it's going to be like five nanograms per mil, let's say, but it would be like that
for a long time.
Whereas the hundred nanogram per mil from smoking is like for 20 minutes and then it
starts dropping.
But the problem is with the way that you detect it
is you can take someone who's a chronic cannabis user
and is completely sober and hasn't consumed in a day or two
and their basal levels of THC in their blood
may be higher than someone who's profoundly intoxicated
by an edible, just by the sheer nature of the fact
that it would reside in their fat tissue or their brain,
it would leak back into the blood.
And so you have this issue where, let's say,
your cutoff was five nanograms per mil,
which is for some of the stuff detection thresholds would
hover around that area.
So you could have someone who's dead sober that tests positive
and someone who's profoundly intoxicated who tests negative.
So it's like, what's the value in this?
It's not telling us anything.
Well, I guess it sounds like the drug tests either have to be revised or discarded.
And it also sounds like if somebody is going to take a drug test for cannabis and they
have used cannabis in any form in the previous 90 days, let's say, going for a run right
before your test is going to liberate whatever THC resides in the fat stores.
Potentially, yeah.
So, I mean, it is complicated.
A lot of people are writing this down.
Along the lines of what's known and not known, I'm curious what is known and not known about
the effects of cannabis THC in particular on hormones.
I've seen studies that cite increases in testosterone from cannabis use.
I've seen studies that cite increases in estrogen from cannabis use, and they argue for increased
aromatization of testosterone into estrogen as the mechanism.
I've also seen studies that say the exact opposite.
Yeah.
So, is there any global takeaway message yet, or is it just highly variable, or depends
too much on dose and individual age, et cetera, that we just really can't say?
I would say it's... There's nothing that's super clean cut.
I mean, I know in the previous podcast, you talked about a prolactin thing.
Right.
Well, there's... And this is where I think it's important that people understand that
on this podcast, we cover science and studies,
but we also pull from common experience that people want explained if we can.
And one of the experiences that is talked about a lot in certain, let's just say online
communities is the experience of people who had no preexisting gynecomastia, male breast
development, will smoke marijuana.
Do we call it marijuana these days?
I got, I actually got a, I got someone,
I got a lot of comments that said marijuana
is an inappropriate term.
Okay.
Smoke, we'll go back to that.
That was new to me.
I didn't know.
So forgive me if I didn't know.
I mean, I understand it, but yeah,
a lot of people don't know.
Okay.
So we'll smoke cannabis and experience gynecomastia
or in females.
So males and females both have breast
tissue but in males it's typically, it's not hypertrophied, but they'll smoke cannabis
and get gynecomastia, growth of the male breast tissue that's sometimes reversible, sometimes
not, presumably through the aromatization of testosterone into estrogen which then acts
on the tissue, makes it grow, as well as reports of breast tissue tenderness
after cannabis use in females.
So that was sort of the origin of that discussion around does cannabis impact aromatization
of testosterone into estrogen?
And you can find a little bit of evidence for that, but you can also find evidence to
the contrary in the scientific literature.
So I'm just curious your thoughts on this.
It's super mixed.
So I mean, you're talking about something like prolactin for example.
That is another one that's obviously involved in this whole cascade stuff.
Generally I would say the bulk of the literature actually says that cannabis would suppress
prolactin, not increase it.
That's the majority of the literature that's out there.
Dopamine is one of the main ways that prolactin is suppressed.
They're kind of in a seesaw.
They work in somewhat seesaw fashion.
And it probably, I mean, the rodent work would suggest it's through dopamine that's turning
off prolactin because you can reverse some of these effects by playing with dopamine
signaling.
Interesting.
So I don't doubt that's the mechanism.
So typically, I would say more often, I mean, there's studies with inhalation and IV that
have generally found reduced prolactin.
And in chronic cannabis users, they find somewhat lower resting states reduced prolactin. And in chronic cannabis users,
they find somewhat lower resting states of prolactin.
That's been found in one study that came out of Yale.
Interesting.
Testosterone gets a little bit more complicated
because there are a lot of studies that find,
A, to begin with, cannabis users may have higher levels
of testosterone just at rest.
Now, whether that's a pre-existing thing.
Is there any reason to think that would be the case?
I don't know.
I, yeah, I mean, that being said, a lot of the stuff,
now granted, this was mostly done in the 70s,
and like, this is from my previous life,
because my undergrad and graduate supervisor,
he was a neuroendocrinologist,
focused much more on sex hormones and reproductive hormones.
So we've written a few reviews, so I've done like reviews on this area, and I know the
literature somewhat.
It's mixed, but generally from the 70s studies, what they would often see is that if they
would look serially look at testosterone after someone consumed, they would have little dips.
Like that wasn't uncommon for them to find it.
Not every study found it.
That being said, the kind of range that testosterone stayed
in was always the normative range.
Like it was never that it went so low
that someone would have classified as being hypogonadal
or would lead to something like gynecomastia,
at least from a testosterone deficiency side,
in terms of the balance between testosterone and estradiol.
I don't know as much about the aromatization side of it.
Again, I'd say it's pretty mixed.
I don't think the gynecomastia stuff is...
Certainly people online might be talking about it and there might be some other components
to this.
I've also heard, and again, this isn't like science, this is just the same kind of stuff
you see on random internet communities.
People talking about, oh, well, it has plant estrogen, so maybe they're subbing
in and having estrogenic effects.
I don't know how valid any of this is.
Yeah, it seems to be.
I mean, there are phytoestrogens in tons of different plants.
There's sort of attacks on soy and the attacks on... This, I think, grew out of the kind
of the soy versus meat communities and plant-based versus carnivore.
This podcast has always been agnostic with respect to nutrition and is really, if we
encourage anything, it's that people consume unprocessed and minimally processed foods
as the bulk of their food intake.
There seems to be enough data on that, but whether or not people choose to be vegan and
eat a lot of plants or carnivore and eat just meet, you know, we've essentially stepped out of that debate because
let's just say it's as futile as about any other debate.
You just never gonna, it's completely circular.
You end up right back in Twitter.
Yeah, and I think that, I mean,
when it comes to something like this,
I don't, I've not seen any compelling evidence for it.
So I can't, I certainly wouldn't say that it's a typical
side effect that men would experience is like developing breast tissue in response to cannabis.
I feel like if that was the case, it would be very known in the scientific community
as something that comes out.
So this seems to be something that purportedly occurs on a backdrop of elevated androgens,
meaning in puberty or a backdrop of some other form of androgen increase.
Like someone who's on steroids or something.
Yeah, but that's not the community I'm referring to.
It seems that because transient gynecomastia during puberty is actually fairly common because
of there's just so much androgen being produced in puberty that some gets aromatized and that
the idea, I'm not stating this as fact, is that it may exacerbate that.
In any case, it sounds like the takeaway from this is that there aren't a lot of conclusive
studies about the effects of cannabis on testosterone or estrogen or aromatization in any direction.
Yeah.
I mean, I'd say like, yeah, enough studies to suggest that you might see transient drops
in testosterone from cannabis, and it seems to be relatively short-lived
It doesn't seem but again a lot of these studies also find that the basal testosterone is already kind of high to begin with So you're staying in a normal dynamic range again. It's homeostatic just like just like the end of cannabinoids
Yeah, so and that's the thing. I mean testosterone fluctuates across the day anyway, so there's already I mean, there's other things that fluctuate
It's like cortisol, these hormones have cycles.
So, as long as you're in this normal range,
there really shouldn't be any kind of like behavioral,
like in terms of sex drive for testosterone,
or like physiological, like gynecomastia or some change in,
I mean, now there are potentially effects of THC
directly on the testes that could affect sperm.
That could happen independent of changes in testosterone.
Are those positive or negative changes?
I'm assuming that the studies you're referring to saw disrupted what they call sperm quality,
which has to do with motility, et cetera.
Yeah.
I mean, a lot of the kind of in vitro stuff definitely would suggest that.
Some of the animal stuff as well.
The human stuff is definitely a bit mixed.
I mean, but again, if anything, it would be like,
yeah, it could have some effect on sperm.
So I have like-
As we say this, I'm just chuckling to myself
because anytime this conversation comes up
about a substance and sperm quality or egg quality,
I always get a barrage of comments of people telling me
how many children they conceived while under the influence.
No one is saying that you're gonna be infertile,
but you know, if people are having challenges conceiving,
it might be something to think about.
I would say that, I would agree on that.
So I would say if someone was asking me this
and they were trying to get pregnant and struggling,
I would say, well, definitely cut cannabis
because some people may be more impacted by it than others.
So for some various biological reasons
that we don't have a biomarker for, there may be some
men that use cannabis and it has a profound effect on their sperm quality, their sperm
capacitance, their ability to maintain fertility.
For the bulk majority of men, I'd say that's probably not the case.
Again, if you're someone who is struggling and you use cannabis, male or female, I would
say cut that out and see if that has an effect for you. Along those lines, I saw kind of a jaw dropping statistic and I'm not sure I still believe
it, but you tell me what you know about this, which is that up to 15% of pregnant women
in the US have used cannabis during pregnancy. That just seems, that number just seems too high.
And yet, you know, it exists out there.
Yeah, it's very, I mean, I've heard higher numbers than that.
In the research literature.
No, I've heard higher numbers than that as well.
Okay, so I'm on the low end of things.
Well, I mean, so I've heard as low as two
and I've heard as high as 20.
Okay, two sounds like, okay, that I could imagine,
but as high as 20.
And do we know what the effects on the developing fetus are?
There's a lot to unpack there.
So first thing, going back to the low levels,
that's challenging because again, this depends on,
are you talking about self-report
or are you talking about verified blood levels?
Because those are varied.
So some of the higher numbers actually
come from blood levels where they've taken blood samples
and found THC, but the women have reported not using cannabis.
And so the idea that it's like the self-report numbers tend to come in around two or three.
My guess is the real number is probably somewhere around 10%.
But that also is going to vary depending on what you're talking about, because there are
a proportion of people who are using cannabis and become pregnant and are unaware they're pregnant
and are still using cannabis,
and that would still qualify under the way
that it's defined that someone used cannabis while pregnant.
So the majority, I would say the overwhelming majority
of people, once they learn they're pregnant,
now that can be all the way up to almost the end
of the first trimester, typically stop using cannabis.
That seems to be the norm, I would say.
Important point there.
Yeah, and I think also the number that carry on
through the entire gestational period
is gonna be a lot less, I would guess.
Now, the motivations for this quite often
are more in the capacity of the kind of anti-nausea
qualities that cannabis can have for some people
and for women struggling with morning sickness.
Now, anecdotally, I have heard women say,
you know, with the history of things like thalidomide
and other anti-nausea drugs
that had profound teratogenic effects on the fetuses,
women have said that they would rather use cannabis
than one of these other compounds
because they're less concerned about the impacts
of cannabis than they are because of the, you know,
the thalidomide effects that happened.
Thalidomide effects are malformation of the limbs
and other bodily structures in fetuses.
It was an absolute tragedy of medicine
that this occurred in even one birth.
But yeah, the reason why thalidomide is now, I
believe, banned as a drug for use during pregnancy.
Yeah, I actually have no idea, but I would imagine.
I think it would be one of those hard things to sell, given its history especially.
So I think there's a reticence of a lot of people to consider using pharmaceuticals to
regulate nausea because they're uncertain
of the consequences of it.
And they feel that cannabis may be safer.
Now that in and of itself could present some problems in terms of that thought process.
Now there was also a study that I thought was like, some of these things just frustrate
you.
It's where they actually decided to call,
this was done in Colorado, where they called dispensaries
and just acted naive and asked what their recommendations
were, and it was something like 80 to 85% of them
were actually recommending that people would use cannabis
to manage morning sickness.
And I thought that was like,
it's just one of these disappointing things
where you're like, why are you being so wildly irresponsible
to kind of promote these things?
And this is-
You're talking about the irresponsible that the dispensaries would say that or irresponsible
that the study was carried out that way because it's a little bit of-
Entrapment.
You said it, not me.
Could be.
I mean, you can balk at either side of this.
I think it's, I mean, I have a lot of frustration in general with the information that budtenders
put out into the world.
Is that what they're called?
Yeah, budtenders.
That's kind of the colloquial term that people will use for someone who sells cannabis at
a dispensary, which is in Canada, and I've heard this throughout the States as well.
I personally have been a huge advocate for the fact that I think, so, you know, I worked
in restaurants and bars and stuff when I was younger.
And for me to serve alcohol, I had to undergo...
I don't know if you do this in the States.
In Canada, you have to do like a...
It's like a weekend course, essentially, called like Serving It Right or some other terminology
where you learn the basics of alcohol, harms, blah, blah, blah, how to tell if someone's
intoxicated, when you have to cut them off, all these things that you have to do to be able to
serve alcohol. I have no idea if this exists in the States,
but it was a thing in Canada.
Bartenders in the US put in the comments on YouTube,
do you have to undergo training about alcohol
to be a bartender?
Even if it's just like an online quiz.
But like, so I, my perspective is because
pre-legalization, at least in Canada,
there was somewhat of, I think, of a misguided thought
that people would leverage their physicians for knowledge about cannabis.
And what's become very apparent is that the overwhelming majority of people talk to the
people selling them the cannabis.
And yet, those people selling cannabis don't need to have undergone any form of education.
And so, like, this kind of kills me because we've worked very hard to try and create educational platforms that
are agnostic in terms of our position on cannabis that
are just based on the science.
I'm an executive director of an organization called the Canadian
Consortium for the Investigation of Cannabinoids, the CCIC.
And we've done CME courses for physicians
to try and train them about cannabis
because I think it's important that physicians understand
this.
But I've tried suggesting that I think that anyone selling
cannabis should undergo a course
like this, just so that there's some consensus in the informed level that someone who comes
in because a lot of people going to buy cannabis are quite naive about it.
