The Dr. Hyman Show - Why Chronic Disease is Exploding w/ Daniel Schmachtenberger
Episode Date: July 2, 2025I recently sat down with Daniel Schmachtenberger, a strategist and founding voice behind The Consilience Project, to explore the deeper systems fueling today’s chronic disease epidemic. On this e...pisode of The Dr. Hyman Show, Daniel shares a powerful perspective on how modern life impacts our health and what it will take to create lasting change. Here’s what we cover: • Why chronic disease today is largely “man-made” and what that actually means • How pollution, industrial systems, and healthcare itself are quietly driving illness • Why medical stats can be misleading and how to think beyond symptom management • What it will take to build a system that prioritizes prevention and real well-being This episode offers a rare lens on the systems shaping our well-being. I hope it sparks new insights and inspires action. View Show Notes From This Episode Get Free Weekly Health Tips from Dr. Hyman https://drhyman.com/pages/picks?utm_campaign=shownotes&utm_medium=banner&utm_source=podcast Sign Up for Dr. Hyman’s Weekly Longevity Journal https://drhyman.com/pages/longevity?utm_campaign=shownotes&utm_medium=banner&utm_source=podcast Join the 10-Day Detox to Reset Your Health https://drhyman.com/pages/10-day-detox Join the Hyman Hive for Expert Support and Real Results https://drhyman.com/pages/hyman-hive This episode is brought to you by BON CHARGE, Big Bold Health, Paleovalley and AirDoctor. Head to boncharge.com and use code DRMARK for 15% off your order. Get 30% off HTB Immune Energy Chews at bigboldhealth.com and use code DRMARK30. Get nutrient-dense, whole foods. Head to paleovalley.com/hyman for 15% off your first purchase. Get cleaner air. Right now, you can get up to $300 off at airdoctorpro.com/drhyman.
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Coming up on this episode of the Dr. Hyman show.
We are food we wouldn't be safe to eat.
We have a progress narrative that things are getting better and better because of tech and capitalism.
And there are certainly areas where that's true. It's just not the whole story.
Daniel Schmuckdenberger is a social philosopher.
And system strategists studying how collapsing institutions
and exponential tech are reshaping our health.
Some of the effects of tech and capitalism create environmental pollution,
cheaper health care or cheaper food that has side effects
and externalities that affect our bodies.
And so we figured out organophosphates, napalm, awesome.
We can kill a lot of people in Defoli,
the whole jungle of Vietnam with this.
Oh, guess what?
We can also make an herbicide and spray it
on all of our food.
As you see in your clinic every day, it's all changeable.
And it's changeable acutely for each person,
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All right, Daniel, I'm so excited to have you on the show.
This is a long time in coming.
We've had many conversations,
which I've tried to keep up with,
understand how you think,
because I don't imagine many people have heard of you,
know about you, or know who you are,
but your background and your thinking is so remarkable
in its depth and its clarity and its ability
to bridge many different disciplines
and come up with an overarching understanding of what's wrong in our society and where our
existential threats are and how we can fix them.
It's going to be straight.
We're in a really shitty situation where we have more and more health care, quote,
sick care, and more and more illness.
And it's exploding at such a rate
that we can't even keep up with it.
Just in my 40 years of being a doctor,
I've seen just the acceleration of chronic diseases
and both in the amount of suffering, the severity,
the scope of them, the increase in new diseases.
It's just, it's remarkable.
But the last, you know, 100 years, we've seen this sort of inversion of the life expectancy curve.
It's kind of starting to dip down and we're starting to see a drop in life expectancy.
And I think it has to do with the kind of rise of what you have termed anthropogenic disease.
First, thank you for having me. I'm really excited to be here.
I followed your work for a very long time before we got to know each other through
Institute of functional medicine and things like that. Obviously over the 40 years you've been in practice
That was already after the better living through chemistry boom started and modern industrial agriculture started
So it would be even a more extreme picture if we went back further
you've obviously studied the history on going back further a A lot of people think, oh, well, the rise in diseases is just a result
of we're diagnosing more or something like that
as opposed to, no, there are ways,
like we have a progress narrative
that things are getting better and better
because of tech and capitalism and democracy and whatever.
And there are certainly areas where that's true.
It's just not the whole story, right?
And there are areas where some of the effects
of tech and capitalism create environmental pollution
or cheaper healthcare or cheaper food
that has side effects and externalities
that affect the environment but help affect our bodies.
So let's talk about that.
I mean, let's dive into what, you know,
we're sort of set the stage for the fact that, you know,
we're having increasing rates of these chronic diseases,
increasing mental health crisis,
increasing rates of neurodevelopmental
issues, decreasing life expectancy.
I mean, it's a grim situation and we're spending more and more and getting less and less.
So the question then is, what is this context in which the disease is occurring?
Why is this happening?
And what are the anthropogenic reasons for this chronic disease epidemic?
So you were, as you were going through the list, you mentioned vitamin D, you mentioned
mercury, that's obviously deficiency, toxicity, you mentioned some pathogens, you mentioned
stress.
So you have a model of like what the underlying categories are.
And a lot of them are things like everybody knows what acute deficiency is, what acute
toxicity.
You just got a bag of chemicals poured on you.
You have acute poisoning.
You're vomiting.
You have to go in for toxicology.
But there is something that is called toxicity that is not
just a hippie nonsense idea.
It's a real thing.
It is not acute poisoning.
That is chronic.
That is subclinical or subacute.
Same with infections.
There's you have acute infection.
You're producing symptomology versus kind
of subclinical infections,
which is in Lyme disease or in viruses that cause cancers
or whatever it is.
So the treatment of everyone's gonna be personalized,
not based on a disease diagnosis,
but based on their actual medical history,
their symptomology, their labs,
and what's uniquely going on for them.
But it's gonna be personalized within a framework
that is kind of not that hard.
Yeah, that's right.
I mean, the laws of nature are pretty simple.
Pierre Laplace said, they're the laws of biology
when I think we're describing them,
and I think we're getting toward approximation
of what that looks like.
And there's, you know, functional medicine
is just a heuristic, it's not the end all and be all,
it's just a framework that we're continually evolving
to understand the complexity of human biology,
which is infinitely unknowable, but even though it's so complex, you know, a rocket ship is
complicated, right?
Yes.
But it's knowable.
It's a no-no.
Well, there's a blueprint that specifies it completely.
Yeah.
And DNA is actually not a blueprint.
It's a generator function which can make a new protein that's never made exposed to a
new thing.
Yeah. Right?
And it evolved rather than was designed, which is why it's self-repairing, right?
The rocket ship doesn't self-repair.
It doesn't self-evolve.
Yeah.
And so biology is not mechanics, right?
It's like it's a different, unique thing that have a system that self-organizes,
wasn't created from the outside, that has an immune system, right? Like, it'd be dope if our computer had an immune system, but it doesn't or right things itself
He virus self-evolve and
So we're like, okay
What's happening in a system that is building itself evolving itself repairing itself is obviously different in type than a system that doesn't repair itself
That doesn't evolve itself. So we have to make sure we're using the right
Epistemology right the right kind of scientific framework. So you were talking about laws of biology and we're talking about
anthropogenic stuff, which is like stuff in the current world that is different
than the evolutionary environment even though our genes aren't different. Right?
Like modifying the environment in a way that we are not actually genetically
fit to. That mismatch is really why we're saying. So let's talk about that a little
bit because I think the first thing is a lot of
People are still suffering from the propaganda of Hobbes and Hobbes is descendants, right?
And in the state of nature's life is brutish short nasty and mean
right and as you already mentioned the average life expectancy was 30 and their life was
Shit the entire time until they were 30 and you know that's nature, right? That's just nature.
That's human biology, that's nature,
and are civilizing ourselves.
Technology is creating longer lives
and everything's getting better and better.
And this is like awesome propaganda.
If you're colonialist and you wanna kill all the natives.
We're helping them by killing them
because they won't have to suffer so much.
I mean, Churchill has a famous quote that says,
I'm gonna paraphrase it,
actually have a whole list of
quotes about manifest destiny of kings. I mean, manifest destiny in the US and divine right of
kings and like just stuff that when we look back, we say, wow, that was the most dreadful
propaganda nonsense. But we still do the same kind of thing. But Churchill said something like,
I don't hold for one second that our treatment of the red man is a bad thing in any way because evolution selects for
higher life forms and a higher species replacing the lower species is good. Right? And you're like,
shit, that's a big deal. So North and South America, the Americas before Columbus, et cetera,
right? Before colonization was roughly, depending on who
you look at, 140 million people. And within a short period of colonization, both from
infections and war and driving them out of viable habitats, the population was decimated
by 90%. And if you look at that and you compare it to whatever, 6 million Jews in the Holocaust,
right, and you're like 90% of 140 million, which is so many different civilizations that had different languages
and songs and art and pharmacologies and just gone. And similarly, so many ecosystems, so
many species, like we don't have the giant sloth, we don't have the mammoth. Many of
those were early human extinction
from over hunting, from destroying habitats. And of course it makes sense that like if
the winner writes history, of course they're the good guy, right? The winner's not going
to say we were the bad guys, but we were better at weapons than them. We destroyed them because
they were peaceful and lovely. No, we're going to say they were, they were brutish and terrible
and we brought democracy and Christianity and
whatever. You can say Christianity, you can say Islam, you can say whatever the thing is that is
justifying Wyatt One. So there's something where it's like the dominant narrative of a power system
has to justify the power system. And so it's gonna be apologism to the power system. We saw that
through the Crusades, through the dark ages, dark ages. And so history's hard, right?
Because we gotta read this stuff
that's written by the winners.
Yeah.
And you're like, in general,
more peaceful cultures got slaughtered
by more warring cultures.
It's not like everybody that Genghis Khan slaughtered
was a less good civilization.
No.
They were less good at war,
but how many people that knew how to live in more peace
got slaughtered in the process?
Because they didn't build maximally lethal militaries and
Yet we are the descendants of who made it through history
Which you are good at war and weapons and killing mass of populations. Mm-hmm
Not keeping populations in stable relationship with their environment
Good at technology that can be used in competition and war so it's a really interesting selection criteria
So then we tell the story,
oh, they only lived for 30 years and life was terrible.
But you were just saying like, hey, no,
actually some of the Plains Indians were living to 100.
A lot of them were living to 100.
This is such an important story
because I think one of the things that I want
to get across in this conversation is
there's still this general idea
that is a part of the progress narrative,
that is a part of just propaganda, say.
That is, the diseases come from nature.
Man in a state of nature's life
is brutish or nasty, I mean.
And the progress comes from science
and the application of science,
the technology brought to the world via the market,
blah, blah, blah.
And now look at how long we live
and vaccines solved all these issues and whatever.
And it's not that there's no truth to it, but it is cherry picking.
The stats pretty heavily.
90% of measles was gone when they've introduced the vaccine because of better
sanitation and health.
This is pretty important part of the story.
And so if you rewind a little bit to say dark ages Europe, this is not an
indigenous culture.
And then if the indigenous cultures you're studying post-science, which is
very recently,
are post trail of tears after you've already slaughtered
most of them, moved them to an area where they don't
understand the plants or animals and that were like
crap areas, and then they're drinking and whatever.
You're like, this is not a study of indigenous people.
So there's a lot of indigenous scholars.
They're like, come on, this is ridiculous.
Like, no, we had a lot of people that were a hundred years
old, there's a lot of diseases we just didn't have.
So this idea that like the diseases just come from nature, our genome is a bummer, right? Like
nature's a bummer. Tech is going to solve it. As opposed to like actually technological agriculture
has really made a lot of people sick. Technological mining and et cetera that has caused ubiquitous
pollution made a lot of people sick. So when we say anthropogenic disease, we're not just talking about iatrogenic, right?
Anthropogenic meaning diseases we have that are a result of our own action as a species.
So if you take mining, for instance, right, there's there's 2 billion tons of
municipal waste produced every year, waste that comes from our house.
It's a lot. 2 billion tons like mind blowing.
When you think about it, there's about 190 billion tons of mining waste produced every year. That's a lot, two billion tons, like mind blowing when you think about it. There's about 190 billion tons of mining waste produced every year.
That's a lot.
Because you mine stuff, but that rock, it's not all the thing you want, right? You want
a particular metal. All the stuff you don't want is waste, is tailings. That stuff is
almost all super toxic. And it gets put in some big dam that eventually breaks and all
goes in the water. This is comprehensively undoing what took the biosphere a billion years to do
that made life possible in the first place.
This is, you had actually mentioned something I want to, it's a tangent,
but I want to double down on this.
Maybe there's aliens, who knows?
We're not going to get into that part right now, but when we look out at the
universe, we see a lot of planets that are not habitable.
And we don't see a lot of places that look habitable. This place is pretty awesome.
We don't see any.
Right? Carl Sagan's pale blue dot is as relevant today as it was back then.
Yeah.
So this, like the fact that it's habitable to life is a big deal. We should want to
protect it more than anything.
Not move to Mars?
Not move to Mars? Ha ha ha ha ha.
Obviously, if you deal with radiation and other issues,
0.4G is a pretty tricky issue to deal with, right?
As you see, the people who go into 0G,
and they do a lot of resistance training and everything to try to deal with it,
bone density goes down, neural density goes down.
Neural density drops pretty massively.
So, you know, like, obviously? Neural density drops pretty massively. So, you know,
like obviously we have all fit to this planet. We have a planet that supports life. It's rare as can
be, right? It's everything we care about depends on that. And it took a long, like the other planets
didn't do that. At least in the time period that we can see, that's very special. It took a whatever, a billionish years
for geological hydrological processes
to make a space where abiogenesis could start to happen,
where life could start to emerge.
And that was trapping all the super toxic stuff
in which life couldn't emerge in rocks in the lithosphere
and making a certain temperature range
and whatever that life
could emerge in.
And then it took like a billion years of just
single cell creatures to make a biosphere in which
multicellular creatures could emerge and on and on.
And then you look at the biosphere, a complex biosphere
and you're like, it's pretty much six atoms, right?
Like there's 92 elements on the table.
Carbon, hydrogen. Yeah. Oxygen. First, right? Like there's 92 elements on the table.
Yeah.
Oxygen first, right?
Like 65% of our body by weight is oxygen because
water, oxygen, carbon, hydrogen, nitrogen,
phosphorus, calcium make up 96% of our weight.
And you add the few electrolytes in there and
it's 99% of our weight.
And then you have trace minerals and the trace minerals are important.
They're a tiny bit, but roughly every animal plant, whatever, has the same distribution
of trace minerals, the same building blocks, the same type of molecular bonds.
This is a humongous deal to understand.
Me and you and a dog and a mouse and a scorpion and a tree and a fungus are made of the same stuff,
same atom, same molecular bonds,
which is why any of them can die, go on the soil,
turn into soil, turn into new stuff.
A tree can fall, body can fall, an animal can defecate.
Rattlesnake poison, right?
Like super duper poisonous stuff,
still the nature of the bonds.
It dies, breaks down, doesn't stay as an enduring toxin.
Unlike plutonium, which stays around forever.
Yes, or PFAS or whatever, right?
Styrofoam, because those are either atoms
that were not part of the biosphere
that we got through mining,
or molecules that we made up in a chem lab
that nothing in nature knows how to break down, right?
Like your bond, so just to get a sense of like,
part of what allows evolution to work
is that we're all made of the same stuff.
And we need the same physics, right?
Obviously, the North Pole to the equator
are different temperatures, so polar bears
don't do very well in the savanna,
and cheetahs wouldn't do very well in the Arctic.
But the temperature difference from the North Pole
to the equator is almost nothing compared
to everywhere else in outer space, right?
Sun's really hot.
Well, some things are very hot, some things are very cold. But everything here operates with the same pressure, the same physics, the same
ionizing radiation, the same chemicals, the same temperature ranges. That's a big deal
to get. And the same chemicals and the same molecular bonds, a huge deal. And it's part
of why coevolution works, why there can be mutual symbiosis is we are literally recyclable
into each other. Yeah.
Right?
Now, if you think about, from that perspective,
how rare life in the universe is,
how rare the biosphere is,
how it's all based on basically these same six atoms,
same molecular bonds and a little bit of trace minerals,
then you start to think about
how mind-blowingly stupid mining is.
Taking other weird things out of the earth
that should be buried in there and things
that we should be protected from
because they don't do well with our biology.
Things that are omnitoxic to all life forms, right?
Like mercury is bad for all life forms.
Cadmium is bad for all life forms.
Lead is bad for all life forms, et cetera.
So fortunately for us, the earth has a lot of those,
but they're all bound in rock in the lithosphere
under the biosphere, not part of the biosphere
we don't have to deal with.
So what do we do? We say those are useful for industrial purposes.
So let's actually destroy the biosphere on top to make a mine. Let's pull this rock up.
Let's pull that super toxic thing out through smelting and metallurgy and whatever. And
if we just kept it all in a perfect metal and recycle, it'd be one thing, but we burn
the coal and put the mercury and lead in the air. We put the lead in the gasoline and aerosolize it.
And then also the rest of the part that is toxic tailings
also goes out.
So you're like, we have one planet
that we know is habitable.
It's habitable because of specific chemistry.
And we are as fast as possible making omni-toxic shit
that chemistry can't deal with.
And that's a big part of what's making us sick.
And it's something that medicine has sort of ignored,
which is this chronic low level burden of toxins
that we're all exposed to.
And we're all basically assessable.
If we were food, we wouldn't be safe to eat.
The average newborn has 287 toxins
in their umbilical cord blood.
Wait, wait, wait.
Before they take their first breath.
We see the same thing in the mother's breast milk, right?
And in her blood, like just people need to have this sink
in mother breast milk, mother's blood, baby umbilical cord, two to 300 petrochemical and industrial toxins.
It's crazy. I mean, you should still breastfeed, but it's still-
To even call it low level is ridiculous, actually.
I've thought of a business of creating a breast milk filter. I don't know how you'd do that,
but-
Well, the lymphatic system is a filter, but it can only filter, like,
in our evolutionary environment,
we were not exposed to organophosphates.
So what evolutionary process can deal with organophosphates?
And so we figured out organophosphates, napalm, awesome.