And they just mean even when we're talking about dosing, what we've talked about with
edibles or smoking or how people consume it, like you need to have a reliable source of
information at the front line that is able to relay that to people.
And it becomes very frustrating to me
that they have become the main source of information
that people go in.
I'm uncertain of what their level of training is.
You're certainly doing your part to provide
the public education about cannabis now.
So we all appreciate your highly informed
and broad distribution of this information
because this is also an issue with psychedelics, which currently don't have legal status in
the US.
This is an ongoing process of whether or not it will.
Right now, things are really on the teeter totter with MDMA where we await the decision
from the FDA, but the early recommendation to the FDA was to not approve MDMA as a treatment
for PTSD. That's sort of today and mid to late June MDMA as a treatment for PTSD.
That's of today and mid to late June 2024.
We'll see what happens.
But this is also the case for ketamine, which has legal status, but many people are accessing
ketamine not through a physician, but through online sources.
So what you're speaking to here is a much larger issue.
And I absolutely agree with you.
I think most people are probably not aware, except by experience, positive or negative
in some cases, about the differences in blood concentration as it relates to number of tokes
versus concentration versus edible.
These are critical themes, especially for where we're going to go next, which is all
the discussion about high THC and psychosis.
Yeah, exactly. especially for where we're going to go next, which is all the discussion about high THC and psychosis.
Yeah.
Yeah, exactly.
So I think that I just wish, I mean, again, even if this was just like an online course
that wasn't that much, but at least had some consensus of information that was the basics
about how to have conversations.
And I mean, some of the, our system at least is somewhat provincially regulated.
So like, our organization has worked with like the Ontario group that
deals with cannabis distribution,
like the OCS, which is Ontario Cannabis Stores,
and helped to create some information pamphlets
and stuff.
Again, it's not the same as a teaching course,
but at least it's like these little infographic stuff
that kind of like gives people rough breakdowns of things
and kind of gives you a little bit of information
about dosing and understanding things,
like especially with something like edibles,
how long you should wait, just stuff like this.
Sounds like the take home message is
proceed with caution, you know, low and slow.
I mean, that's the, yeah, the, I mean, we have-
Don't ingest too much too quickly, like really,
if one is going to explore this legally, of course,
take a little bit, wait, take a little bit, wait.
Because otherwise, you're going to get the,
who was the reporter?
I think it was Maureen Dowd, but I don't know.
Actually, when I say that, maybe it was.
Is she still on the floor in a Colorado hotel?
She may have recovered by now.
Reporting from the floor in Colorado.
But like, yeah, it can become very frustrating.
It's just the kind of lack of understanding that exists in this space.
And so I think this is one of the reasons why we've really kind of tried to push the
public health side of this a lot more.
And we have, I mean, there was the Center for Addiction and Mental Health in Canada,
which does a lot of the organization of these things.
They did kind of put together what I found to be really useful, which again, could be
leveraged in the States.
These are all accessible online.
It's called the Lower Risk Cannabis Use Guidelines.
They kind of tried to create a framework that
is similar to how people have done stuff with alcohol.
That just kind of goes through.
And a lot of it is this low and slow approach.
But it's like, obviously, you want no risk.
You abstain.
If you're going to use, these are the different ways
to engage in harm reduction.
Obviously, oral consumption has, you avoid the issue of lung damage that you could get
from smoking.
But then with oral consumption, you have to be aware of dosing and timing and all these
other considerations.
What about vaping?
Can people self-regulate their THC concentration in the blood by vaping as well as they can
by joint or bong or other form of smoking?
I think that will depend on exactly what you're vaping.
In the states I've noticed when people say vaping, they almost exclusively refer to some
kind of oil-based product that's in a pen.
In those situations, that's going to really heavily depend on what the concentration of
THC in that product is.
The other form of vaping that I think is a little bit more common in Canada maybe is
vaping of the plant matter itself.
And so this is where they have like a vaporizer device that heats the cannabis to a point
that will essentially hit the lift point to vaporize THC and the cannabinoids.
Yeah, the big bag.
Yeah, yeah, like a volcano.
I've seen it.
Yeah.
But it doesn't create any plant combustion.
And so there are studies that have been run on that that have shown That you avoid the combustion byproducts. So people don't like exhale carbon monoxide or these other things that we know can be damaging
If they're vaping plant matter that was actually somewhat approved as like a medical device
Pre-legalization when Canada cannabis in Canada was only under medical authorization
Because of the reduced harm associated with vaporizing the plant matter versus smoking it,
that is, I would say, a safe guideline for harm reduction that if you're going to try to avoid,
there's still going to be some issues that happen with vaporization of plant matter,
but it's not the same as combustion.
So you avoid some of the other issues that come out.
When we're talking about oil-based vapor products or whatever they're in,
they're usually in some kind of oil-based solution.
Who knows?
I mean, we don't have the research on this.
Like we just don't know.
I mean, we certainly know,
like there had been some pretty big errors
of like the things that happened in the States.
Like there was that problem where all those people developed
kind of, I don't know, popcorn lung
or that lung inflammation where several people died
from vaping products, which seemed to be like a byproduct,
I believe, of them adding like vitamin E acetate
or something into the,
because again, everyone just assumes it's inert,
but then when it combusts through the vaporization process,
it creates a massive irritant on lung tissue.
And so that was just, you know, again, in my mind,
this is a problem with a lack
of a federal regulatory um, regulatory framework because
stuff like this happens.
You, you would not see that on a federal landscape
because you would have to go through testing.
Like people, it's kind of the wild west you get
down here.
Every state has its own rules.
People, there's not really a lot of like regulation
of things.
But if you go overseas, it's even more wild.
I mean, I mean, then you have no idea what you're
consuming anywhere.
I would say just because outside, I mean, again,
Netherlands is a little bit of a different situation.
They're not legal, they're decriminalized.
I don't know how well the regulation over there
of the product is.
You know, we're gonna be doing episodes on stem cells
and you got people flying out of country
to do some cell injections.
People are getting them down in Florida
who went blind from the injections of stem cells
into the eye in an attempt to save
what little vision they already had. Probably don't want to get me started on
that one. I'm in total agreement with you, by the way. I want to make sure that I ask about
psychosis and paranoia. I've previously said, and I wasn't joking, but I have observed in my history that when people
started to experience some degree of anxiety or paranoia when smoking cannabis, that sometimes
the message they would receive back is to take more, to just adjust the subjective experience.
I think that's a terrible idea.
Terrible idea. I am baffled that you heard that. I think that's a terrible idea. Terrible idea.
I am baffled that you heard that.
I have no idea who on earth.
I did more than hear it.
See, I've observed it many times over.
I cannot even understand that.
That is the strangest thing I've ever heard, but okay, yeah.
Well, usually the advice of people in terms of,
that was recreational drug taking,
is rarely excellent advice.
Yeah, no, no.
That's, that's, no, no. That's-
So, yeah.
I didn't-
I mean, I agree with you on that point for sure that you should not be consuming more
if you're having a bad reaction to it because that will just grease the wheels going downhill
for sure.
Yeah.
I also am aware that there are some very high profile papers that have been published in
the last, really five years or so pointing
to potential increased risk for psychosis of lasting duration even after the effects
of cannabis have worn off in high THC cannabis users, in particular high THC cannabis users
that initiate that cannabis use young and this might be preferentially impacting males.
I want to make clear that what I just said is not a statement of absolute fact.
It's my understanding of the conclusions of these papers.
There are other conclusions in these papers also, but that particular conclusion seems
to be important enough that they place it in the abstract and it's reached major press
headlines. So I guess the simple question,
which probably doesn't have a simple answer,
is does THC cause psychosis?
So yeah, there's not a simple answer to that.
And I think that also is a question over
whether you're talking about
acute drug-induced psychotic episode
versus the development of a chronic
psychotic disease like schizophrenia.
So the first arm of that is just,
can people acutely have a psychotic episode
to THC or cannabis?
And the answer to that is yes, it's not common.
I would say in terms of adverse events
that happen with people consuming cannabis,
it's on the rarer side, but it definitely can happen.
So less than 5% of people that-
Much less than that.
I mean, and certainly, I mean,
if something like this was happening at a regular frequency,
it would be very well known.
What about anxiety attack?
Yeah, anxiety attack is, I'd say, more of a standard indication that someone's kind
of gone overboard.
Like that's not-
Dosage overboard, or does it carry the same set and setting considerations that psychedelics
like psilocybin have?
Both.
So I think there's some contextual component to it.
There was like, I mean, back in the 70s when they did more, let's say, interesting studies,
there's one where basically they dosed people on THC and then had them undergo oral surgery,
which seems like in hindsight, a very bad idea.
And I think virtually everyone in that study had a panic attack.
So it really potentiated the stress of what they were undergoing.
And had they been given that same dose in a different setting,
I'm not sure it would have evoked that kind of response.
But there is definitely a dose effect to this in terms of like, you know,
the kind of classic low dose aspects of THC or cannabis,
that are usually considered more the positive, pleasurable responses that
are why people use, like it reduces anxiety, it relaxes, blah, blah, blah.
That is more of like a low to normal-ish dose, let's say, of what someone consumes to produce
those responses. If they start going upwards though, it's not like it's graded, it's like a
full flip. It's not linear at all. It's almost like it goes in the opposite direction.
So someone can use cannabis to reduce anxiety, but then cannabis can also trigger anxiety
in other people and even in the same person if they consume too much.
And a lot of this, at least we think, has to do with the ability of it to regulate both
excitatory neurotransmission and inhibitory.
And so for reasons that we don't totally understand,
there's like way more cannabinoid receptors
on inhibitory neurons than there is on excitatory neurons.
But in the early days of creating the genetic lines,
Giovanni Marciano and Biat Lutz were over in Europe,
created like deletion of CB1 only from excitatory neurons
or only from inhibitory neurons.
Okay, so to just clarify for people, these are laboratory mice that are genetically modified
so that they contain or lack specific receptors on particular neuron type so that researchers
can parse the effects of THC on what we're referring to as inhibitory neurons, which
quiet other neurons versus excitatory neurons, which excite other neurons and so forth.
And in doing so, to understand some of the network biology, which is basically impossible
to do in a typical mouse, what's called a wild type mouse or a human because when one
ingests the drug or when the mouse is given the drug, it affects any site in the brain,
potentially any site in the brain where the CB1 receptor is expressed.
If you do like a full body deletion of CB1 and you give a mouse THC, it doesn't respond
to it at all.
Not surprisingly.
That's a comforting experiment.
You want to see that result.
Yeah, exactly.
So that's how we know CB1 drives all the kind of psychoactive effects of THC.
So if you delete CB1 off of inhibitory GABA neurons, even though that removes like 70%
of the CB1 receptors in the brain, those animals look just like wild type.
They still exhibit all the classic signs of intoxication in terms of how they would respond
to like pain sensitivity or locomotion or these other assays we use in mice to tell
if they're high. If you delete the CB1 only off of excitatory neurons,
the glutamate neurons, then you see what looks like
the full knockout.
So now the animals don't seem to get high.
So even though the majority of CB1 receptors seem to be
on these inhibitory GABA neurons,
it's the CB1 on the glutamatergic excitatory neurons
that mediate most of the classic signs
of what we would consider intoxication from THC or cannabis.
But what's interesting is, Biat worked with the Spanish group 10, 12 years ago, then they
showed they're looking at anxiety, that if you delete CB1 only off of excitatory neurons,
you lose the anti-anxiety, anxiolytic effects of THC, but you still have the, you know,
panicky anxiogenic effects of high dose. If you delete CB1 off of only the
inhibitory GABA neurons, you still have the low dose anti-anxiety effect, but now
you don't have the high dose anxiogenic panicky effect. So what that was
suggesting was that for some reason CB1, like TH THC will initially hit CB1 on kind of glutamatergic
neurons and essentially the thought is this will reduce excitatory transmission and probably
quiet down circuits.
And if we're talking about something like the amygdala, this is probably how it's reducing
anxiety.
Whereas, as dosing starts to increase and you start to saturate the CB1 on the GABA neurons and turn off inhibition,
then the network effect is more of an amplification,
and that seems to result in the development of kind of an anxiogenic pro-anxiety response that's obviously undesirable.
Why there's this differential shift? It's not exactly clear.
I mean, it's probably either due to some of the biology of exactly where the CB1 receptors sit on excitatory or inhibitory neurons relative to all the machinery that
regulates transmitter release. I mean, Biat-Lutz has definitely done some stuff looking at
the ability of cannabinoid receptors to evoke signaling responses in a cell. And on glutamate
neurons, they're much more sensitive than they are in gabineurins, so there's probably
a dose threshold. So it does look like this kind of low dosing, what most people are trying to achieve, I
would assume, when they consume cannabis is probably these effects mediated by quieting
down excitatory transmission, and then the adverse effects when someone consumes too
much and they have a negative response, that's probably due to the higher dose starting to
saturate on the inhibitory neurons.
Now we obviously can never test something like that in humans because we can't know.
But based on what we've seen in animals, that's my theory of kind of how this is working and
why we see these kind of classic biphasic effects.
So yeah, too much THC, not a good thing because then you start maybe disinhibiting things
like the amygdala and producing these kind of panicky, angiogenic-like outcomes. On that scale, though, I mean, paranoia, obviously,
that's a hard, I don't know how you study that in a rodent.
I mean, that's just a strange thing.
But I mean, that's kind of the precedent
of when you start going into the psychosis,
because obviously paranoia would be a big component of that.
Someone once asked me a question about, you know,
what happens in the brain imaging-wise when someone's
having a psychotic episode from cannabis.
I was thinking, how would that study get done?
Probably on accident because somebody takes cannabis, is in the scanner, and then starts
having a psychotic episode.
But chances are they're going to try and get out.
For those that don't know, I don't want to scare people out of doing MRI or fMRI, but you know, you're typically told to stay
extremely still. There's sometimes even a bite bar, you know, like this is a very controlled
environment, not, not an environment that you would want to be in during a psychotic
episode.
I can't actually even imagine how that would go down. So I'm like, this is something I
don't think we're ever going to have an answer to because I don't think, I don't think you
can actually ever test it. But in terms of people having this kind of psychotic response, it is pretty rare.
I mean, and I say this because I can think of in Canada, kind of whenever it's happened
and someone has actually done something wildly unpredictable because they've had a psychotic
response to cannabis, it tends to make headlines.
So it's not common.
I could not give you an actual number, but it's certainly not a frequent thing because
we would hear about this a lot more if we did.
Aaron Powell And there's also the issue of polypharmacology,
which is simply when people take one drug, then there's often the tendency to take another
drug either because it's available in those conditions or because their threshold to saying
yes is a little bit lower.
Do most people who take cannabis and achieve the high have a tendency to do other drugs?
It doesn't seem like a drug that people combine with a lot of other drugs.
I wouldn't say... I mean, there's certainly cannabis is used in tandem with other drugs,
alcohol, psychedelics at times for sure.
But that being said, I mean, there is clearly a population of people that use
cannabis as their only drug that they use.
I don't think that's that uncommon.
But in the context of the psychosis stuff, I would definitely say, sure, if someone mixed
it with amphetamine or something, you could have a very unpredictable response.
But I mean, I think the psychotic responses that have been documented are usually purely
due to cannabis.
Like it's not necessarily due to some kind of drug interaction there
There is something about the way that cannabis is changing the way the brain functions in a way that for people who seem to be
Prone to this they can have a psychotic response. I again, I don't think it's a very typical thing
But we're talking about what that means in the context of like an actual disorder, like a chronic disorder, like schizophrenia, which is characterized by psychosis.
I think we're talking about a whole different ballgame here.
And this is an area that is, I mean, I think it's an important thing to discuss in the
context of science because you can't establish causality.
Like in my view, it's virtually impossible because there's just no way to control all
the variables
that play into this.
What we can say definitively is individuals
who have schizophrenia, first of all,
they use cannabis at a higher rate
than the general population.
That's very clear.
Yeah, they definitely use cannabis at a higher rate
than the general population.
There is definitely a relationship
between using cannabis and having the initiation of
the development of schizophrenia.
And this is where a lot of the statistics that have been used to develop the risk assessment,
essentially, like so that you have a greater risk if, you know, like you were saying, if
you've used cannabis as a teenager, you use high potency, as a lot of the research has
shown, though they've done these studies and they say it relates to a greater risk
of schizophrenia.
Essentially this is just a statistical association that they found that people who use cannabis,
the conversion into schizophrenia happens at a higher rate and there's more people
with schizophrenia who are using cannabis.
Is there a bias towards males developing psychosis? I know there may be a bias initially toward males in schizophrenia that could confound
this, so we want to be careful.
To be honest, in all the literature I've read on this, I don't ever remember there being
clear sex descriptions of the differences of males and females.
I mean, again, historically, cannabis was more used by males than females, so that could lean towards any bias
that may be out there in the media,
the popular, like just in general, what people talk about.
I can't think of any study that I've ever read
that explicitly said this was male bias per se.
They usually just report numbers or proportions of people.
The issue is, so yes, there's this relationship that exists and yes we know that cannabis can trigger psychotic episodes. So if there's an individual who has
schizophrenia, we know for certain that cannabis can lead to the onset of, you know, increases in
positive symptoms like hallucinations and delusions and a full-blown psychotic episode. So I think the first thing to say, which is very clear,
is in my view, if someone has schizophrenia, cannabis is contraindicated. Like you shouldn't
be using cannabis if you have schizophrenia. I think that's a risk across the board.
What about a first relative who has schizophrenia? Because there's a strong genetic component to
schizophrenia. So I was going to say then the next question is knowing who's going to develop schizophrenia.
Obviously we don't know this.
And as you say, the only real predictive variable that we know of is a first degree family member
that has schizophrenia means that you have a higher risk of developing schizophrenia.
So again, same with bipolar.
I would say if there's bipolar or schizophrenia in a family, to me, those are the people who
should avoid cannabis.
Just in terms of the likelihood, there's a much greater likelihood that they'd have,
it would relate to the onset of a disease or could accelerate its presentation in some capacity.
I think where things get really complicated in this whole cannabis schizophrenia story is the causality.
And there is a camp of people who have looked at this literature and definitively believe
that cannabis causes schizophrenia.
And they attribute a proportion of people who have schizophrenia to only having that
schizophrenia because of the fact that they used cannabis.
And I think you'd had some discussion about this in the last podcast.
I can't remember exactly the way that you described it. Yeah, I was looking toward some of the recent studies
in Lancet, JAMA psychiatry.
I believe we can provide links to these again.
And now more recently, there's been a lot of,
let's just call it mainstream media coverage
of this potential, I think is the right way to refer to it,
potential linkage between adolescent, teen,
and young adult use of high THC cannabis
and lasting psychosis.
But the more I hear you talk about this,
the more I'm wondering if that idea is being amplified
more than perhaps we ought to let it be amplified.
I mean, I think this is what happens when you have,
I mean, obviously you're familiar with this in science,
there's different,
there's some things that we can be
a little bit more definitive about,
and then there's some things
that we just can't know for certain.
It's just the way it is
because of the way that we gather data
and because of the way humans are,
and this isn't a question I believe we can ask
from an animal model perspective in the same capacity.
So I don't think anyone would deny, at least anyone who's read the literature,
that there's this relationship between cannabis use, especially in adolescence,
and the development of schizophrenia. Now, my perspective on this is, and I'll explain why I
have this perspective and how I justify it, is to me, cannabis is fuel on a fire. So if someone is
prone to developing schizophrenia, adding cannabis into the mix, I think will
make it kick in faster and harder.
So if there is a genetic vulnerability for developing schizophrenia or some biological
predisposition that's there, I would say in that situation, cannabis can trigger an initial
onset of the first episode and it can make the prognosis of the disease in the long term a lot worse, let's say.
As I recall, and I may have this incorrectly,
but as I recall from my undergraduate years,
what you just said is also true for military service,
for people that have a predisposition
to develop schizophrenia,
that active military duty can exacerbate it as well.
I mean, I've never heard that, but that would be a stressor and stressors are other ways.
I mean, a lot of, you know, the situations where, I mean, some of it's the age, but like,
you know, for example, if someone is prone to develop schizophrenia, they move way to college.
Even that stressor can be some of that brings on an episode. But cannabis, very specifically,
like different than any other drugs, like alcohol or cigarettes,
as far as I understand it at least, the temporal relationship between cannabis use and the
development of a first episode can be pretty linked.
But the arguments that I've always had with people in this area who are very definitive
on their end of the spectrum that this is a causal relationship is, first of all,
we have a few things that I would leverage
as kind of real-world evidence that makes this questionable.
So the first one is, like I was saying earlier in the episode,
I mean, we really didn't have cannabis use in the West
as a normal thing, as one of the drugs that
was part of the repertoire of what people use recreationally,
until the 60s.
So unlike alcohol, which has been there for centuries, we have a little bit of a before
and after what we can look at.
The Grateful Dead.
Yeah.
So now granted, we don't have like really good prevalence data of what schizophrenia
was in the era prior.
I mean, even nowadays, our prevalence data is not perfect, but if cannabis as a solitary
variable was driving the genesis of schizophrenia de novo, in the absence of any kind of biological
predisposition or genetic predisposition, I find it very hard to believe that we wouldn't
have seen a shift in the prevalence of the disease as cannabis became more mainstream
and more widely used.
And generally, schizophrenia rates have remained largely stable. People
can make arguments about that, better care, other things to challenge that argument, sure.
So another modern perspective would be, okay, well, let's look at Canada and the States,
let's say, where we have, as I said earlier, teenagers in Canada and the States, by grade
12, 35 to 40% of teenagers have at least used cannabis, somewhat sporadically, and somewhere around 5%-ish
are probably using almost daily.
So we have a concentrated group
of what would be the high-risk population here
that are using at a pretty high rate.
And then we compare that to somewhere like,
let's say, Norway or Sweden
or any of the Scandinavian countries
where cannabis is like not a thing.
Certainly not at a recreational level and not in teenagers.
And I mean, the rate use rates there are probably under 5% globally for teenagers, like probably
closer to 2 or 3%.
So you have two countries that have pretty similar social structures and other capacities
of things.
We're both Western countries.
And yet, our schizophrenia rates prevalence wise are relatively comparable.
And yet, in Canada and the States, our cannabis use rates in adolescents are wildly amplified compared to those countries.
So again, if this was causing schizophrenia to develop as a disease out of nowhere, how
would that not track?
How would that not be seen when you just look at individual variances across countries and
prevalence rates?
Yeah.
I hear your point loud and clear.
I seem to recall that there is a higher incidence
of schizophrenia, independent of cannabis use,
closer to the polls, and less so at the equator.
I don't know if those statistics still hold up, but-
I have no idea.
Okay.
I don't know.
It'd be interesting for us to look into that
because then it would argue that, you know,
since, you know, we're comparing very Northern locations
to less Northern locations that perhaps cannabis was,
you know, sort of exacerbating the-
Yeah, I mean, you could probably use Greece or Italy.
I mean, they're going to have cannabis use
higher than Scandinavian countries,
but it's going to be way lower than North America still.
Because it's just-
What is it about North Americans and cannabis use?
I have no idea. I mean, I think it's just part of the culture about North Americans and cannabis use? I have no idea.
I mean, I think it's just part of the culture here.
It's just evolved totally differently.
The Grateful Dead.
No, I'm just kidding.
I'm not picking on the Grateful Dead.
I like the Grateful Dead.
Rick Rubin convinced me to start listening to them again because my sister used to listen
to them, and there's some great songs.
And they're from Menlo Park Palo Alto.
So I've done my duty to listen.
There's some great songs.
So I'm not picking on them.
But-
But I mean, like you also have, like in Europe though,
alcohol is also much more normal, normalized in general.
Like kids will drink, it's not abnormal for kids
who are teenagers to drink out.
Alcohol is just much more of a cultural thing as well.
And there are just differences.
I mean, it's the same thing.
You look at like the opioid crisis that we're going through.
It's sure, it's there to some degree in Europe,
but it's nothing like it is in North America.
We are just a different beast for a lot of drug use.
Do you see differences between United States and Canada with respect to either cannabis
or opioid use?
I don't think dramatically.
I think we're pretty comparable from, I mean, for cannabis rates, I would say they're almost
the same.
I've not seen, sure, you might get some regional differences.
Like we, I think Quebec has much lower rates of cannabis use than some other parts of Canada.
And you guys probably in some southern states maybe are a bit different than other states.
So I don't know about that.
But again, overall at a federal level, I think the, which is where most of the data aggregates,
I would say that they're pretty comparable with each other.
So they're not wildly different at all.
And again, even if you talk about climate, a lot of the US is a lot warmer than Canada
and you guys are certainly closer to the equator than we are.
So I mean, we know like you do see higher rates of schizophrenia in urban settings than
you do in rural settings.
And so, I mean-
This is a stressor argument.
Yeah.
There's other, I mean, you also have more like, there's just, yeah, there's a lot of
transitory populations that come in and out of cities that you don't see as much in rural
communities.
There's a lot more mental health services.
There's other variables that can influence that.
And no one's really, I think, sussed out a mechanism to explain why you see that.
So there are things that shift across places, but I don't think it has anything to do with
the rates of cannabis use.
And I mean, the other thing that became very interesting in this whole debate over the
last 15-odd years that people have really been talking about this a lot more
is the fact that there's also been several studies now
that have done genetics either at the GWAS level
or just even just looking at polygenic risk scores.
And there's at least three papers I can think of
off the top of my head that I could put the citations down
for for sure after this that do look at this
from a somewhat let's say unbiased perspective where they
see there's certainly some genetic architecture that relates to people either initiating cannabis
use or people developing cannabis use disorder.
And there's clearly some genetic architecture that relates to risk for schizophrenia.
And what these studies have found kind of across the three of them, was quite similar, which was from their analysis,
the directionality suggested much more
that having genetic risk for schizophrenia
predicted cannabis use,
more so than cannabis use
predicted the development of schizophrenia.
Interesting.
So what that would mean is that
there is some underlying biology
that might be shared between a biological vulnerability to develop
schizophrenia and some factor that relates to people using and or liking and or excessively
using cannabis.
I've spoken to many psychiatrists in an effort to find someone expert in ADHD.
We've done two episodes on ADHD focusing on everything from behavioral to nutritional,
but also prescription drug treatments for ADHD.
What's interesting is that all of them have relayed the fact that many people, not just
young people, but adults with ADHD will often use, not necessarily abuse, but will use stimulants
like coffee and other forms of stimulants to a high degree.
Then of course you can say, well, perhaps the stimulants are causing ADHD, but they
actually argue for the opposite, which is that people are attempting to self-medicate.
And then it's perhaps no surprise that most, not all, but most of the medications that
are approved for the treatment of ADHD are variants of amphetamine or similar.
So it's another case where, you know, depending on whether or not you look through the lens of the drug
leading to the condition or the condition leading or through the lens of the condition
leading to the use of the drug, you can end up in two very different places, but it looks
exactly the same through each lens, so to speak.
Yeah.
I mean, and this is... I've debated with other researchers in the area in print and in person about the different interpretations of this.
And one of the possibilities is, again, the idea of self-medication.