We can kill a lot of people and defoliate
the whole jungle of Vietnam with this.
Oh, guess what?
We can also make an herbicide and spray it
on all of our food.
Life-assay. Life-assay, yeah.
To think about this thing that we invented as a chemical weapon to destroy nature at scale.
Napalm, which is dioxin.
Same molecular class, we figure out, oh, we can kill weeds in agriculture settings,
but we're going to spray it on all the food and humans are going to eat trace amounts of all of it.
And the pesticides, like the thing that blows my mind about pesticides, you're like, okay, nuclear modeling.
Nuclear war happens, nuclear winter, almost everything dies.
The only things that make it are bugs with exoskeletons.
We wanna make something poisonous enough to kill bugs
that can make it through a nuclear winter,
and we spray it all over our food, and then eat it.
And just because we're bigger, it's not a lethal amount,
but it's a long-term lethal amount.
But it bioaccumulates, and it's additive, and over time but it's a long term lethal amount. But it bioaccumulates and it's additive.
And over time, it's sort of like,
that's what I see so many of the times that we see.
And in many of the diseases of aging,
chronic diseases we're talking about,
including autoimmune diseases,
are all the result of this total load phenomenon.
It's not just one thing, it's a total load of everything.
And you keep adding and adding and adding.
So when you say low level, it's important to say,
so we're talking about lead poisoning, right?
There's like, you have acute lead poisoning,
you have Mad Hatter syndrome.
Okay, that happens because you're working in a lead mine
or some industrial source, right?
But how much was there in an evolutionary environment?
None.
So what amount is good for you?
None.
Right.
So-
That's why I laugh when I see the reference range
on the lab of like the level of mercury that's considered normal is one, you, none. Right. So. That's why I laugh when I see the reference range on the lab of like the level of mercury
that's considered normal is one, zero to 10.
I'm like, well there's no biological requirement
for mercury, it's zero is the normal level.
Yes, yet that would mess up so much industry
that the industry's gonna lobby the EPA
to make a number that doesn't mess up
the industry too much.
And the cost, the externalized cost
is your children's health.
And your grandparents' health, and your health, and the cancers that everybody's going to get.
Yeah.
I see this.
I saw this kid, my practice years ago, his mother was just such a good, attentive, observant
mother.
And she saw this kid who went from a normal little kid to being extremely difficult, extremely
aggressive, violent, learning difficulties, dysgraphia, dyslexia,
just a whole bunch of things, neurodevelopmental things.
And she said we live north of Albany in this town
where there's a cement plant across the street
from the school.
This is why the history is so important.
How many doctors ask their patients
if they live near a cement plant or a coal plant?
Nobody asks that, right?
But it's part of the history that we find really essential.
And she said every day after school, the cars would be coated, like in Austin here, when
it's pollen season, like your car's just coated with pollen.
Their cars every day were coated with dust from the cement plant.
And that quote dust was a toxic soup of chemicals.
And when I actually did a chelation challenge test, which again is something we don't do
in traditional medicine, but we look at your blood levels and that can tell you if there's
any acute exposure.
And often there are levels that are significant.
You see kids, for example, with high lead from environmental exposure, but it often
is stored in the tissues.
And so we give a drug called DMSA, which is a FDA approved drug for chelation.
That's a Greek word that means to claw, to bind some things, so it binds the metals.
And then we collect the urine.
And we saw this kid was just, everything was just lit up, arsenic, aluminum, mercury, lead.
I just want to specify that one of the things you said is you had to use a different testing
method.
Yeah.
Right?
Because of course if there's something that's circulating in the blood that's going to cross
the blood-brain barrier, that's going to go into the kidneys and hurt the nephrons, it's
so dangerous to keep in the blood, the body will excrete it as fast as it can.
If it can't excrete it fast enough, it wants to get it out of the blood.
Yeah. It stores it in the tissues.
So you do a blood level,
blood level's the wrong thing to do, right?
If you're not looking at tissue levels, which is what.
But tissue biopsies are not a non-invasive thing to do.
But this is just important to be like,
people could say, oh, this is nonsense,
I've ran the labs and nobody has heavy metal.
Well, are you running the right labs?
Very important topic.
And again, there's some theory under it.
Right, and one of the gold standard tests for lead, for example,
is looking at bone levels through various specialized types
of imaging that are used in research.
And that's what you should be looking at.
It's sort of like the joke I always tell,
that this guy drops his keys on the street,
and he's looking for them under this light post,
and his friend's like, what are you doing?
He says, I'm looking for my keys.
He says, where did you drop them?
He's like, I dropped them down the street.
He says, why are you looking here?
He said, the lights that are here.
And that's what we do in medicine.
We tend to do testing that we have available,
but not the right testing.
And I even remember an article in the New England Journal
of Medicine, or JAMA, was one of those,
I was talking about like mercury and they said,
when we check the blood,
cause that's the easiest thing to do.
I'm like, well, that's not where you want to check, you know,
to see what's really going on.
And, and so this kid, these kids who were living at the cement plant were,
were severely affected by these and by treating them and getting rid of the
metals and decreasing their toxic burden, they were able to actually
recover and do well.
We've all been there.
You're on the go starving and your only options are ultra-processed snacks made from
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So everybody, most people know the story of leaded gasoline,
tetraethyl lead being added to gasoline. Most people don't know the story of leaded gasoline, tetrahedral lead being added to gasoline.
Most people don't know the story well.
There's actually an exceptional video on this made by Veritasium, a YouTube channel online
that describes the tetrahedral lead story.
It was an additive for gasoline in the early phases of internal combustion engines that
stopped engine knocking.
As in, not even absolutely crucial. Heaps of other chemistries that could stop engine
knocking as obviously we know because we don't have lead anymore. The early studies that
were done on tetraethyl lead on toxicity, the people did get sick, including the researcher,
and the results were hidden. So it wasn't that we couldn't have possibly known.
It was we actually knew, hid it, and brought it out anyways
because of the economic interest.
And then to think about what adding lead to gasoline means,
which is you're aerosolizing it.
You're not just putting it in the water or the soil.
You're literally atomizing one of the most toxic chemicals
that exists and putting it into the air at scale, right?
So, of course, even though it was already known toxic, that was hidden,
and then the companies that were producing the tetrathal lead fought really hard
to keep it there and not ban it.
And it only finally got banned after the preponderance of how much harm it was causing got proven decades later.
The effects, when you look back in just America
are estimated at a billion points of IQ loss for America.
Yeah.
And-
That's staggering.
I just would like people to take in-
Make Americans dumber.
Yeah.
A billion points of IQ loss
for a population that was less than 300 million people
is a lot of IQ loss.
And then there were also studies
on increased violence and aggravation.
Yeah.
That showed that populations that were heavily exposed
had something like 4X the impulse control disorders.
Impulse control, skull performance, cognitive deficits.
Not to mention the bone issues, the osteoporosis,
the cancer, everything else,
but if we just look at even the psycho-cognitive elements,
because one of the, like again, one of the bullshit stories that is real politic is like, it goes back to the Hobbesian
story. It's like, humans are kind of dumb and nasty. It's why we need rule, right?
Humans are kind of dumb and nasty. Well, empirically, we made humans dumber and
nastier with just the aerosolizing lead. And you're like, who would the humans be
if we hadn't done that? So then you say, okay, well, that's an old story
because we got rid of lead.
Well, no, those effects are enduring.
And as you see-
Lead doesn't go away, it's in the soil still.
It's still in most of the pipes.
It's in the pipes, right?
Right, it's like we still see it in water.
That whole thing that happened in Flint, Michigan.
But Albany's worse than Flint, Michigan.
Even though we supposedly banned lead and gasoline,
it's still used in prop planes,
it's still used in certain military and farm equipment and other kinds of things.
So we're still using it.
It's supposedly banned around the world, but it's still used because it's not enforced
in the third world pretty heavily.
But then the lead that comes from mining, specifically mining effluent, there's a study
I saw in 2019 that showed children under five lost 780 million IQ points just in 2019, just from lead.
Well, it's interesting. It's not just that it affects your cognitive function, it affects
everything. You know, there was a really pioneering study that I saw in American Journal of Cardiology
where they found that anybody with a lead level of over two, and by the way, the lead levels that
they thought were harmful were 40 and over.
Then it was 20, then it was 10, now it's 10.
But that was not based on proving that they weren't.
That was based on lobbying from the company,
from the industries that produced the lead
that wanted to not have that much restriction.
But still the lead levels that quote normal
is one to zero to 10, right?
And in this American Journal of Cardiology study,
they found that...
Excuse me, I was saying the arguing for it being higher
was the lobbying side, the proving the toxicity
brought it lower, but it's still, as you're mentioning,
one to 10.
Yeah, still one to 10.
So it's still pretty bad.
And what they found was in terms of kids' cognitive function,
it was a continuum from zero to 10,
still causing a problem.
It wasn't like you had no effect.
So that's been well proven.
But what was really interesting was the American Journal
of Cardiology found that if your lead level was over two,
two out of 10, which is 39% of the population
of adults and kids, it was a bigger risk factor
for stroke and heart attack
than having abnormal cholesterol.
Which nobody talks about.
So you go to the cardiologist,
they're not checking your lead levels.