I mean, independent of there being some underlying biological thing that just is a third variable
that explains the relationship between cannabis and schizophrenia, the other possibility is
self-medication. And there are some studies that suggest this
and others that don't support it.
Anecdotally from having done work in the community
and talked to individuals who have schizophrenia,
who use cannabis, what their perspective on it is,
what I've heard from a few of them is,
the medications that they're provided
to manage the disease are relatively effective
at managing, let's say, the positive symptoms,
like hallucinations, delusions,
that aspect of the disease is somewhat well managed.
But then there's another component,
which is the negative symptoms,
which is kind of like things that, you know,
avalitions, they don't like engaging in stuff.
There's some anxiety, some depression,
some social withdrawal.
And a lot of the medications
don't manage that component of the disease and they have said that they find cannabis
helps that side of it or it helps them de-arouse a little bit.
Even though a lot of them recognize it may trigger the development of some of the positive
symptoms, they feel that they don't have any tool in their kit to manage the negative symptoms.
And so it could be, in my mind, when I look at that, it could be a bit of a vicious cycle,
where someone's using it to kind of band-aid one aspect
but making other aspects of the disease worse at the same time.
So it can get very complicated.
But so, I mean, there are various ways of looking at this
in terms of, you know, so it's either you could say
there's a causal argument, which is made by many,
saying cannabis causes schizophrenia,
and therefore if we eradicated it, I think you had alluded to something like that in the last podcast,
that if you removed it, it would have this big effect in terms of reducing schizophrenia
rates.
And that's similar to the argument that a lot of the researchers in Britain have made.
And I'm not personally convinced of that.
And I say that simply because I look at the data from Scandinavia and I'm like, well,
there you have a population that barely uses any cannabis and yet their schizophrenia rates are the same.
So the only way in my mind, if I look at this kind of scientifically from a data perspective
that cannabis could be causing schizophrenia de novo in a subset of people is that there
must be an equal proportion of people for whom for some reason and somehow cannabis
is preventing them from developing schizophrenia so that it's a zero sum game at the end of the day
and there's no change in rates.
I can't actually understand any other model
that could explain this.
Yeah, the way you're explaining it now makes perfect sense.
I do wanna make sure that we distinguish
between schizophrenia like psychosis
or schizophrenia itself induced by cannabis
and manic bipolar episode.
So people who have a predisposition
or full blown manic bipolar,
sometimes called manic depression,
but there's still a lot of nuance there.
We did an episode about this
that people can also find linked in the show note captions.
But in any case, is there any evidence for the fact
that people who suffer from or have a predisposition to manic bipolar conditions like bipolar depression, for instance, should
avoid high THC cannabis?
So, well, first of all, I mean, in heredity family trees, for example, where you look
at something like bipolar schizophrenia, the two do kind of track together.
Sure.
So it's not, I mean, I think it's hard to separate these
in some capacity because, you know,
I remember years ago at Society for Neuroscience,
Glenn Close was one of the,
I don't know if you were at that meeting,
but Glenn Close was one of the,
Yeah, she was one of the public speakers,
and she had talked about schizophrenia in her family tree,
and she kind of put up this family tree of like, you know, her family and the one, the previous
relatives in her family and showed like the individuals who had schizophrenia and bipolar
as well.
And this is something I think that's been seen a fair amount is there is some co-relationship
in the way that these track at a hereditability level.
And so I don't know that area really well enough to be able to comment on it.
And from the cannabis perspective,
bipolar is definitely much less studied and focused on
than schizophrenia is.
But I think also to the comment about the high THC thing,
I think this is the other part of the argument
that's emerged out of this.
And this is the other part where I see a lot of the
causality arguments kind of crumble onto
themselves to some degree. And there's been others who've made these very similar arguments
to what I'm making here, which is the push that came out of this out of the UK, at least,
was much more that it's this high potency kind of skunk cannabis they referred to, which first of
all was based on a smell, which they didn't really had done a lot of analytics on. So people make
the assumption if it smells stronger, it's more potent cannabis.
That's not really true
because THC doesn't dictate the odor.
That's so I was saying more of a terpene thing
but certainly I'm sure some of the skunk cannabis
they were referring to is high-potency cannabis.
And so the analysis on this,
if you actually go back to those papers and read
is they often use like hash or low-potency cannabis
as their control where they show no association
with cannabis.
And so that's what's used this argument that it's the high-potency cannabis that has driven this.
So now the problem with this argument in my view, again, I look for what is the answer that fits in with the data?
Like what's the most parsimonious explanation here that everything can be explained by?
And so the problem with that argument is if you look at the cannabis schizophrenia literature,
everything goes back to this one 1987 Lancet paper out of Sweden where in that paper they
essentially looked at, they have really detailed life records and health records and this was
Swedish conscripts.
And they essentially found that if someone had used cannabis, the risk of developing
schizophrenia had gone up and up.
And so this was based on a cohort of people when it was published in 87 that the data
would have been collected through the 60s, 70s, early 80s.
So we're talking about Sweden and cannabis, where it's not a country that has high cannabis
use rates, and in an era when cannabis was hovering in a 2% to 5% THC range.
That was the initial finding that provided this association between it.
And yet the cannabis in that study
that they would have been referring to
would have been incredibly low potency
compared to what has happened or like what it is today.
So if the argument is that it's only related
to high potency, how would that initial finding
have ever been found?
Because it doesn't make any sense.
Whereas the alternate explanation that others
have put forward, which I agree with and is far more sound,
is that there is some biological reason why individuals
who are either prone to develop or who have schizophrenia
like cannabis and they will tend to seek out
the highest potency product they can get access to.
So in the 70s in Sweden, that would have been two to 5% THC cannabis.
Nowadays, it's higher potency cannabis.
Or maybe they seek out lots of different forms
of recreational drugs,
and cannabis just happens to be one that they land on,
which raises the other question,
which is it's hard to imagine that these people
who develop psychosis, who happen to be using cannabis are only using
cannabis.
It could be, but-
I mean, they also, there's no question there's a lot of nicotine consumption.
I mean, individuals with schizophrenia use, they smoke a lot of cigarettes.
I mean, that's also-
That's well established.
... much higher than the general population rates as well.
Which is known to stimulate dopaminergic and other pathways.
And there could be other reasons.
You know, again, there may be some reason why they like it.
Um, and I think this is something that I think
we just don't understand.
It's a very challenging thing to figure out.
Why it is that individuals that have certain diseases
may like certain substances.
Is it, is it helping them?
I mean, some people have argued that perhaps nicotine,
for example, might enhance cognition
in individuals with schizophrenia,
and that may be why they like it.
I think it enhances cognition in everybody. schizophrenia, and that may be why they like it.
I think it enhances cognition in everybody.
It just carries certain health concerns.
Yeah.
And by the way, it doesn't enhance all forms of cognition, but there is a nice body of
work to support the idea that nicotine delivered in any number of different forms can improve
cognitive function to some extent, but I don't suggest people run out and do it. And in fact, it's one of the more
quickly
abused drugs nowadays because of the
non-smoking delivery routes that are becoming really popular pouches and things.
In fact, I was chewing a little bit of Nicorette gum to kind of do an experiment.
I liked it a lot and then I decided to stop completely recently because it just
it wasn't having the same effect and I found myself reaching for more and that's the time when
I usually back out.
Yeah.
Well, yeah.
Yeah.
Nicotine's a whole other thing which I, yeah.
We'll have you back to talk about nicotine.
I would definitely do not know enough about that to have any kind of informed conversation.
So I don't know, I would say to me at the end of the day,
if I put all the data together, what I would kind of,
the perspective that I have on this is,
for some reason, be it genetic architecture,
biological predisposition, individuals who are prone
to develop schizophrenia also seem to be prone
to use cannabis and use it.
Possibly at excessive levels or possibly at higher
potency products they seek out.
Using cannabis, if someone is prone to develop it, may initiate or trigger the onset of the
disease.
And I think in the long term, it will likely make the prognosis of the disease worse.
So if you were a psychiatrist in a clinic and you consistently see patients presenting saying,
I didn't have psychosis, I used cannabis, now I have psychosis, and it converts into
schizophrenia, I can understand why the association would be made regularly that
there's kind of a domino effect here and causality becomes attributed. But I think when we take a step back
and look at the larger data in its kind of entirety,
to me it's a very tricky argument to make
because there's a lot of things
that you just can't explain from that perspective.
And this is also one of the things
that I find absolutely bizarre about cannabis in general
is it's a wildly polarizing topic of conversation.
And people have incredibly deep rooted opinions on both sides of the spectrum.
And for some reason, if I don't say cannabis is the devil and causes disease, that means
I'm an advocate.
And then on the other side of the coin, if I don't say cannabis cures everything, I'm
a prohibitionist.
So like I'm in this fun position where I get hate mail from both sides and everyone just
generally depending on their perspective thinks that I have a bias kind of going in one way
or the other and I'm very, you know, want it this way or want it this way.
At the end of the day, I'm just like, no, I just like data.
So I'm like, I'm going to try and answer things as best I can with that.
And to me, that's the perspective I've maintained.
And I do think that like these aren trivial questions, because when we went through the legalization
process in Canada, this was something that came up again and again and again, was this
association with schizophrenia.
And in the UK, this is something that comes up again and again and again, because whenever
there's any discussion about the UK moving forward to legalization, these ideas come
back.
And so the public health kind of consequence of this
is not intangible.
And so for people to be making these very strong
causality arguments and having this kind of
opinion that a lot of people just take up,
I think can have a lot of influence.
And so that's why, like, there's literally no reason
I should have a dog in this fight.
I don't study schizophrenia in any capacity. And it's not my area of research,
but because I'm in the cannabis field, I always feel very strongly that we need to maintain
clarity over what the data says and not get caught in these opinion-based arguments. And I feel like
this is one of these areas that has just kind of the amount of people I talk to that regularly
tell me
that they know that cannabis causes schizophrenia
and they're terrified if someone uses it
because it's gonna cause them to become schizophrenic,
I am just kind of shocked by.
So this has clearly permeated the general population
that there's a widespread belief of this.
You know, I think it's because of these
very high profile papers and the way those were picked up
by traditional media.
And this seems to be something that every couple of years there's a resurgence of this
idea.
Clearly people are curious about it.
And so I just want to say thank you for clarifying what is now to me obvious that it could be
that there's a relationship there.
It's clearly not the case yet.
And it may never be the case that there's a relationship there. It's clearly not the case yet. And it may never be the case that there's
a causal relationship there.
And it could just as well be that people
who have a predisposition to schizophrenia
are seeking out cannabis use and engaging in cannabis use.
And I think that's a very important principle
for our listeners and viewers to just hear and understand
anytime we're talking about a substance and a condition.
Yeah, and I mean, I think again, this is again,
no endorsement that that doesn't mean that it's safe
and that that's without harm.
I'm just strong of the opinion that I don't think
individuals with schizophrenia or who have, you know,
first degree relatives should use cannabis
because I think there's a high degree of risk there.
But that's a very different argument than making saying,
cannabis causes schizophrenia
and if we remove it from society,
we'll see drops in rates of schizophrenia.
I don't believe there's any evidence
that actually could support that.
So it's just a nuanced argument.
And this is a good thing about more of a long form podcast
is it allows for nuance.
Yeah, absolutely.
Let's talk about strains of cannabis.
I've spoken before about the Sativa
versus the Indica strains.
And certainly there is a lot, a lot, a lot
of subjective anecdotal descriptions
about differences in the quote unquote effects of those
as reported by users.
When I talked about this before in the cannabis episode,
I leaned on a paper that took those subjective reports
of arguably many, many people, pushed
those subjective reports through what was known about the strains they claimed to have
used.
So this is, you know, people are reporting their use, we assume honestly, but you always
have to assume that there, I guess people could be lying about which strains were misinformed.
And then using machine learning to couple their subjective experiences as they report
them to indica versus sativa strains.
And then by looking at the chemical composition of those different products, because these
were products that they had consumed, trying to tap chemical composition to strain, in
this case, mainly the indica sativa discrepancy to subjective experience.
I know that you and presumably others in the field of cannabis research take real issue
to that sort of approach.
And perhaps I have the feeling this is what you're going to say.
Rest on the idea that we, at least at this point in time,
really can't say anything about the different biological
effects of sativas versus indicas.
And yet at the beginning of the episode,
you said that there are many, many different
cannabinoid compounds in cannabis.
So three questions and I'll keep these very short.
One, do you think that there are different subjective effects of different strains of
cannabis that can be attributed to the different strains, right?
Not just to individual differences in experience.
Then the second is, do you think that there will ever be a time in which we can understand
this plant flower, right, to the extent that we can engineer it to provide specific subjective experiences,
perhaps more positive than negative, et cetera.
And then there's a third question, but I'll hold off.
Okay.
So, yes.
So going back to just the idea with the Indica Sativa thing.
So the Indica and Sativa names, at least from everything I've understood from everyone that
I talk to and being in this field is, those are botanical terms that largely refer to
shape of the plant, the way the bud grows, blah, blah, blah.
They do not track with chemical composition in any way.
In fact, Nick Chakomis has like a lot of analysis of like thousands and thousands
of different kinds of cannabis that have been submitted for kind of biochemical analysis
to understand THC, CBD, terpenes, minor cannabinoid content.
And essentially, his work as well as from all the people who have done the genetics on this is, the variability that exists within what someone calls
an indica or a sativa is greater than the variability
that there is between them.
And there's no such thing as a chemical profile
that exists in something that's a sativa
versus something that's an indica.
Is it possible that there's a chemical profile
that relates to the most common indicas or
most common sativas?
I mean, I think in Nick's analysis, there was like a couple of terpenes that may have
loaded on a little bit on the things that were sativas, but there was tons of sativas
that didn't fall into that bracket.
Okay.
Well, then that immediately to me negates the sort of premise of this paper that I was
referring to that divides according
to Indica Sativa.
And yet the paper is also trying to distinguish among all the different types or products
of cannabis.
Yeah.
Meaning, is there some other feature of the cannabis plant that does relate to these different
subjective effects?
Because people do seem to get different subjective effects from different products that relate in some way to things
other than the concentration of THC.
Yeah.
I would, my honest opinion is this is expectancy bias.
This is all expectancy bias.
I mean-
I see.
So they purchase something that they think is going to make them calm and it makes them
feel calm.
If 20 people tell you that taking this makes you calm, you cannot remove your expectation
bias from the fact that when you consume it, you feel calm.
And this has been, I think, one of the most common things with cannabis is this whole
area is so ripe with these expectancy biases that people have about what they assume.
If someone goes into and a bud tender tells them, this is a sativa, it's going to energize
you.
There's no way to remove that expectancy bias from what you get.
And I mean, like, from talking to a lot of people
that kind of study this more explicitly,
they always say the biggest predictor
of what someone feels when they consume cannabis
is what they're told on the label it's gonna do to them.
I mean, and a lot of this...
That's pretty wild.
It speaks to, you know, I did an episode
on the placebo effect.
And a lot of people hear placebo effect,
and they go, okay, well, then everything's a placebo. The placebo effect is amazing. There's an episode on the placebo effect. And a lot of people hear placebo effect and they go, okay, well then everything's a placebo.
The placebo effect is amazing.
There's dose response to the placebo effect
of nicotine on cognition.
Dose response, if you're told you got a high dose,
when you actually got a low dose,
you will exhibit the high dose
neurocognitive enhancement effect.
And by brain imaging, it shows a high dose-like enhancement
of the relevant brain areas.
In other words, the expectancy drives changes in brain activity.
It's across the board.
I mean, again, this is not unique to cannabis in any way.
It's just cannabis is so ripe for this because of the lore that it just exists.
People say this.
I mean, the issue has been, and I just asked Ryan Vandrie this, as far as I know, I don't
believe there's actually ever been a clinical trial that has
blinded people and given them sativas or indicas and actually had them predict what they are
or been able to characterize any kind of phenotypic description of what that intoxicated state
feels like.
And because all the, like the paper that you were referring to, where it was users who had got the product,
they can't remove their own inherent biases from their own experience.
It's going to influence it.
There's no way around it.
And so people kind of lean into this, and probably not consciously, but the amount of
people I've talked to that really genuinely believe this to their core, that Sativa does this and Indica does this, is fascinating
to me.
Because again, you have these two, THC is what drives the high.
That's very clear.
You can take a Sativa and Indica that have virtually identical levels of THC, and yet
people will report very different intoxicating states that come out of that.
Do you think this also explains the lore or perhaps it's real that different alcohols
produce different drunks?
I mean, I've heard of, I've got friends who will swear that whiskey makes them feel aggressive
and vodka is mellow and white tequilas feel different than the other tequilas.
And for people listening to this, they go, okay, well, that's not science. I agree. That's not
science. That's just anecdote. And yet the chemical composition of these different drinks is
different, but ultimately we're talking about alcohol, right? Different sugar contents,
different hangover propensity. I mean, I have to believe the majority
that's an expectancy bias.
I have a hard time believing that these things
are really driven by fundamental biological differences
within, because anything else that's,
I mean, that's the thing, like, sure, some of the labs now,
there is a movement to start looking at,
can certain compositions of other things in cannabis
start to maybe modulate or influence?
This is called, like, think I've said this before,
the entourage effect, this idea that THC alone
might do one thing, but then layering in other terpenes
or minor cannabinoids may influence that effect.
That is a theory, that's not a thing that we know
definitively in any way, and in fact, there's virtually
no research that's ever been done to test this.
There's some stuff that's starting to come out now,
like Ryan Vandrie at Hopkins recently published a paper
where they kind of in a dose dependent manner
added limonene, which is one of these terpenes,
like I said, I think gives it like a citrusy odor
into the THC and did find that a really high dose,
probably a dose that I don't think you could actually find
in cannabis, it's a little bit higher
than what you would have gotten there,
but limonene did seem to be able to curb the ability of high-dose THC to make someone feel anxious.
And this was done in a blinded manner, so there's, I think, some validity to the interaction. Whether that's occurring in cannabis, naturally could actually influence a component of the intoxicated
state in a blinded manner, I think is interesting.
And Ziva Cooper, who's here at UCLA, is doing some work with beta-cariophylline, which is
probably the second most abundant terpene, I think, from Nick Giacomas' work.
I think Mersene may have been the highest prevalent terpene across all types of cannabis.
Beta-cariophylline is probably the second, and limonene, I think, is probably the third.
And so, I think they, I mean, and so they're looking at,
I think Ziva's work is in the context of pain.
So they're trying to look at if a fixed dose of THC,
if you add in varying levels of beta-cariophylline, does this influence this?
So, because again, you do see this in patient communities where they say,
well, this strain helps my pain better than that strain.
And so it's like, okay, is there actual legitimacy to this?
Or again, is this just an expectancy bias
because someone who sold this to you told you
that this strain is better for pain.
And the problem is these are all subjective endpoints.
I mean, this is like pain, sleep, anxiety.
These are all, and it's how someone personally experiences it.
We know from all the clinical trials that study
pain, sleep, and anxiety, there's massive placebo effects
that happen in all these conditions.
And so it's very difficult to actually make any kind
of sound statements about this in the absence
of there being kind of clinical trials
that have clearly started to do this.
But it's like, as you can imagine,
when you start doing the math,
given the amount of terpenes, the amount of combinations
at different levels, how overwhelming this could become.
Because maybe you know there's a few that you need in there
that interact with THC, not just one.
There is like a lot of work that's happened
in the last few years that has really started
to try and look at if these terpenes or minor cannabinoids
act at the cannabinoid receptor, which none of them seem to.
So this isn't like you've got things that modulate
how THC is binding to CB1.
If they're doing something else, it's probably through an interaction with another neurochemical
system that's influencing what THC is doing. So I'm not against the idea that like different
chemovars or what people call strains of cannabis could do different things subjectively. I just
am remiss to believe this
until I see some blinded data,
because I think outside of that,
we know how powerful an expectancy bias is.
So it makes it very, very challenging
to make any kind of firm statements.
And so kind of in the context of like how you introduced
this, that was, again, I think like one of the issues
that I took with the other podcast was because,
as you've said, I understand the thought process you went through.
You had this paper where people were reporting subjective effects.
There's some neuroimaging data that's been done with cannabis.
You said, okay, this is what that was, and that was what Sativa did, versus this is what
Indica did.
I think it's important that you explain that, because I do think that-
Well, that's what the data pointed to.
But now what I'm realizing is that anytime we're talking
about cannabis, because of the 70 plus cannabinoids present
that could modify or join, so work in parallel
with the effects of THC, we're really talking
about polypharmacology.
It's not a pure substance.
It's not like giving anandamide.
Or it's not like adjusting levels of endogenous anandamide.
This raises, I think, an equally important issue
for us to resolve, which is CBD,
which we didn't talk about earlier.
Nolan Williams, who's a psychiatrist,
he's one of these phenoms,
triple board certified psychiatry neurology,
colleague of mine from Stanford School of Medicine,
who mainly works on ibogaine and transcranial magnetic stimulation.
But we talked about cannabis a bit when he was on the podcast and he mentioned a strain
of cannabis that is available in Colorado, which is pure CBD.
I think it's called Charlotte's Web.
And the parents of children who have epilepsy will move there or go there just to get this
strain because it seems to help their epileptic seizures.
Yeah.
I mean, I would say that's definitely not true nowadays.
That pre-legalization anywhere outside of Colorado, that was true.
People were gravitating there towards it.
Yeah.
So the questions are, could you tell us a little bit about the biology of the CBD receptor,
mainly as it relates to CB1 or not?
Does it bind CB1 as well?
If not, how is it working?
And you mentioned that people will not report any subjective effect of taking a pure CBD
compound, so lacking THC, but it sounds like it may have some usefulness for treatment
of epilepsy, and what are some other established,
meaning clinical trials and or lab data
to support the use of CBD for any type of either,
you know, psychiatric condition, pain, et cetera.
So, I mean, the first thing that's interesting
that I think a lot of people don't understand about CBD
is CBD like doesn't really exist in any form of street cannabis
and it hasn't for a very long time.
You mean there's no CBD in there?
There's some, there's very, very low levels of CBD.
And the reason that is, is because THC and CBD
are both made from the same precursor molecule.
And which direction it goes in is based purely
on which synthetic enzyme converts it to either THC or CBD.
And so as people have clearly chased THC and wanted cannabis that's rich in THC,
and so cannabis has been bred to become higher content in THC,
by default, CBD has been bred out of the plant.
And it has largely been bred out of the plant for quite some time.
And so this, I always find it interesting that there's this community that's like, oh,
well THC is the recreational cannabis and CBD is the medical cannabis.
And I'm always like, that's bizarre because historically there's always been like THC
has been what people have bred cannabis for.
And so kind of any medical benefits that people have reported from cannabis per se, usually
are THC and CB1 driven.
CBD is this other molecule that we can go into the pharmacology in a second, but again, it's just,
I mean, I think in the analysis that Nick Chakoma state of all these strains and types of cannabis
that exist in the United States when they went through their thing of thousands and thousands of kinds of cannabis,
it was like 3% of them maybe had like more than 1% CBD. Like it's very low, like there's almost none.
And in Canada, to get a CBD rich strain, you have to basically explicitly buy it because it has to
be bred to make CBD. And so this is the kind of chemo of our distinction. I think you did allude
to this last time, which is the type 1, type 2, type 3. So type 1 is high THC.
Type 2 is somewhat balanced, and type 3 is high CBD.
And now I think 90 to 90 something low percent of all cannabises that are out there are type
1.
They're all high THC, because that's what's been bred.
There's a few that have been mixed, so are kind of equal proportions.
But you're never going to get high equal proportions.
So a high THC cannabis is like 20 to 30%.
If you go for type two, which is mixed,
they're both gonna fall around 12%,
maybe a little more, but in that range.
And then same, if you've got a type three, it's high CBD,
it's gonna be 20ish% CBD and very low THC.
And so no one has ever kind of grown CBD rich cannabis
outside of this recent boom in the last decade
that's happened about people wanting CBD because of the Charlotte's Web, which was popularized
by I think Sanjay Gupta on CNN in like 2012 or something.
It was a while ago.
But that was what got a huge movement going around this idea of CBD.
And yeah, so the Charlotte's Web was like, I believe that was what they had named that
kind of cannabis that they'd extracted it from.
And so it was this it was a tincture that they were using that was very high CBD content that they were finding was controlling pediatric seizures in kids.
Now, this has actually been studied pretty effectively.
Most of it's come out of Boston.
Elizabeth Teal has been one of the main leads on this, and she's a neurologist there that has done a lot of the work on this.
And so they have, I think, very clearly, and the data is incredibly compelling.
Their research is one of the reasons why CBD has been descheduled or changed in its scheduling,
down to a, what is it, a five? What is it class?
CBD?
Yeah, like CBD.
Oh, CBD, I mean, given the availability of CBD everywhere, in gummies and drinks, I mean,
you can get it in a convenience store.
It's been kind of, a lot of it's been shifted in its classification status because it actually
has been shown very clearly to have medical benefit.
And so, it was very specific, it was a very specific form of pediatric epilepsy called Dravet syndrome.
Now, there's other forms of pediatric epilepsy. I know Elizabeth has studied in addition that
has found comparable levels of efficacy. But essentially, what they have shown is that
very high doses of CBD are relatively effective at calming down the seizures.
In some kids, it's profound.
Like in some kids, you're talking about kids
that were having dozens of seizures a day
to essentially none.
And so, and I can understand.
I mean, from a grassroots perspective,
I can understand if you were a parent
who had a child with a disease like this
that was largely intractable and not that well controlled
from the medications they were on,
and then something came around that showed this level of efficacy, you would
gravitate towards it.
That makes sense to me.
And I think the work that Elizabeth and her colleagues have done has been really important
to establish the efficacy of CBD in these disease states.
And so I don't think at this point, there's a lot of controversy around that.
The question that comes out though is,
so how is it working?
And we don't have a mechanism.
So as you had said, like CBD receptor,
there is no CB, like there's no receptor that CBD binds to.
I was under the impression that CBD also bound
to the CB1 receptor.
No, I mean, certainly not.
Or that under some conditions,
it can modulate the shape of the receptor to adjust THC binding.
But now you're telling me that these two things rarely coexist together.
So I guess the question that would be-
You can dose them.
Like, you can certainly, I mean, you can have products that are made that are like oil-based
products at least that have a certain amount of CBD and a certain amount of THC, and people
do go for those.
And there's this, I mean, one of the arguments people make is they say, oh, introducing CBD reduces a certain amount of THC, and people do go for those. And there's this, I mean, one of the arguments people make
is they say, oh, introducing CBD reduces the adverse effects
of THC, and like, well, if you're using it in a strain,
that's simply because the strain of cannabis has less THC now.
So it's impossible to separate.
So you've bred it out, but I mean, like, a lot of this
was based on some work that came out a long time ago
from Brazil, where they showed that, like,
giving CBD with a relatively high dose of THC
could curb some anxiety that
came out from high dose THC.
I thought the explanation for that was that CBD can modify the CB1 receptor in some way
that makes THC less able to engage with the THC receptor.
There is some evidence to support that, that we would call these allosteric modulators.
There's some evidence to suggest that CBD may interact
with a allosteric site on the cannabinoid receptor
that makes THC bind less.
Doesn't sound like you're particularly convinced
by that evidence.