And one of the-
And even if they did,
that's only one fifth of the allowable level.
Right, and what's really interesting is that
there was this whole movement in the 70s and 80s
for chelation therapy,
which was thought to be quackery,
and the NIH did a $30 million trial called the TAG trial,
where they used EDTA IV chelation,
EDTA specifically removes lead,
and they found that it was very actually effective
in preventing heart disease and heart attacks,
and yet it's not part of standard medicine.
Lead increasing heart disease, use attacks, and yet it's not part of standard medicine. Lead increasing heart disease,
use it more than cholesterol markers?
Yeah, and how much do people hear about the safe,
quote unquote safe levels of lead compared to cholesterol
when it comes to heart disease from the cardiologist, right?
Nobody.
But, and again, we're not just saying within the safe range,
we're saying not even close to the top of the range.
Yeah, it's like. Someone would look at it and they'd be like,
oh, I'm near the bottom of the range.
That's awesome.
Except the range, you're like in evolutionary levels,
it's not even the right scale,
because what we're calling one to 10
is actually like one to a million
in terms of what should be the right part per billion scale.
I mean, there were moments in human history
where there were volcanoes and there was exposures,
but not much, right?
Not much, yeah.
In terms of like the famous topic people like to talk about right now of what caused the fall of the Roman Empire, there's a whole
lead pipes.
Well, lead was added to sugar to make a particular kind of sweetness and lead was actually added as a food additive
and to alcohol plus the lead pipes plus the lead holes.
Actually, I love the story. I have a few patients who are wealthy and
they get fine crystal
or they have wine out of leaded crystal.
I remember buying wine glasses once
and I went to the store and I'm like,
these are five dollars a piece
and these are $50 a piece.
I'm like, why is this $50 wine glass?
He said, well, it's leaded crystal.
I'm like, leaded crystal, why?
He says, well, because the lead
makes the wine taste sweeter. That's why I kid you paint chips,'s leaded crystal. I'm like, leaded crystal, why? He says, well, because the lead makes the wine taste sweeter.
That's why I kid you paint chips, because it tastes sweet.
I was like, wow.
And then they have fancy glazed plates,
which are from Italy or France,
which is the glaze is full of lead.
So you can get it in lots of different ways.
The fact that in 2019, children under five, globally,
had 780 million points
of IQ loss.
That's like that should be up there
in crimes against humanity.
As like whoever the fuck did this needs,
like the whole industry needs to be punished.
Like, cause those kids' lives are ruined, right?
Like massively ruined forever.
The civilization that those kids run
with less cognitive power as we're moving
into an increasingly complex world.
And the IQ's obviously just one thing.
It's increased heart disease, increased cancer,
increased osteoporosis,
and increased impulse control disorders, aggression,
like their psychiatric components.
So sicker, dumber, and meaner.
And we're just talking about one compound.
And you're right, I mean, you know they looked at at the children of the farm workers in California who were exposed to
Large amounts of pesticides and herbicides that that cohort of kids that they study lost 41 million IQ points
Just from exposure to pesticides was not just so you add the pesticides up you add the lead up you add the mercury up you
had the the It's not just lead. So you add the pesticides up, you add the lead up, you add the mercury up, you add the,
there's 350,000 chemicals that are in regular industrial use
that are regulated, something like that.
There's 280 million chemicals in the database
of the American Chemical Society.
And we're talking about things that were not part
of our evolutionary environment, are not part of the makeup.
The thing that I think we have a way of talking about
disease in medicine, I got cancer, I got heart disease,
I got diabetes, I got Alzheimer's, you don't get it.
It's not like a bug that you catch or a cold,
it's a consequence of the environment in which we live,
and that's sort of what you're talking about.
Because a lot of populations look very old.
I mean, the, the, the Plains Indians had a highest
number of centenarians at the turn of the century of
any population, there were a hundred gatherers.
And so it wasn't like every hundred gatherer died at 40,
but the last, you know, a hundred years, we've seen
this sort of inversion of, of, of the life expectancy
curve, it's kind of got started to dip down and
we're starting to see a drop in life expectancy.
So I think we're not taught that these things are fixable, but if you understand the underlying
root cause model of medicine and understand how to identify the root causes and figure
out also how to create a thriving human and provide those conditions, because right now
as you sort of talk about this anthropogenic disease, this really means we've created an
environment in which disease flourishes. as you sort of talk about this anthropogenic disease, this really means we've created an environment
in which disease flourishes.
It's sort of a disease causing culture, society,
environment, food environment, toxin environment.
When you kind of remove those things as best you can,
these diseases can reverse.
I had a guy who was living in Pittsburgh
who was seven years old and he,
and I didn't know this, but Pittsburgh,
they had the steel plants and they, they, he,
they, they use coal to, you know, make steel and
they use the coal ash to cover their fields and
to, when there's snowy icy roads to put them on
the snowy icy roads and coal ash is full of lead
and mercury.
And he was extremely mercury toxic and also had
other issues.
He had insulin resistance.
He had, uh, gut issues his whole life.
So we had a lot of dysbiosis and gut inflammation.
He had methylation issues, it'd be vitamin problems.
We had a whole series of things.
It wasn't just one thing, but you add all that together.
Plus his APOE double four status, which puts him at risk.
And he was presenting with Alzheimer's.
And yet by a very aggressive detoxification program, by getting the metals out of his
system, by chelation, which is heresy in medicine, by giving him methylated support, optimizing
his gut function, fixing his insulin resistance, he reversed his cognitive decline and he was
actually able to improve his mental status
and go back to work,
which was again something you just never see.
I mean, who's seen a survivor of Alzheimer's?
Well, I know that you have for a long time
known Dale Bredesen and his work in the space
and I think you are friends with someone,
I'm good friends with Dr. Heather Sandison
who wrote the book recently, Reversing Alzheimer's.
And I think that was a number one,
New York Times bestseller for a while.
And that particular study that she did there
was an inpatient using a Bredesen-like protocol
that was reversing the MOCA scores
in 70% of the people that went in within six months
with pretty basic stuff, like largely diet, lifestyle,
and a little bit of functional medicine.
And the MOCA scores is sort of a cognitive assessment that's easy to do, and a little bit of functional medicine. And the MOCA score is a sort of a cognitive assessment
that's easy to do and it's pretty predictive
of where you are in the trajectory
of memory loss and dementia.
Now, this is another one if you look at Alzheimer's
historically versus now that is really a disease
of modernity.
Do you wanna say anything about that?
I mean, Alzheimer's did diagnose this way back when,
in the turn of the century with this patient he had.
But the rise in dementia is staggering and it's one of the most costly conditions for
humanity not because of the direct medical care, but because of the long-term care that
they need and because of the loss of the ability to work for their caregivers, their family
members.
I've seen a dramatic increase in dementia and cognitive decline and it's sort of paralleled the rest of the chronic diseases that we're
seeing increasing and people's all we were waiting to warn heart to demon
nonsense.
We're seeing less deaths because we have better advanced medical treatments like
bypasses and stents and trauma last trauma,
Linux and blood clot dissolvers.
But we, we, we are seeing more and more people getting heart disease, more and more people getting cancer, more and more people dissolvers, but we are seeing more and more people getting heart disease.
More and more people getting cancer,
more and more people getting diabetes,
and more and more people getting dementia.
So despite the fact that we're spending trillions
of dollars on healthcare, we're not getting much
for our money, and this is kind of shocking.
This is why people need to understand
statistical warfare as part of information warfare,
is that you can cherry pick your stats, right?
And you can lie with facts.
Um, you can mislead with facts. You can say less people are dying.
And what you're alluding to is the issues getting better as opposed to, there
was even one case in which, uh, the stats were used at less people were dying of
gun violence and they were suggesting in that the gun violence went down, gun
violence went up, just emergency care.
So people didn't die.
That's right.
And so it's entirely possible just to speak to the larger political environment,
and this is a bipartisan kind of universal marketing driven issue, is people who are
pushing a narrative at scale usually have a motive to push the narrative,
political motive, a capital motive, something, right? And so you can take the whole story,
just take parts of it, and you can have facts
that make it through the most rigorous fact checker
that are true, but are still misleading.
Well, what Mark Twain said, he said,
there's liars, there's damn liars,
and there's statisticians.
Yes.
As you're mentioning, winning the war on heart disease,
what you're actually seeing is the rates of heart disease
are increasing.
And so this is like this mortality morbidity trade-off,
right, which is, oh no, where people are living longer.
And recently there's been a downturn in living longer,
but like that kind of doesn't matter.
If the latter part of their life is on polypharmacy,
is on a huge amount of meds with decreasing quality of life
and only being kept alive kind of artificially.
Like if someone gets off their meds, they die.
That's kind of like their own life support.
Which speaks to quality of life.
I think a lot of people don't understand
the mortality morbidity trade-off
and that the stats that are cherry picked
to say longevity is going up or heart disease is going down,
what it's not indicating.
Is there more on that you would say?
Yeah, I mean, I think we're losing the battle on disease.
We're spending more and more, I mean, we spend
twice that of any other nation, often three, four,
five times as much.
We're 48th in life expectancy and going down.
A lot of our statistics are worse than most
of the countries.
Wait, that's just, it's worth saying again, 48th in life.