I think that, I mean like the-
I'm looking at the look on your face with those listening.
I'm looking at Matt and he's,
I think he's being generous here.
Let me ask it a little differently.
It's definitely more complex than that.
Does anyone know what CBD binds to?
No, and so the most convincing thing that Does anyone know what CBD binds to?
The most convincing thing that I've seen that CBD binds to is the work that C.C.
Hillard has done looking at its ability to essentially block adenosine uptake.
So it can inhibit the adenosine transporter.
So that should make people feel more alert.
No, because you're getting more adenosine.
So you get an accumulation.
It blocks the adenosine transport mechanism.
So you get an accumulation of adenosine, which is more sedative. And that, I mean, in the PNAS paper
that CC's lab had from 2006, they showed that that also mediated, it was the adenosine, I think,
2A receptor that drove the anti-inflammatory effects of CBD. So it was a secondary effect by-
It's sort of the opposite of- Caffeine. Of caffeine. Yeah. So it was this secondary effect by- Sort of the opposite of caffeine.
Yeah, I know, I've, I remember doing like-
And the way you're describing this,
it sounds like the anti-caffeine.
That's kind of how I described it.
People, if they ever ask me for what the pharmacology
of CBD is, I'm like, that's not the only mechanism,
but the thing that was important in CC studies
that I think is relevant is that it was not super high
concentrations of CBD that caused that.
So you could get this adenosine accumulation at, you know,
you're not talking like micromolar levels of CBD,
which is what a lot of studies have done.
And so even when we're talking about the allosteric
modulatory site, like, yes, there's evidence for it.
And it is convincing evidence.
It's just the dose range in there.
You're kind of like, who's getting hit with CBD
at that level where you're getting these effects?
And more so when they've done the blinded work, like when Ryan Vander, at Hopkins again,
who is one of the main people who's done a lot of this work,
has actually blindly given people CBD dosing with THC, finds the opposite,
that it actually amplifies some of the effects of THC.
And this was something we learned from the pediatric epilepsy world was that
when you start giving CBD at relatively high doses, one of the things it does is saturate a lot
of liver enzymes.
And so some of the efficacy in the pediatric epilepsy space may be a secondary effect due
to an accumulation of some of the anti-epileptics as well because they're not being metabolized
the same way.
And this has now been very well replicated.
We know that once you start taking CBD,
when they hit doses that are at the clinical level,
you're gonna start having hepatic effects.
So it's gonna affect the liver
and it's gonna affect the ability of the liver
to chew up other drugs.
And there's very specific
SIP enzymes, like the cluster of enzymes
that metabolize things,
there's very specific ones that CBD hits.
And so as a consequence, one of them is what choose THC is.
So you can get a potentiation of THC
by inhibiting its metabolism
if you have high enough CBD on board.
Given the effects on adenosine that you described before
that it's sort of what we're calling,
just for sake of discussion, the anti-caffeine,
how do we explain the preponderance of CBD
added to energy drinks that also contain caffeine?
There's like no logic there.
Expectancy bias.
There you go.
Everything can't be expectancy bias.
I have a feeling it's gonna be interesting
to see in the comment section on YouTube.
I mean, presumably there's some regular pot smokers
listening to this and you know,
the expectancy bias is so strong,
as I allude to in the placebo episode
and we've been talking about here.
And yet it's so strong, as I allude to in the placebo episode and we've been talking about here.
And yet it's so strong that I think people will also be convinced that there are real
differences between different strains because they've maybe done the non-formal blind... someone
gave them their weed and someone else, and then they got a completely different effect.
They're not expecting something different necessarily in a particular direction, but they get a completely different effect, right? They're not expecting something different necessarily
in a particular direction,
but they get a very different effect.
But that to me just speaks to the idea that, again,
cannabis sounds like polypharmacology,
70 different cannabinoids.
In some ways, yeah. THC being among
the more powerful components,
but it's yoked in the sense that, as you said,
people self-regulate their intake
provided they're smoking, not ingesting it by edible.
And so it's almost like THC is being held constant.
And then there's this constellation of other things
around it that are modified.
And people eventually veer towards what they like,
what they can afford, what works with their lifestyle.
And then they come up with a bunch of theories
based on packaging, what they're told,
but presumably also some real effects of these terpenes,
the CBD component, et cetera.
It can't all be just psychological expectations.
Yeah.
So what you're saying is like what we said is the entourage effect.
And I think that is a theory that is held by a lot of people that this exists.
I mean, the reality is these terpenes and minor cannabinoids exist at such low levels
that like there's a couple of kinds of cannabis that might have like a high enough level where
you're seeing something.
But yeah, I mean, I agree to the extent that it would be a little wild if everyone's subjective
experience across different kinds of cannabis was entirely driven by some kind of expectancy,
which I can't imagine is accounting for all of it.
But I think when we talk about Sativa versus Indica, I think there's a huge bias that's
going into there.
But one of the things with CBD that's interesting,
unlike THC, is you can actually do
pretty clean blinded studies,
because it's really hard to give someone THC
and them not know they're on THC.
This was the big problem with the MDMA trial
that happened recently is that people who got the placebo
knew they got placebo, people who got the drug knew they got the drug.
It's very hard.
You could do a dose response, but it's very difficult.
It's very challenging to give someone a psychoactive drug and a placebo and them not know which
one they have.
Whereas because CBD doesn't produce an intoxicating state, it's not really perceptible from the
person who's taken it that it's doing anything.
That actually does make it far more amenable to do blinded
trials with.
And so, I mean, the interesting thing with CBD, and this is where I get a lot of people
that get angry at me as well, is that I would argue that the overwhelming majority of the
effects of CBD that people report are all placebo effects.
And I say that because people leverage the epilepsy stuff and some of the clinical work
and say, but we know it does things.
And my response to them is,
do you know what dose those people are getting?
Because this is something that for some reason
has not made the transition from science into pop culture.
This is a similar phenomenon with GLP-1.
I and other people have pointed to the fact that
certain food products or certain drinks
or certain drinks or
certain activities can increase GLP-1.
Glu-Glu-Gon-like peptide, which is now becoming more commonplace knowledge because of ozempic,
monjaro, et cetera, as very powerful weight loss tools, although there's questions about
muscle loss, et cetera.
Then we had Dr. Zachary Knight on who explained that even a fourfold increase in GLP-1 brought
about through a prescription drug or ingestion of a particular food or drink does not lead
to any appreciable weight loss.
However, when one achieves a thousandfold increases in GLP-1 through the use of things
like Ozempic Monjaro, you see profound weight loss, meaning that you need enormous effects
in order to see the clinically relevant changes in that case of weight loss, meaning that you need enormous effects in order to see
the clinically relevant changes in that case of weight loss.
So it sounds like a similar thing with CBD.
So if somebody takes a CBD gummy and they feel that they sleep better, you would argue
that that's entirely expectation bias.
I think that's a placebo effect.
Can I say that because the majority of gummies are what, like two megs, five megs, 20 megs
maybe?
I don't know.
I've never taken a CBD product.
I know a few years ago they were all the rage.
I was never tempted to do it.
I'm aware, and we'll talk about this a little bit more, that there is evidence, according
to Matt Walker, who did a six episode series with us on sleep, that THC does help certain
people fall asleep, but it can dramatically alter the architecture of sleep in ways that are probably not great.
Yeah.
Yeah.
I mean, THC and sleep is definitely a whole other thing.
But sure, a lot of people report this with CBD.
But again, so most CBD edibles or things that people take that are sold through commercial
markets are in the range of 2 to 25 megs of CBD.
So then I say to them, so you're aware that in the pediatric of two to 25 mgs of CBD. So then I say to them,
so you're aware that in the pediatric epilepsy studies,
the dose ranges are like 1500 to 2000 mgs.
And then you're talking about a child
who weighs on the order of what, 20 kilos maybe,
you know, like 40, 60 pounds somewhere in that range
versus, so if you start dosing by weight,
which is how most of these things are done,
well, they'll say 20 mgs per kig or whatnot.
So someone my size, so I weigh a bit over 200 pounds,
for me to take that dose of CBD,
and let's say 20 mgs per kig at like 90 odd kilos,
I mean, you're talking about me taking.
A liver damaging dosing.
An insane, well, maybe I wouldn't say damaging.
It's definitely influencing how the liver metabolizes other things because it's going
to saturate those enzymes, but you're taking a very high dose.
So if, for instance, you were to take a high dose of CBD and then maybe have a couple alcohol
containing drinks, that could be problematic, right?
Because you're talking about the two hit model.
Yeah, I can't speak to that
because I actually do not know the metabolism of alcohol
well enough, I don't believe so
because that's alcohol dehydrogenase.
So that would probably be a separate enzyme pathway
than the SIPS.
This is more like-
Separate enzyme pathway, but you're challenging the liver.
Yeah, but I don't know if it would have an effect
in that capacity.
I mean, they've definitely seen this,
like they know the list of medications
that this is a problem for.
So it's things like warfarin and like blood thinners
and the anti-epileptics funnel
into the same metabolic pathway as this THC.
So there's certain things that this would influence.
I don't know if I would say this would be
in the context of alcohol, but I think more so,
I mean, what I try and point out to people repeatedly
is I have yet to see a blinded clinical study that has found any effect of CBD that's efficacious, that's
under 300 to 500 milligrams.
And yet, in the wild, and people who are using it on their own, we're using doses of 10 to
20 milligrams and reporting these effects.
And the thing is that I think a lot of people don't also realize is CBD has absolutely horrific bioavailability.
So if you take it orally in an oil or in a gummy or whatever you consume it in,
now this might be different with some of these beverages that are out there.
I don't know if anyone's actually ever done the pharmacokinetics on them.
At least I've never seen it.
But standard roots, we're talking 4%, like very, very little.
Actually leaves your gut into your bloodstream.
Now we do know from the studies from GW who created the pharmaceutical version of CBD
that was used for a lot of the pediatric epilepsy studies that they did, I don't know if it
was random or intentional, find that opposite to something like alcohol, if you had just
eaten a fatty meal, that actually enhanced the bioavailability of CBD dramatically.
So then it went up to like maybe 20% got into the blood.
But that's probably because again, CBD is a fatty molecule,
likes fatty environments, and for some reason,
having fat in the stomach and then the gut
seems to promote its ability to get into the bloodstream.
Can see now it's the steak in CBD,
or the CBD with omelet protocol.
I'm just kidding folks, I'm not suggesting that protocol.
But yeah, I mean, and so because of this,
it's like you're taking very low doses of CBD
that have very poor bioavailability,
and then people really stand by the effects of these.
And so I'm like, you know, what I would always say
is if it works for you, there's no reason to stop it,
but because you're having benefit
from it.
But would I ever recommend someone do this?
No, I wouldn't, because I can't say that I think that this has any biological activity.
Because even when we start looking at these potential targets of what CBD could interact
with, there's a couple receptors.
People have said, you know, it might interact with serotonin receptor.
There's some of these like random orphan receptors that we don't know a lot of what they do that CBD might interact with, but like the concentrations
you need to hit those are reasonable.
And you're not getting that in the blood and certainly not in the brain of people from
consuming incredibly low doses of CBD.
So the whole market that exists for CBD, to me is a little bizarre.
And I think for a lot of us in the cannabis field,
this has been one of the most bizarre social experiments
we've ever watched because like, you know,
if you asked me in 2010 to walk into a room
and ask how many people knew what CBD is,
like maybe one out of a hundred,
like no one knew what CBD was.
And now it's like 80 to 90% would know what it is
because everyone, you can't walk down a street
in any city in North America and not see CBD products, whether it's some kind of cream or like a shake or some random
concoction that people have added CBD because now it's going to, you're seeing the energy
drinks like it's just, it's bizarre to me how much this has taken off because it seems
to have somehow migrated into being a health product in some capacity.
So yeah, I've never tried any of these CBD containing products.
I think a lot of what you're describing speaks to the fact that people are eager for things
that can help them adjust their anxiety and sleep better, which is a large reason why
a lot of this podcast is focused on respiration-based tools and other based tools that can help people with anxiety.
I think that many people suffer from just too much activation
in their autonomic nervous system.
And I would argue there are much better things
that are not of a ingestible type,
things that one can do that are science supported, right?
There are clinical studies, meditation, breath work, any, not so much breath work, I would
argue, but certain patterns of breathing, meditation, cognitive behavioral therapy,
there are a whole bunch of different things, as you know.
So I don't know what explains the CBD craze, but you certainly have shed light on what
is and mainly what is not known about CBD, and I think it's really important for people
to hear.
Yeah. I mean, again, it's, I think from my point of view think it's really important for people to hear. Yeah.
I mean, again, I think from my point of view,
it's an ethical thing as well,
because this isn't covered by insurance.
People are spending their own money on this.
And so I find it really challenging
to recommend someone to be spending what can,
I mean, especially if you're talking about
an actual clinical dose.
I mean, for someone to take CBD at the level
where it could actually be shown to have some benefit
in some condition, of which currently it really is just pediatric epilepsy.
This idea with sleep, pain, anxiety, there's not a lot of super conclusive data.
I'd say most of the trials that have been done have not found really good evidence of
benefit in any capacity.
It makes it very challenging to recommend this in any capacity, especially if I mean, if someone, if finances aren't an issue, sure, go for it,
but I understand people are, like you say,
looking for solutions.
So it makes sense.
Doesn't sound like CBD is the solution.
I am not convinced by the data that exists
that it's really doing what a lot of people
claim it's doing, yeah.
Except supporting the placebo effect, perhaps.
It's a great study of the placebo effect.
I wanna make sure before we close that we touch on
some of the potential harms or asserted harms of THC,
because I think there's a lot of misunderstanding
about this.
We talked about psychosis and the lack of evidence
for a direct causal effect.
You give a beautiful description as to how we should think
about all of that based on the current literature.
But cannabis and driving is a potential hazard, right?
And some people will laugh.
They'll be like, oh, driving too slow,
as opposed to driving drunk or driving too fast.
Okay, we can talk about that.
We talked about the potential for addiction
and the evidence potentially for and against that, right?
about the potential for addiction and the evidence potentially for and against that, right?
There's also the big black or gray box of, you know,
all the things we don't know about
what regular cannabis use could do.
And yet I know a lot of people
who've used cannabis for years,
mainly as a replacement for alcohol,
at least that's how they describe it.
Well, it's not as bad as alcohol,
but you hear that a lot.
Okay?
But what are some actual, if any, what are some actual harms of cannabis use that people
need to take into account and just weigh against the fact that every compound, caffeine, even
water can kill you if you drink too much of it?
And then let's make sure that we touch on this issue of cannabis and driving or operating
machinery, but I think the machine most people are thinking about these days is driving.
Yeah.
So health harms, I mean, someone's smoking, obviously there's risks for lung damage.
I would say the evidence for things like lung cancer certainly don't hold the way they do
with cigarette smoke.
Because people are smoking less of it or there are just fewer carcinogens in there.
I don't think you could make the argument
about fewer carcinogens per se.
I think probably it relates more to the frequency.
I mean, Donald Tashkin, who's in California here,
I think he was at UCLA, I'm not 100% sure,
but I know he was in California.
He did like very long-term studies
tracking cannabis smokers
and basically did not find associations with lung cancer
the way that you do with cigarette smoking. Why that's the case? I don't
think anyone has like people have theories. Some suggest because a lot of
this in vitro animal work with really high dosing suggests it could have
anti-proliferative effects for tumors. Whether that's real or not I don't know
but like I think more likely it's because most people who smoke cigarettes at
least that were you know the relationship with lung cancer where people were smoking regularly throughout the day and it's because most people who smoke cigarettes, at least, that were, you know, the relationship with lung cancer, where people were smoking regularly throughout the day.
And it's very rare someone smokes cannabis at that frequency.
Maybe if they isolated that population, they would see relationships with lung cancer.
I just don't think it's been borne out by the data the same way.
Certainly lung damage, emphysema, things like that are on par.
If you have any combustion product, you're going to have damage there.
There's no question about that.
So again, harm reduction perspective would be, you know, oral routes of administration
bypass lung damage.
They come with their own issues with dosing and whatnot.
But if you're talking about physical harms, that's one thing to avoid that you could bypass
that aspect of it with.
There is some, I don't think we are at a point where we can say the state of it.
There is something with cardiovascular function and cannabis that relates to higher
frequency of strokes perhaps or cardiac events in some capacity.
The data is not entirely clear in this sense yet. I mean, we don't see, again, it's not like super
clean relationships like we're seeing that were
there when they established cigarette smoking and lung cancer kind of thing.
I think that effect was so profound and the population of smokers used to be so high.
Can this potential, I want to highlight potential, relationship between cannabis use and cardiovascular
issues be bypassed, no pun intended,
by using edibles, not inhalants,
or is it related to THC itself?
I would probably guess, and this is a guess,
that anything, again, combustion smoke-wise,
I mean, maybe not vaping plant matter,
but at least the combustion from smoking
probably exacerbates this just because
any kind of
combustion product is going to have some vascular effects to some degree on the system.
So I imagine we'll make it worse, but THC itself has a very complex effect on cardiovascular
function because it tends to cause typically vasodilation. So you get widening of the blood
vessels, which is why it relates to a lot of people will experience postural hypotension.
So sometimes what that is, is if you stand up and your blood pressure doesn't catch up
with you, so you get really lightheaded and people will collapse.
And so this is not uncommon to happen to people and with edibles as well.
So it's not just from smoking.
But when they've consumed cannabis in some capacity, there are some people that seem
to be very sensitive to the vasodilating effects.
And so when they stand up, their blood pressure
can't match the shifting gravity that happens.
And so not enough blood perfuses the brain
and they go down.
And that can be transient.
They'll come to a minute or two later, but it happens.
But as a consequence of the vasodilation
is it triggers tachycardia,
which is an accelerated heart rate.
And so that's a very reliable physiological response for a lot of people who use cannabis.
And so it's a bit of a tricky thing because obviously if there is some underlying heart
or cardiac sensitivity or issue, the tachycardia itself can be a problem.
I mean, so like, you know, if someone has like an underlying heart condition where at
rest it may not present itself, but the shifts into that kind of beating faster to compensate
for the fact that you've got a drop in blood pressure can do, put strain on the heart in
a way that could unmask a vulnerability or an event.
And again, this is me theorizing what I think it could be based on what we understand to
some degree about how it affects cardiovascular function.
There are occasionally people who have reported having like elevated blood pressure.
I mean, some of that also could be from like an anxiety state or whatnot coming around.
But the typical response, and this is usually driven by cannabinoid receptors that are in
the vascular beds themselves, that it causes a vasodilatory response. And so that is usually the first step. The second is the
uptick in the heart rate. So you get these kind of effects over time. There's some work looking at
like vascular stiffness that can evolve over time. And cannabis users, there's some evidence to
suggest that you might get more of that emerging. And so again, that could relate to a vulnerability
to have strokes or other kind of cardiovascular events
in that sense.
So I think the issue in terms of like why it is
more difficult for us to say anything definitively
at this point is just obviously the timeline of this.
I mean, cigarette smoking was an easier thing
to establish in that context because, you know,
once antibiotics and medicine advanced in like the 40s
and the 30s and stuff and people started living longer,
you started seeing a lot of these effects
of cigarette smoking emerge because-
And yet it took a while for the medical community
to adopt the idea that cigarette smoking was bad.
Oh, I know.
It's wild.
Physicians would smoke in clinic,
there were ashtrays in the doctor's office.
I mean, my grandparents grew up in Belfast.
They had smoked for years, and they had even said,
like, when they were younger, doctors would say,
oh, have a cigarette after a meal. It promotes digestion.
So it's kind of wild to hear that stuff
when you think of how cigarettes are viewed nowadays.
But it is, I don't think we've kind of been able
to track this long enough to be able to say with certainty
what we're seeing, but I think there's, like if people ask me about risks and harms of
cannabis, the first thing I always say is, you know, schizophrenia and bipolar.
Those are the main concern areas, I think, where you want to avoid cannabis.
And I would also say if anyone has cardiovascular issues, they should avoid cannabis, just because
that's more of like, I would say, a being safe safe because I don't know how to actually explicitly say what I
Would say the harms associated with it are but I think there is something there. I've seen enough evidence. That's like
Starting to coalesce into a story. That's like there's something here
So I would that's where I would say that I think there's risk. There's also things like
This bizarre cyclic vomiting syndrome, which is this really strange thing that has become really apparent.
We've seen this in Canada a bit more now with legalization,
again, because people are going into ERs more,
where it's this somewhat strange phenomenon
where it's usually people who are pretty excess cannabis
users, they just start puking and they can't stop it.
And it's like this intractable vomiting that they get into.
And then bizarrely,
like one of the things that seems to cure it is a hot shower,
which is, I can't even begin to understand this.
I mean, there's also...
I'm chuckling at the example
because you are so very clearly rooted in science,
but that just came out of nowhere.
Like, okay, cool, hot shower, deliberate heat exposure, folks.
There it is.
I have been trying to understand how this is... I'm not enjoying it hot shower, deliberate heat exposure, folks, there it is. I have been trying to understand how this is.
I'm not enjoying it because it's deliberate heat exposure,
but it just speaks to the fact that we're talking about,
you know, smoking being a regular part
of the medical community's behaviors
up until, you know, a few decades ago.
And then, you know, a hot shower being the treatment
for this, like, chronic vomiting. And it speaks being the treatment for this like chronic vomiting.
And it speaks to the fact that like with science and medicine, we do know a ton.
It's amazing how much we've progressed especially in the last hundred years, last 25 years even.
But it's also astounding how these seemingly surprising antidotes to uncomfortable conditions
can hold up over time in the absence of any randomized
controlled trials or mechanistic data.
I mean, I really struggled to understand,
because certainly I don't think it was doctors
that figured this out.
This was people, I think, who were experiencing this.
And then they started telling doctors this.
And then I think, and I can only imagine,
I'm like, maybe they're going in the shower
because they're like vomiting on themselves.
Probably. And then inadvertently realized that being in a hot shower somehow seemed to calm this down.
I have seen a study where they actually applied capsaicin cream
and that also seemed to provide benefit.
So something about activation of the heat thermal...
It's something with thermal regulation
because the other thing that seems to have shown some benefit is propanolol,
which again would suggest some kind of sympathetic.
Which is a beta blocker.
It's a beta blocker. So yeah, it's your effect.
So there's something with autonomic.
It must be messing up some kind of autonomic balance or something with thermal regulation.
Why that results in this kind of bizarre vomiting syndrome, I have no idea.
But I remember when I first started hearing the stories of this years ago and I was just
like how, because I mean it is again surprisingly counterintuitive because one of the medical uses that people
have used cannabis for is as an anti-nausea,
especially in the context of chemotherapy.
And so something that typically has anti-nausea
and quality suddenly triggering a vomiting syndrome
is kind of a paradoxical.
And yet we started off today's conversation
with you explaining beautifully how activation
of these CB1 receptors are homeostatic in some sense, the thermostat analogy.
Maybe after chronic use, there's some... the seesaw gets flipped to one side and gets stuck
there.
I think that's how most people have tried to conceptualize what's going on is maybe
like... and it seems to involve the insular cortex, at least the anti-nausea defects of cannabinoids
are involved through the insular cortex.
And so maybe you like have burned out those receptors
from chronic use.
And so that endogenous mechanism isn't working
or it's somehow flipped in the other direction
now in that circuit becomes sensitized,
but it is a very bizarre,
but very real thing that seems to happen.
Again, this isn't common.
Like I've heard a couple of people I've met describe it,
but it's not like it's happening to every 10th or 20th person or something.
It's a little more infrequent, but it's certainly happening enough
that we've now captured it at a federal data level that this is a thing
that people are showing up in the AR for.
Interesting. So a hot shower.
Yeah. So apparently if it happens,
a hot shower is what people claim.
So yeah, so for me I would say that the main harms
that people need to be aware of are the schizophrenia bipolar,
possible cardiovascular effects,
and then this is one of these syndromes
that can come out of it,
as well as possible lung damage from smoking.
Those are the main, I think, genuine bona fide health issues
associated with cannabis that people should be aware of. I mean, and if you, I mean, I know we're
not going to probably go into depth with it. On the other side with the medical stuff,
it's a little bit more challenging. I mean, a lot of this is just because we really don't
have good studies that have been done in any capacity that have really definitively told
us if cannabis has like really bona fide medical benefit.
Yeah, I was going to ask you about that. It's always nice to end on a positive side.
And we don't want to demonize cannabis,
nor do we want to glorify it.
But the examples that I've heard of medical uses for cannabis
include appetite stimulation.
We talked about that.
For glaucoma, lowering eye pressure in glaucoma,
the age and age-related increase in eye pressure are two of the major risk factors for glaucoma, that age and age-related increase in eye pressure
are two of the major risk factors for glaucoma,
which is the most common blinding disease,
second to cataract.
More than 70 million people suffer from it.
Everybody, regardless of age,
get your eye pressures checked.
There are drops for this,
but okay, cannabis can reduce eye pressure and glaucoma.
Nausea, you mentioned, and then anxiety.
It sounds like if people get the dose right
and it's right for them, that in some cases,
it can help them with their anxiety.
And the reason I raised that one is because
it seems that most people who decide
to use cannabis regularly are using it as,
perhaps for its euphoric effects, but as a
kind of a mild sedative, a way to relax in the same way that they would use a glass or
two of wine.
What are your thoughts on that?
Because I think this is the most common use case.
Yeah.
I mean, you look at, I mean, the other one that wasn't on there, but you've mentioned
this before and I have as well as pain.
So chronic pain.
Pain is, I would say, the number one.
So pain is certainly the one that there's the most amount of evidence for. And I would say when you talked about this
in the previous podcast, you were mostly correct
about this component of it in the sense that
it's not that cannabis is a profound analgesic,
it's that cannabis, it has some analgesic properties,
but it's not like super sledgehammer in that sense.
But what it does seem to do is,
it seems to strip away the affective component of pain
to some degree.
And so what I have consistently heard from chronic pain patients when they use cannabis
is they say, yeah, my pain's still there, but now the pain's background noise.
So I can sleep at night.
And just being able to sleep, I think, is actually providing a huge amount of the benefit
to that community.
But it's the day to day.
They're able to function with the pain because it doesn't, they don't become focused on it the same way because they're able
to kind of push it to the background.
That seems to be the main ability of cannabis.
I mean, yes, there's some mild analgesic properties to it to some degree, but it
really seems to be much more of that component of it.
And I think you'd alluded to something like that in the previous podcast, you'd
said something about, uh, it's changing the emotional state of pain.
So, and we know from the biopsychosocial model of pain that emotions and interpretation of
the sensation of pain is a huge component of what people refer to as chronic and acute pain.
Yeah. So, the pain thing I think is a central one and that's one of the only ones that there's a
little bit of actual research on. Most of it's either with isolated THD. I think there's one or
two studies that have actually looked at smoked cannabis
and found small signals of benefit.
But so anxiety is an interesting one.
And so I mean, obviously, this is more near and dear to my heart,
because I study stress and anxiety as my primary area
and cannabinoids and endocannabinoids in that space.
And yeah, you look at questionnaire-based studies
about why people smoke cannabis, and like 85% of them will say,
because it reduces stress and it makes me feel less anxious.