48th, I think we're going down, it's getting worse.
And that's crazy.
With a $5 trillion a year healthcare budget.
Yeah, we're I think 30th among the top developed
nations in healthcare metrics like infant mortality.
And you know, we're spending huge amounts,
I think 40% of people who are over 65 take five or more medications a day.
20% take 10 or more medications.
I think some of the side effects of the other meds.
Yeah.
You know, 81% of Americans are in at least one medication.
So is this making us healthier?
I don't think so.
I mean, it's mitigating symptoms sometimes, maybe it addresses issues sometimes, but we know
that our healthcare system itself is, uh, and is
the third leading cause of death through, uh,
prescribed drugs given for the right reason at
the right dose for the right patient, not mistakes.
Medical errors is another huge category, but I
mean.
Let's put those together.
Cause when Ralph Nader was kind of popularizing
this topic, some of the issues have gotten
better on iatrogenesis.
But if you take iatrogenesis to mean diseases
that come from interaction with the healthcare
system writ large, the broadest definition.
So then it includes, as you mentioned,
prescriptions that are rightly given,
prescriptions that are wrongly given in allergic reactions
to meds and drug interactions and whatever, surgeries,
infections you get well in the hospital, et cetera.
If you add those up, many people add those up
and it's the number one cause of death
of Americans in the country.
Basically we shut down all the doctors and hospitals
and got rid of all the drugs, we do better?
We're not saying that because of course, we don't wanna do doctors and hospitals, got rid of all the drugs, we do better?
We're not saying that because of course,
we don't wanna do statistical warfare
because they're also saving lives, right?
But we can say, damn, we should be able to do better
on that side and we can, right?
Like you have plenty of clinical cases
where you're saving more lives
and causing much less iatrogenesis
and it actually costs less money
when you factor all the matriculated things.
There's obviously absence of acute symptomology does not equal a good definition of health
because we all know cases where someone went to the doctor for a routine checkup
and they find out that they have cancer and not that long to live,
and that cancer has been developing for a long time.
And as you're mentioning with pre-diabetes, a long time before the acute diagnosis
of now you have diabetes and you have to take a med for it, you were in metabolic syndrome.
And a long time before the autoimmune disease that produces enough symptomology, you had
inflammatory markers that you could see.
How many years ahead can you see signs of...
Decades.
Exactly.
Decades.
Now, if you see it decades ahead and you haven't had a humongous amount of tissue damage, you
can do stuff about it.
By the time you've got to advance tissue damage, it's a lot harder.
You can still do stuff about it, which is amazing. And your clinic will
attest to that. But I mean, in med school, there's this stages of disease, which is you start with
health is all the homeostatic systems and homeostasis is kind of a silly term because
it's not stasis, right? So homeodynamics. So you have all these homeodynamic systems in the body
that are responding to various stressors and the level they're at matters less than their responsive capacity,
right? You want to be able to respond to hot and cold and to pathogens and whatever well.
So you've got homeostasis or homeodynamics, then you've got deviation from homeodynamics.
Something comes, it takes you out of range and you don't respond properly. What is that
something, right? We'll get back to that. If that doesn't come back into range, if it comes back, great,
you're still healthy. If it doesn't come back in, then you have pathophysiology, right? The
physiology is operating differently as a result of that. If you keep operating differently for a
long time, you'll start to get pathomorphology. The structures will start to change. And oftentimes,
it's not until after that that the symptoms occur. And that's when you go and you get the diagnosis
and you've been in a very advanced development
of illness that whole time.
So obviously you don't want to wait till symptoms
and most people are walking around with a lot of symptoms,
which means actually pretty advanced disease
relative to what good health would be.
And so obviously the, an ounce of prevention
is worth more than a pound of cure thing.
I did a podcast recently with someone who was studying this compound that comes from
pomegranates and walnuts and berries called elagetanins that gets converted in the gut
through the microbiome to a compound called urolithin A that helps recycle old mitochondria.
And there's not very many things that do that. So maybe we've kind of evolved with these plants
to help us do our body's work. And then there's, you know, the right balance of hormones.
It can be hormonal deficiency.
It can be deficiencies of light and circadian rhythm and clean water and clean
air, which are all things we need. Uh, and movement, exercise, uh,
rest. So it could be like parasympathetic activities,
like meditation that restores our
nervous systems function, sleep, adequate sleep, connection, love, meaning, purpose.
These are all belonging. These are all things that we need. And if you, even something as
obvious as belonging, if you're lonely, you're, it's like smoking two pack of cigarettes
a day in terms of your risk
So you kind of go through that whole list and you can kind of see where people are and some of those things are just
consequence of our modern world like the
Increasing isolation lack of connections like a belonging lack of being part of a tribe and it maybe is why we see such an increase in
Tribalism and divisiveness in society because people are wanting to be part of something even if it's bad
You know like a gang right or could be AA or it could be Weight Watchers, it's all still a club. So I think we have this kind of interesting
moment where we're starting to kind of map out what these things are that impair human resilience
and function. And that's really why we call it functional medicine. I think everything you're
saying is kind of intuitive if someone is not excessively indoctrinated in an alternate thought process and makes sense,
but I wanna formalize it a little bit.
The first thing is that you're mentioning disease
having many causes, and that's in distinction
to the idea that it has no cause,
it's just whatever, we don't understand
what it's from.
It's random, acts of the universe.
Yes, or single cause, right, in which a single molecule
for a single molecular target would make sense. Yeah, you eat saturated fat, you get high LDL cholesterol, you get heart disease.
It ain't that simple.
Complex causation versus simple causation is a major part of the story, right?
And simple causation is usually immediate, right?
You're exposed to something, a pathogen, a poison, you're starving,
and a disease that correlates to it exactly starts to happen immediately.
Delayed causation, as you mentioned, certain diseases, you can find early signs that we're
moving in that direction in utero, or even the predispositions in the mother's body that are
going to affect the developmental environment of the baby. So acute versus kind of chronic
is a major part that we want to make a distinction. The other is single cause versus multifactorial
because you're mentioning this person's dementia
was a whole suite of toxins, lead and mercury and whatever,
and a whole suite of deficiencies
and a whole suite of maybe subclinical infections
and maybe behavioral patterns
and maybe psychological patterns.
I'd be very curious to what you think about this
because the entire medical research paradigm
has been set up for drug discovery.
It's the randomized double-blind
semi-autocontrol trial.
I want to get to reductionist medicine,
but before we go there, you already explained
kind of subacute toxicity,
but subacute infection you didn't get into yet.
Most people like dysentery is very obvious,
but there are things where there is a chronic GI infection
that isn't dysentery. Can you talk about that for a little bit?
Yeah, you know, I think I think we think of infections as something that you know come and go
But the truth is and AIDS and I grew up in the era of AIDS. I went to medical school in that era
I I did residency at UCSF, which was the epicenter of the AIDS epidemic
With the gay community there,
and it was the number one admitting diagnosis
to the hospital where I trained in my residency.
Nobody died of HIV infection.
People died of all the other bugs
that happened to live in us and on us
that get unleashed when your immune system isn't working.
So whether it's pneumocystis infection of your lungs
or cytomegalovirus, which is a common virus
that we all carry, like, you know, people have herpes,
and people know this, right?
You have herpes and you get a cold sore when it's-
People know it for oral herpes or genital herpes,
but they don't know there are more kinds of herpes.
No, there's a lot of kinds of herpes.
CNBS herpes, FC bars herpes, they're just herpes,
the whole family of viruses, but people know,
oh, I have herpes,
which means when I'm stressed or when it's cold out or when I'm tired or when I get a cold,
I get a cold sore. People understand that there's this latent infection in their body,
but there's so many of those and they're often hidden and they're latent and they're maybe
marginally symptomatic or not symptomatic.
Even tick infections can cause all sorts of issues and be latent and then they emerge.
Or even with COVID, we're now seeing these, when we're seeing replicating COVID viruses
in people who've recovered months or years later in their bodies that are producing ongoing
effects that lead to long COVID and persistent disease.
So just so people have a sense,
what percentage of people have CMV?
What percentage of people have Epstein-Barr?
What percentage of people have some strains of HPV
that are part of pathogenic predisposition?
It's a lot.
I mean, I would say everybody's walking around
with something, probably.
If you look, most people have some Epstein-Barr
that's kind of hanging around,
that can emerge and be problematic.
Probably half the population has CMV.
You know, it's a lot of people.
There was a study I found interesting that was looking at removed prostate cancers that
were removed for cancer and that were biopsied and doing a virome assessment on it and found
that the combination of EBV and HPV
was present in the vast majority of them.
And so that's not one or the other,
it was actually the combination.
And obviously we know HPV causing cervical cancer,
causing throat cancer, that's kind of new though, right?
That people really understand that,
and H. pylori causing stomach cancer,
and obviously like EBV causing chronic fatigue, but it's pretty reductionist
to say EBV causes chronic fatigue.
There are people who have EBV who get other diseases,
MS or something.
There are people who have EBV who never get chronic fatigue
and there are people who have chronic fatigue
who have a load of other viruses or pathogens
that aren't EBV.
Yeah, we talked about like the infections
can cause a myriad of problems.