I mean, that was like a big impetus
as to why we started studying endocannabinoid regulation
of it because similar to feeding and pain,
where we know endocannabinoids are involved
in regulated feeding circuits
and endocannabinoids are also integrated into pain circuitry
and can provide some endogenous analgesic signals.
We figured the same was gonna be true for stress and anxiety, which to some degree it
is.
But it's very complicated because it can be, like I said before, biphasic where some lower
doses are anxiolytic, higher doses can promote anxiety.
But for the majority of people who use cannabis regularly, it's because it helps reduce anxiety.
Now whether that would hold weight in a clinical trial is a different story.
There is some old evidence from like, I'd say the 70s or early 80s where they were using
synthetic forms of THC like Nabalone, which is some of you can get in Canada, or Marinol
or Drenabinol, which I think is what's accessible in the States, where they did find some evidence
to suggest it was on par with like a benzodiazepine, like diazepam or something. I can't remember exactly what the comparator they'd used there, but there was some evidence to suggest it was on par with like a benzodiazepine like diazepam or something I can't remember exactly what the comparator they'd used there but there was
some evidence for there being some anti-anxiety properties of THC and that tracks generally
well with the self-reported literature that's out there.
Now whether that's the same as an ability to have benefit in something like PTSD is
a different question.
It gets a little bit more complicated because obviously PTSD has an anxiety component to
it, but there's a lot more to it as well.
And again, there's very little research in this space.
There was one really, really small study done by the Canadian military.
First they did one version of it that was an open label, open label trials for people who don't know is just basically everyone knows what they're
getting.
It's not blinded in any way.
Because of the self-reported data from the veteran population about cannabis helping,
especially with sleep.
The big thing that they reported was that it suppressed their nightmares.
Post-traumatic stress disorder is a very complex disease for many reasons.
One component of it is the re-experiencing events that happen during sleep where there's a lot of nightmares
and individuals will kind of re-experience the trauma that led to the development of
the PTSD.
And there does seem to be some suggestion that because they're remembering it and maybe
changing the details because they're in a dreamscape space that they re-consolidate
it a little bit more.
And there's often a high degree of sympathetic activation and arousal that goes on with these
nightmares.
And some of the belief is that this is part of the sensitization process that can happen
in PTSD where the disease can worsen over time because the re-experiencing and the reconsolidation
and the sensitization of the disease that happens over time in this kind of sleep state
can make it worse. And so the majority of veterans who have used cannabis and report benefit, if you actually
talk to them about it, as I've done in a few different situations, and also just look at
the anecdotal data, almost all of it talks explicitly about sleep.
And they say, oh, we use cannabis or THC before bed.
We find we don't have the nightmares.
And just the simple trickle down effect of that is hugely beneficial for them.
And so the Canadian military did an open label trial on this. Again, not blinded.
It was small numbers, but they basically found as soon as they put people on nabolone, this
synthetic version of THC, it vary in like a large proportion.
I think like 85% of them almost stopped having these nightmares.
And this was like a treatment resistant population that was pretty severe. So this was a big benefit.
So they then took the open label and did what you should
and moved forward to do a double blind placebo control.
Now it was a very small sample studies.
And that is obviously always a problem with human work
is if this was like 15 or 17 people.
So not powered enough to really make any kind
of firm conclusions, but interesting in the sense
that at least it was done in a proper crossover design
where they got placebo at one point,
they got nabolo at one point, it was switched,
they didn't know which one they were on.
Because they're taking it right before bed,
maybe that will remove some of the subjective bias.
Again, you can't totally remove it,
but like if someone's taking it within, you know,
an hour or so of going to sleep,
they may not feel behind the same way,
but even under the double-blinded conditions,
they found a very effective suppression of the nightmares and the re-experiencing.
And then they also, at the same time, found this increase in kind of quality of life measures,
which tracked with the fact that they were probably sleeping better.
I don't think they actually reported any change or even looked at maybe the overall PTSD score.
They only reported or really focused on the nightmare component of it,
because that was the primary outcome of the study.
So I thought that was interesting, because if you look at the anecdotal data in PTSD,
that's where a lot of it is focused on, is using it as kind of, I wouldn't maybe call
it a sleep aid, because it's really more of a modulator of the dream state.
And I think this is-
Presumably because it's reducing the amount of rapid eye movement sleep you're getting,
which most people will probably hear and interpret as bad. but you know, REM deprivation is actually one treatment
for depression.
So there are certain case conditions where dreaming and REM is not advantageous, and
you're describing one.
I mean, depression and PTSD are both two disorders that are characterized by changes in REM.
Like they have earlier onset to REM, so they go into REM faster.
They tend to have some altered architecture of the REM component of their sleep. So in
those states, maybe suppressing REM isn't actually a bad thing. At least certainly for
PTSD, I would imagine in terms of the context of the nightmares, that's providing some benefit.
Whether or not it globally is changing the disease severity or improving the disease,
I don't think we really have any evidence to say.
But again, I can understand the desire for people to kind of self-medicate, let's say,
by using this as an approach to try and reduce that component of their sleep so that they
sleep better, they feel better, maybe down the road it would help the prognosis of the
disease long-term if it's not sensitized in the same way. But I don't think we have any strong data that we can leverage in that capacity to be
able to say it.
But to me, it's one of the more interesting areas.
I think anxiety disorders in general, there's definitely some potential.
So as I'd mentioned earlier, the FAU inhibitor that elevates anandamide levels.
So Johnson & Johnson did do a trial on social anxiety disorder.
It's published, I think, from a few years ago,
21 or something, I can pull up the reference for that,
where they did find some benefit.
It wasn't huge, and some of this had to do
with the design of the study,
because they kind of underdosed the patients a bit,
and so not everyone actually showed the elevation
in anandamide when they went back and looked,
but when they actually isolated the group of people
that had higher anandamide, in that proportion of the patients, they did see some
symptom improvement.
So it did support it.
And this is, I mean, very similar.
For us, this is a big thing because all of the work that we focused on is looking at
how stress and stress hormones regulate largely anandamide signaling.
And one of the main things that we've demonstrated that's been replicated relatively well over
the years is that stress exposure can actually cause a rapid loss
of anandamide signaling, and it's that loss
of anandamide signaling that seems to facilitate
some synaptic strengthening in the amygdala
and promote activity in areas that are involved
in these anxiety circuits.
And so the thought has always been, well, if anandamide,
it's that job is it's kind of tonic housekeeper at keeping things in that homeostatic range.
Let's say we're talking about explicitly an anxiety circuit.
You know, there's individual variation that exists in humans across everything.
So one of our predictions has been maybe people who are on the high end of the anxiety spectrum
might be on the low end of their tonic and anandamide signaling spectrum.
And we've gotten a little bit of support from that from animal work where we've screened animals based on anxiety and looked at endocannabinoid levels in the amygdala and found lower anandamide signaling spectrum. And we've gotten a little bit of support from that from animal work where we've screened animals
based on anxiety and looked at endocannabinoid levels
in the amygdala and found lower anandamide.
That's extremely interesting because it squares
with my, again, non-laboratory observation
that a lot of people use cannabis
to deal with their anxiety.
Yeah.
So what you're saying is that there's a range of kind of, let's just say,
baseline circuit activation within the amygdala
and related structures in mice and humans,
presumably in other animals also.
If people take a compound that adjusts the sort of
homeostatic level of what's considered low, moderate,
and high activation of those circuits
that include the amygdala,
then perhaps they're bringing their anxiety into range
in a way that perhaps is different than with alcohol,
which is more acute.
People have a couple of drinks, they'll feel relaxed,
but then there's this phenomenon of anxiety
the next day, feeling a little anxious
when they're not drinking.
Whereas it's interesting that many people
who use cannabis for this purpose
are not using it all day long.
They are perfectly able to wait
until the nighttime or evening.
And of course people can wait for their happy hour
for a drink as well.
But it's far and away different than the way we envision
something like alcohol use disorder
where somebody discovers that alcohol really helps
with their anxiety and then they're drinking,
you know, maybe one at lunch, maybe a couple of dinner
and then in the evening to fall asleep at night.
I'm describing extremes here, but I find your hypothesis
to square really well with the real world observations.
And it's an interesting one.
There is some evidence to actually support it.
So my buddy Sachin Patel, who's at Northwestern now,
but he was at Vanderbilt when he did this study,
they basically played with these drugs
that you can use to prevent endocannabinoid synthesis.
So you can create a state of like impaired endocannabinoid function.
In humans?
And they did this in rodents.
Okay.
So this was done in mice.
And they basically, but one of the questions was is, so A, does like reductions in endocannabinoid
function produce states of anxiety?
And they did demonstrate that.
So you could deplete endocannabinoid levels and you got the emergence of an anxiety state.
So then you could give drugs that would boost
the endocannabinoids to normalize this.
So again, it kind of fit with the idea,
but then they did one key study where then they gave THC
and saw could THC fill in the gap?
And they found that like boosting endocannabinoids,
giving THC on a background of low endocannabinoids
was able to reverse that anxiety phenotype
and bring it back into more of the normal range.
So again, maybe for some people,
this is, again, this is theoretical.
So I don't know how much of a spectrum there is
if there are people that are at this low end,
but certainly I think from the animal literature,
there's some foundation for making a theory
that's similar to what you're saying,
which is maybe some people are trying to fill in a gap
of something that's deficient in them, and therefore that can help them feel less anxious.
And that again, may be very different than someone who is like, you know, very anxious
for different reasons or has normal endocannabinoid function or something else might be a play
there.
So, yeah, I think I could explain some of the heterogeneity that exists out there for
sure.
Yeah.
So perhaps genetic differences in sort of baseline levels of anxiety perhaps map to endogenous levels of anandamide
and might predict propensity for THC use.
Yeah, I mean, we have definitely found
in human populations through work I've done
with a lot of clinical collaborators and others,
like, you know, we look at endocannabinoids in the blood
and it's not in the brain, but they are lipids
that can move pretty easily back and forth. And we have found relationships between peripheral endocannabinoids in the blood and it's not in the brain, but they are lipids that can move pretty easily back and forth.
And we have found relationships between peripheral endocannabinoid levels and mood states, both
anxiety and kind of depression of measures, which does somewhat relate to the possibility
that this could be real.
We don't know.
It's been hard, obviously, for various reasons to really track this. But we've never looked at an anxiety disorder population.
We've done some work with post-traumatic stress disorder populations.
There's been work in depression populations that have found some relationships that are pretty similar.
So it's certainly a possibility, but again, this is all like our theory at this point.
So we'll see as things kind of move forward if they pan out, but yeah.
Fantastic. And I really appreciate that you're able to share some of what your laboratory is working directly
on now and looking into the future.
And I wanna thank you for what has been
an incredibly clear, precise, and in many cases actionable,
whether or not it leads to a yes or a no,
actionable information here, because cannabis and CBD, as you pointed out,
are kind of everywhere around us.
And people are making decisions about cannabis and CBD.
And I also want to thank you
because what initially started off
as a bit of a confrontation online,
which I alluded to in the introduction that I gave,
has now evolved into a collaboration
that I'm certain, based on the exquisitely clear
and generous information that you've provided,
has led to better education, more clarity,
and therefore better informed choices for all the people
listening and watching.
So I really, truly appreciate you coming out here,
sitting down with me discussing these issues
Clarifying points that were unclear before
And and also point into the fact that this is a complex system a complex biology
You know, there are a lot of things about psychosis about negative effects about potential
positive uses of cannabis that just are not yet clear.
And thanks to excellent researchers like you
are likely going to be clarified in the years to come.
So thank you ever so much for your time, for your research,
and for your attention
to the public health education effort around cannabis.
Thank you. Thanks.
And I think it's also important,
I think it's good as you had said that,
like for people to see that scientists can have disagreements. Absolutely. I think it's also important, I think it's good as you had said that, like, for people to see that scientists can have disagreements.
Absolutely.
I think it's important, I think it's good that you kind of provided me an opportunity to correct the record and did so in a very appropriate manner.
I think this was a great discussion for people to understand different perspectives, also good to highlight where it was that I had had issue with your
previous podcast.
I think the discussions that came out of that were for the better, so that's all the best.
Hopefully if there's other contentious issues that happen down the road, similar things,
move forward and you chat with people in that area as well.
Oh, I always... Yeah.
If somebody who is expert in a particular area takes issue with something
specific and can substantiate it with something that can foster better understanding, without
fail, I'll reach out to them.
Now, how quickly we're able to get them here, et cetera, is always an issue.
Sometimes we can put an addendum to a podcast.
Nowadays that's easier using what's called dynamic insertion where we can go back and
actually make a correction.
But listen, the best situation is always when this podcast can mimic the real world of research
science as you and I both know it to exist where if we had been in a meeting and you
presented data, I presented data and we disagreed, what we would probably do would be to head,
well, traditionally, it would be to the bar, but we'd grab a cup of coffee or go for a walk
and we would talk about it, hash it out,
and then potentially bring it up again at the next meeting.
So in some sense, what we've done here
over the last month or so,
and certainly during today's podcast
is to do something to that effect.
And I think it's really good for people in the public
to know this is how science progresses.
This is, you know, someone says something, someone disagrees with it, you get an opportunity
to clarify things, and I think that that's really good just to move things forward.
So I think that was a good process that we've gone through.
Yeah, likewise.
And it's certainly within the spirit of the podcast.
In no way, shape, or form do I purport to get everything right, and where I've made mistakes,
I really strive to correct them.
And listen, it's been a real honor
and privilege to have you out here.
Thanks for coming all the way from Canada.
And I do hope to have you back again
as the research evolves
and we can learn more about these topics and more.
So thank you so much, Matt.
Appreciate you.
Great.
Thank you for joining me for today's discussion
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