Like herpes can lead to increased risk for Alzheimer's.
Which, you know, doesn't just cause a cold sore,
but maybe something more serious.
And that doesn't mean all Alzheimer's is caused by bacteria.
But, you know, look at Rudy Tanzi's work,
and there, he was an Alzheimer's researcher,
and he talks about how there's,
they do brain bopsies,
they're finding all these bugs
in the brain from the microbiome, from viruses,
from other bacteria that may be causing an irritation
that leads to the deposition of the amyloid plaque
that everybody sees on the microscope,
but is only a secondary response
to some other triggering factor.
That if you dealt with that triggering factor,
you might not actually get Alzheimer's.
So this is something that Rudy Tenzi's work is good at, Bredesen's work is good at, is
Alzheimer's isn't one disease.
Some people have described it as type 2 diabetes of the brain.
Some people as rheumatoid arthritis of the brain.
Some people as infection of the brain.
These are all true different times, which means different treatments.
So if you hear that somebody has rheumatoid arthritis
or MS or Alzheimer's, you don't instantly know
what you're gonna do.
No, I don't.
I know there's a group of things I'm gonna look at.
Yes.
Like I'm gonna look at things that piss off
the immune system, right?
Toxins, allergens, microbes, stress, poor diet, right?
All the deficiencies of certain things,
like vitamin D we know is increasing risk for MS because it's important in neurologic function and immune function. So, you know,
I think we kind of have to come to terms with this framework of multifactorial causes and
multimodal treatments. And we just have failed to be imaginative in how we do research.
I think you're saying two things at once that are important.
One is the disease doesn't have one cause.
But you're saying think about causal stuff.
But the disease doesn't have one cause.
So it could seem overwhelming, like what?
It says all these things.
Rather than just labeling disease and then treating the label with a drug,
we call it the name it blame it attainment system.
We name the disease, then we blame the name for the problem, and then we attain label with a drug. We call it the name it blame and attainment system. We name the disease, then we blame the name for the problem,
then we attain it with the drug.
So we say, oh, you're hopeless and helpless and sad and depressed,
and I know what's wrong with you. You have depression.
Well, no, that's just a name we give to people who share those symptoms.
It's not the cause of those symptoms.
It could be a myriad of things from what you're eating, your microbiome,
from nutritional deficiencies like vitamin D or folate,
or excess of toxins like vitamin D or folate or excess of
toxins like heavy metals or mercury or gluten that created plain inflammation. So
there's a lot of reasons why you can have any particular disease and we just
we have it all wrong and I think it's a real shift. It's a real shift in thinking.
So medicine needs to move from this name and blame it process to what we call
thinking and linking where we start the thinking process once we make the diagnosis.
We start to try to create an understanding of what are the patterns in the data, what
are the story that's being told, how do you take a deeper diagnostic history, how do you
do deeper diagnostic laboratory testing and work to kind of see what's at the root cause
of everything.
And by peeling back that layer, you can start to see emerge a picture of chronic disease
epidemic that it is rooted in things that are caused by, I would say, man.
And I think that's something, in a way, it's good news because it means we can have agency
over it.
It's not something that just falls from the sky that hits us on the head that we get struck
with some illness.
It's actually now something we understand what it's about.
It's not just better diagnosis.
Trust me, like the autism epidemic is an example.
We went from one in 10,000 when I was born to one in 130.
Even if 50% is better diagnostic or 75% is better diagnostic criteria, still something's
going on.
I think it's worth just going into this a little bit because vitamin D deficiency in
terms of acute causation
is rickets, and not many people have rickets,
but there's a pretty big level between you have rickets
and you have optimal levels.
And the same is true for vitamin C and scurvy
or beriberi or whatever.
The idea that deficiency means you don't have an acute disease
that is killing you in a fast way from it,
but that as soon as you're above that, we're fine,
as opposed to what are optimal levels.
Would you speak to that a little bit
in terms of also what you find in your practice
and what you find when you take someone above rickets,
treat them and treat them and they get better?
I think this is just a really important idea
that medicine is trying to catch up with.
You know, we used to talk about having type two diabetes,
and then we said, wait, wait, there's pre-diabetes.
And then we talked about having hypertension or high blood pressure.
Now there's pre-hypertension and we say, oh, you have an autoimmune disease.
Oh, now there's pre autoimmune disease.
And the reason it's pre anything is because we're understanding there's
consequences, even at levels we thought were quote normal.
And so this idea of disease being an on or off
phenomena is wrong.
It's a continuum from mild biochemical imbalances,
which are barely detectable, which we might be able to now screen for with
metabolomic testing and proteomic testing and, you know, more subtle things that
we can measure to sort of pre-symptomatic to symptomatic
disease, symptoms to finally full blown disease and death.
And so there's a whole long continuum that can start in utero or even, you know,
with your mother's health before she was born that impacts your health through
epigenetics and through the intrauterine experience and through early childhood
influences and all those things you can start to map out if you listen carefully to somebody's story
about what's happening early and pick these things up.
And so, you know, the fact that we have these sort of arbitrary cutoffs for, you know, blood
sugar, blood pressure, vitamin D, you know, folic acid, I mean, function health, which
is a company I talked to you about that allows people access to comprehensive lab testing and have their own
personal health data set.
You know, the reference ranges there are ridiculous for some of the things
that they have like homocysteine, which is a measure of your B vitamin status.
Very important in methylation and genetic control, neurotransmitter
function, detoxification mood.
I mean, a lot of things.
Their cutoff level is like, I think 15 or 16 or something.
And any level over 14, according to the literature
increased your risk of dementia by 50%.
The optimal level should be six to eight.
Same thing with insulin.
I think we, we, we see insulin levels being
reported as normal, anything up to 16 or 18.
That's because we're, we have a sick population
and the way we determine what's quote normal is
basically on a bell curve in a population.
So if the bell curve is shifted to the right or the left
because people are sick, you're picking up
what's normal in the population, not what's optimal.
Because you know the name of the disease,
it doesn't mean you know what's wrong with that person.
And the name of the disease, that person
might be missing some of the symptoms that usually go.
They might be missing some of the biomarkers. They might have other biomarkers. They might have other
symptoms. We just said there's enough of a cluster to meet the diagnostic threshold for insurance to
cover it. That's right. But this person, this unique person who we say has rheumatoid arthritis,
and this other person we say has rheumatoid arthritis, don't have the same presentation.
They don't have the same medical history, but they don't have the same presentation, right?
You run enough labs,
they have totally different stuff going on in their blood.
They have a total, and they have different symptomology.
So what does rheumatoid arthritis mean?
Yeah, it's just the name we give to a group of people
who share certain criteria that have been established
that create the diagnosis based on symptoms,
morning stiffness, certain joint pattern of inflammation, certain lab tests,
but it doesn't tell you anything about why.
It could be an antimebilhastolytica parasite that causes it
or it could be gluten that causes it or it could be
Lyme disease. But it's almost never one of those, right?
No, it's usually not, right. It's usually not.
We were just chatting earlier before the podcast
and I remembered this book I read when I was in college
by Ivan Illich called Medical Nemesis and it really influenced me because it talked
about the failure of our healthcare system back then and talked about this
idea of iatros which means physician and genesis means his origin so the origin
of disease being caused by the physician. That's something that I think is sort of
underappreciated by most people. Doctors don't intentionally cause people to be ill.
They're not bad people.
They're well-intentioned.
They're trying the right thing, but they're trained in the wrong paradigm.
This is not actually a critique of doctors.
It's not even a critique of hospitals.
It's a critique of some systemic mistakes that affect what the doctors are even allowed
to do.
Sometimes the doctors are really upset about it, and it affects how the doctors are trained.
And so where the critiques we're giving are systemic.
Even pretty late stage things like heart failure and Alzheimer's and autism.
Will you tell a couple, just so we can wrap it together, I know you have another place to tell a couple stories about that.
Of things that people used to think were totally unreversible and most people still do.
In medical school and throughout my medical training and even in continuing medical education and
postgraduate training where you go CME courses.
The orthodoxy is pretty rigid about certain beliefs.
If you have heart failure, it doesn't go backwards.
You can't improve it.
If you have dementia, you can't reverse it.
If you have type two diabetes, it's not reversible.
You can manage chronic diseases, which is great for the medical industrial complex because
provides the ability to have a pharmaceutical driven healthcare system that makes huge amounts
of profit off of long-term chronic use of medication.
What I've seen is surprisingly when you apply these principles of creating health, which
is what functional medicine is, it's not about treating disease.
It's trying to understand what is health, What are the deviations from health and how do we measure those dysfunctions and the lack of resilience and balance and?
Function in the body and kind of tweak things to correct it
You can actually see reversal of these diseases complete remission reversal of type 2 diabetes. That's that's easy
That's an easy one
And there's now that's that's a humongous deal because like what is the curve of type 2 diabetes?
from when you were born to now how many upstream diseases does that contribute to and
How many people how many doctors treated like it's reversible. It's the thing that's causing everything
so the phenomena of insulin resistance which underlies type 2 diabetes is
Causing dementia for example your risk of dementia is four times higher
if you have type two diabetes.
Your risk of heart attacks is dramatically higher.
Your risk of cancers, many of the most common cancers,
breast, pancreatic, ovarian cancer, colon cancer,
pancreatic cancer, these are diseases of insulin resistance.
And to say all those diseases are largely,
not perfectly, but largely preventable
with some pretty basic stuff.
Yeah. And oftentimes even reversible
is a really important thing everybody should know
and start to update on.
Yeah, I mean, they're even taking some,
I mean, I've talked to Siddhartha Mukherjee about this,
they're doing studies of stage four pancreatic cancer
using ketogenic diets and seeing remissions
in some of these patients, which is almost like heresy
in medicine.
For medicine, there are no laws.
You can say, well, evolution, that's a kind of a law.
Okay.
Well, that's one, but how does that apply to human health?
What are the laws of biology when it comes to human health?
Medicine really hasn't described those.
Pierre Laplace, who was a incredible, uh, uh, scientist back in the, I don't know,
17th century, he had Laplace's law and all that, it was a law of physics, but he talked about
how you can have a great number of observed phenomena
from a small number of general laws.
And medicine has failed to produce those laws.
So instead of having a few principles
that explain everything, we get more and more granular
about the diseases we describe.
For example, the Diagnostic Manual for Diseases
is called ICD-10, the International Classification
of Disease, Volume 10 or Version 10.
And there's 155,000 diseases.
It's gone up from 12,000.
We used to have things there like visitation from God.
We had got rid of those.
But it's basically descriptive.
It's phenomenological.
It's based on symptoms, not on our understanding of the disease or the pathogenesis of the
disease.
And so functional medicine, I think, is the first attempt to create a set of principles
of laws.
And the equals MC squared that explains what you're asking, which is what is anthropogenic
disease, are you suffering from exposure to much as something that your body doesn't like?
It doesn't agree with you or are you lacking certain things that your body needs to thrive and be resilient? And so for me, being a functional medicine doctor is just a detective work for
figuring out what you have too much of or too little of. And it's not just one thing. It's
often many things. So you can't just treat one thing, which is what we learned in medical school,
just Occam's razor, just single disease, single drug. That's the best practice of medicine. That's your gold standard
That's what you should shoot for and that's just unfortunately not how the body works. It's a complex dynamic
System and it's it's infinitely unknowable, but you can you can
actually determine from these
Basic laws and principles how to treat disease,
even if you've never seen it before.
In The Fabric of Reality by David Deutsch,
he talks about this idea that following
these basic principles, you can treat diseases
and be successful, even if you've never seen them.
So often people say, well, have you treated this?
Have you treated that?
Have you fixed this or that?
I'm like, maybe not, I've seen that, I've never seen it,
but I know what to do. I know how to get to the bottom of this problem.
And so my job is to go through that list and it's a really short list and maybe you can add to it,
but you know, it's toxins and these can be environmental toxins, all the petrochemical
based toxins like the forever chemicals or pesticides, phthalates, PCBs, dioxins,
flame retardants, the list goes on. It can be elemental toxins like heavy metals, mercury, lead, arsenic, cadmium, and they're
buried in the earth and we've excavated them and industrialized different processes that
liberate these things like coal burning is a great one.
They can be biological toxins, right?
If your liver kidneys aren't working, you're going to be pretty sick and die pretty quick. And then there's allergens, which can be both environmental allergens,
food allergens. Toxins can also be things like mycotoxins, molotoxins, which I put in
that category, although it can also be an allergen. So when things cross over, it can
be in that allergen category, it can be sensitivities or imbalance like you know things that you might not think as a true allergy like
we'll call an IgE allergy which would be a food sensitivity which is like gluten
for example. And then there's microbes so it could be infections that are
persistent like COVID or Epstein-Barr or CMV which kind of burden your immune
system and lead to all kinds of symptoms or it could be a more subclinical
but debilitating conditions like tick infections,
or it could be an acute infection.
Like, you know, I had an abscess recently in my back
that was an acute infection that almost killed me.
So it can be microbiome, so imbalances or dysfunction
in your microbiome, which we're all suffering from
in modern society as a core driver of disease.
And it can be stress as a physical stress
or psychological stress.
And that creates physiological change in your body
or it can be a poor diet.
This nutrient deficiency that is part of the detox processes
compounds on that.
So the key is you get a compounding effect
of a lot of things that are,
some of them happened a year ago. The thing that might have caused it, seemed to have caused it, was actually
just a trigger. It was the last step of a causal cascade that took somebody over the
threshold.
Yeah, the straw that broke the camel's back, yeah.
Yeah. So I think these concepts of delayed causation as opposed to immediate causation,
multifactorial as opposed to single factor, subacute issues, things that cause no symptomology immediately,
but are part of a compounding effect.
Also, unique pathoadiology, right?
That two people's MS or two people's rheumatoid arthritis
are not the same disease.
Not the same, yeah.
And as opposed to.
But I would say you have one cause
that creates many diseases, like mercury or gluten,
and you can create one disease that has many causes
Yes
I think just maybe speak to that a tiny bit more in terms of when people think cause and effect
There's a reductionist thing where they think billiard ball one thing caused one effect immediately and yet when you're talking about a complex
organizational system where you know a
Circuit board or a computer or a car, you can take a part
out, put another part back in, upgrade it. It didn't grow. It's not self-organizing. It was built.
And we apply that methodology from clocks to computers to something that grew and self-organized
where each, there's no such thing as a lung outside of a body or a liver outside of a body, right? So
when you try to separate gastroenterology and oncology
and neurology, you get still a bunch of diseases
that make no sense.
Yeah, it is.
It's such a failure of imagination and thinking
that we have these specialties in medicine
and we divided up the body into these organs and parts,
which is still how we teach medical students.
My daughter just finished medical school
and it's just so antiquated.
And you know, there's emerging from the scientific
community, not, not necessarily the medical
community, but I would say the scientific
community, this emerging paradigm of multi
causality and multi-modal treatments.
In other words, there's multifactorial causes,
many causes for any petition.
And there's multi-modal treatments that are needed, not just one thing.
And, and this, this, uh, the body is seen to be a network and a web where everything is inextricably tied to everything else.
And you can't separate all these things out, but you can start to understand how
they influence each other and are dynamically acting together to create
dysfunction in the body and disease.
You know, you were mentioning, what does it mean in another podcast to eat not ultra hybridized,
what's the term, ultra processed food?
Ultra processed food, yeah.
One of the people who I got to study with when I was young that influenced me the most
was Dr. Everett Tulumis, Healing for Everyone.
I don't know if you ever came across.
He was one of the other early naturopaths, Dr. Christopher and those guys. My family had actually had some quote unquote incurable illnesses
that got help through alternative processes.
It kind of got us in that path.
And we actually got to go live with that guy, Dr.
Loomis on his healing clinic when I was a kid.
And I got to see people coming in in wheelchairs and leaving non wheelchairs
and just having really radical kind of change.
It was very old school. It was kind of Anna Wigmore-like stuff. But it was real interesting
to hear, he was also a medical doctor, but like he was 85 by the time I met him and he had boiled
it down to a very simple thing. And he's like, number one principle of nutrition is eat as close
to that living ecosystem as you can. Number two is pay subtle attention to how the foods feel in your body.
Everything else, whatever.
Like nightshades and ratios of macronutrients and whatever.
Yeah, I agree.
So he had these gardens, these kind of huge gardens and orchards,
and he told people, go pick the food you feel called to and eat it right there.
Don't even just stand outside with your feet in the dirt and eat it.
And that's it.
That's your diet while you're here.
It's an inpatient thing.
And it was amazing how much people got better if the only food they could eat was standing
by the tree or the plant that they picked it off of while they ate it.
And of course he emphasized heirloom species and good soil and no pesticides, herbicides.
Well, you know, there's, there's a guy who kind of looks like you a
little bit with the beard.
His name's Fred Provenza.
He's a, someone I got to know recently who's a professor for years at Utah
State University and studied rangeland ecology and the relationship between
plants and the soil and animals and
humans.
And basically, he wrote a book called Nourishment, What Animals Can Teach Us About Rediscovering
Our Nutritional Wisdom.
And he basically said that animals intuitively know what to eat when to keep themselves healthy.
So they forage on some major food crops, but then they'll forage if they're left their own devices and there's enough
variety of wild plants around on different plants that have
different medicinal properties or different nutrients.
And in the book, he talked about this, uh, study that was done,
I think in the twenties in an orphanage in Canada, or they
took kids who really hadn't been exposed to a lot of whatever
junk food or American diet.
And they, they gave them like weird stuff, like brain and organs and all kinds
of weird food that we wouldn't think would be things that we'd want to eat.
And the kids would want to eat.
And these kids actually were eating completely in harmony with what their
bodies needed and seeking out those foods and nutrients and the food that they
needed and were far healthier than kids were control group
that were fed a regular diet.
And I was like, that's fascinating
that humans have lost their ability
to understand their sort of nutritional wisdom
and to understand how things affect us.
I mean, I want to add one thing,
and then we'll do good notes to leave on.
You know what a racket is, right?
Like a protection racket.
Yeah, racketeer.
Let's say I've got a protection racket
where I'm the mob and you're doing business in my
turf. So I have some guys go rough you up and then you're scared of those guys and there's
not enough law enforcement here. Then I have some other guys say, Hey, we can protect you,
but you're going to have to pay us a certain amount every week. Right. But they're from
the same group. That's, that's a racket, right? Which is you're manufacturing the demand and
then offering the supply. If you make a food system that creates addiction
so that people need to keep getting more of it,
but then it also makes them need medicine
that they wouldn't need otherwise that is profitable,
where the side effects of the medicine
make them need other medicines, that's a systemic racket.
It is a racket, for sure.
It's like Bayer, they bought Monsanto,
which makes glyphosate, which causes lymphoma,
and then they make the drugs
to treat the lymphoma.
That's a racket.
So that's a direct racket if it's the same company.
If they're separate companies that are just all owned
by the major private equity or whatever,
it's a systemic racket.
Think about just from a logical perspective,
I'm trying to solve a problem.
First thing I wanna ask is,
did we always have that problem?
No, no, no, it's a new problem.
Oh, when we didn't have it, what was happening then?
Let's reverse something. The first thing should no, it's a new problem. Oh, when we didn't have it, what was happening then? Let's reverse something. The first thing should be if it's a new problem that was caused by something,
reverse the cause. How often in medicine do we do that? Anything that looks like a racket
should be investigated. Anything that looks like, oh, there's a problem, let's not look at what the
root causes were. Let's not look at when we didn't have it. Let's say that we got this problem
forever now and we can't possibly not have it when we didn't have it for most
of human history. Then let's come up with a new thing that we can make money on that
will then itself cause new problems that we will also cause a new solution for that will
cause new problems. That is a systemic, exponentially escalating bracket. This is not a good method
of problem solving. This is solving problems in a way that doesn't solve the cause, that
symptomatically addresses it and makes worse problems in the process.
Let's start actually trying to solve problems.
What is the cause? How do we undo the cause?
And how do we get people incentivized to do that?
Because right now everything is flipped.
Everyone is actually incentivized if they pay attention to,
we're talking about your own health.
Yes, that's abstract.
I mean, like the guy who's running Coca-Cola or bear is not
necessarily thinking about these things. I
Remember talking to someone who's the CEO of Pepsi once and they said they were thinking about categorizing it as an entertainment company
Because they're like we know this is not food. This is something people do for fun. It was like Jesus
What good does this thing do?
Well, it causes diabetes and increases likelihood for Alzheimer's and everybody but what real good does it do? Well, it causes diabetes and increases likelihood for Alzheimer's and everybody. But what real good does it do? Well, it causes addiction. The world would be better if that
company didn't exist. Any company where the world would be better if it didn't exist,
we should figure out how to have it not exist. The number of companies that fit in that category
are high.
Yeah, that's a problem.
Now derealization. Derealization is this very serious thing that happens
when someone goes through a severe trauma
where nothing feels real.
I would say almost everybody I know
is in some degree of derealization.
And here's how I can tell.
If I tell somebody something about,
it doesn't matter what it is,
whether it's about healthcare
or whether it's about the increasing likelihood
towards World War III or AI, it doesn't matter what it is, the environment, their tomorrow will be identical.
They cannot be moved by real information about the real world they're in.
They are derealized. The real world does not matter to them.
And they're like, no new information could change my life.
Well, you're being a doomer. Wait, no, the Mongols are coming.
If the Mongols are coming, do you want to know? Oh, I can't do anything. Did you try?
No, people don't. They're just so...
So I want to just say, let's break the f*** out of ubiquitous derealization and learned helplessness.
And say, problems that didn't used to exist, that we caused, we can solve.
Your own health and your parents and your children are an incentive.
But you just have to act like reality is real, and reality and your life matters as opposed to the nihilism of like
I can't do anything. I've already given up on my life mattering
it's hard and the problem is that so many of people are not just do you realize because of the trauma the
psychological trauma of our society but also the
the way in which our diet and lifestyle and environment affects our cognitive function and brain and mood so
it's sort of a double problem because you're sort of stuck.
If you look at the American Revolution and the condition of the people who were involved
in the American Revolution, one, they were doing labor jobs. Using a pitchfork all day
translates to a much heartier body that can do rebellion and whatever. But also, they
weren't obese, they weren't on opiates and benzos, and they didn't
doom scroll. I have found that I don't care how outraged someone is or how horrified or how
depressed, that emotion will not make it through 15 minutes of doom scrolling. They will actually
forget they ever heard the thing. They'll forget all the emotion because in that 15 minutes I see
something that makes me excited and something that makes me feel left out and something that
makes me feel belonging and something that makes me horny and something that makes me excited and something that makes me feel left out and something that makes me feel belonging and something makes
Me horny and something makes me scared and something makes me outraged and then sometimes kind of funny
And I just flushed my entire system of continuity now
I can go back to my life exactly the way it was a small number of people
Ensure that they don't do that so they can actually work on controlling things at scale. Yeah, and everybody else lets them
Well, how do we have more agency? That's it. That's what you're talking about.
It's creating a society where there are people
feel agency in that their actions,
that their thoughts, that their voice matters.
So find all the things that damage your agency
and get them out of your life.
Take the social media apps off your phone.
Even if you're gonna still have it,
have to do it on the computer.
Don't have it in your goddamn pocket all the time.
Just take them off your phone.
If you're on psych meds, go to a Cleveland clinic.
Go to an integrative doc who can see
if maybe there's a better solution for you.
I'm not telling people get off their psych meds.
I'm saying go talk to a doctor.
But talk to someone who knows other possibilities
because you're not going to be self-regulating
or think well or whatever
while you're intentionally altering your neurochemistry. Now I will say I know
people high up in most of the major news companies, they are not news. Not on the
right, not on the left. It's not news. No it's not news. Propaganda. Yes. It is
information war. I can criticize the most area-died journals because well they'll
lie with facts but they cherry pick their facts. They lay off frame them in a particular way. So you either call it
an illegal alien or an undocumented migrant. It means the exact same thing, but you have
a totally different emotional valence. You cherry pick your facts and you say this thing
is getting better when it's actually getting worse, but you're treating the symptoms or
whatever it is. Who puts narratives out there? Again, it takes a lot of money to fund research,
takes a lot of money to put a narrative out there. Typically capital streams associated with goals that support those
capital streams or the political institutions and agendas that support the
capital streams put out narratives that support what they do. So you should
understand whenever you're watching a piece of news or reading something, what
you should be thinking about is this tells me what some people want other
people to believe.
Yeah, not what's actually true. Someone gave me a link to a website, I forget
what it's called, which basically had the same
news item, but reported from the right and the
left and then the middle.
And it was totally different stories.
To just realize you cannot let someone
speed, spoon feed you your narrative on what is true.
Cannot, no one has the right incentive here.
So you have to work at it a little bit, but you can't have a meaningful life devoid from understanding what's real. Because to make
meaningful choices, they have to be in relationship to reality. And I think what you said was really
important is to take away the things from your life that interrupt your ability to have agency.
And then whether it's the food you're eating, the news you're watching, the social media scrolling,
the friends you're hanging out with, the things you care about, like, you know, we need to sort of have more agency.
As you see in your clinic every day, it's all changeable.
And it's changeable acutely for each person
with behaviors they can take.
And it's changeable at scale for everybody
with behaviors we can take to do systemic changes.
Thank you.
That's a good point to end on.
We each can do it for ourselves
and we have to do it systemically.
And I think I'm working on both ends of the problem,
so are you, so thank you.
You are.
And I really hope that working on both ends of the problem, so are you, so thank you. You are. I think you're doing.
I really hope that function can bring a lot
of these concepts and tools to everybody,
because they have been very niche, and they shouldn't be.
And I love that you're making it not only medicine
for the rich, but like medicine that everybody can afford.
It's super important.
And then I hope the policy work can really gain some success
and gain success that can keep working across administrations because science
has nothing to do with political parody.
And that's the plan. That's the plan. That's the plan.
And for those who want to learn more about Daniel's work,
look at the Consilience Project is ConsilienceProject.org.
We'll put links in the show notes. We'll put links,
a lot of references
we talked about today.
This has been an incredible conversation,
and I feel like we could talk for another 10 hours
and still keep going.
So thank you so much for being on the podcast.
Likewise. Thank you, my friend.
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And don't forget to check out my YouTube channel at Dr. Mark Hyman for video
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This podcast is separate from my clinical practice at the Ultra Wellness Center, my
work at Cleveland Clinic and Function Health where I am chief medical officer. This podcast
represents my opinions and my guests opinions. Neither myself nor the podcast endorses the
views or statements of my guests. This podcast is for educational purposes only and is not
a substitute for professional care by a doctor or other qualified medical professional.
This podcast is provided with the understanding that it does not constitute medical or other
professional advice or services.
If you're looking for help in your journey, please seek out a qualified medical practitioner.
And if you're looking for a functional medicine practitioner, visit my clinic, the Ultra Wellness
Center at UltraWellnessCenter.com and request to become a patient.
It's important to have someone in your corner who is a trained licensed healthcare practitioner
and can help you make changes, especially when it comes to your health. This podcast is free as
part of my mission to bring practical ways of improving health to the public. So I'd like to
express gratitude to sponsors that made today's podcast possible. Thanks so much again for listening.