The Dr. Hyman Show - Jeff Bland (Part 2): The Science of Immune Aging—and How to Reverse It
Episode Date: June 4, 2025Dr. Jeff Bland has been a guiding force in my life—and in the world of Functional Medicine. For decades, his work has helped shift medicine away from naming and blaming disease, toward truly underst...anding and addressing its root causes. In this episode of The Dr. Hyman Show, Jeff and I continue our conversation about how to turn the tide on chronic disease—starting with the immune system. We discuss: • How aging quietly weakens your immune system—and why you don’t have to accept it • How phytochemicals act as gene regulators—not just antioxidants • Why your diet might be accelerating immune dysfunction (and how to fix it) • Why Himalayan Tartary Buckwheat may be the most powerful food you’re not eating (yet) • What it means to rejuvenate your immune system—and how to start doing it today This conversation is personal for both of us—and a powerful reminder that when we care for the body, it has an incredible capacity to heal. View Show Notes From This EpisodeGet 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 Healthhttps://drhyman.com/pages/10-day-detoxJoin the Hyman Hive for Expert Support and Real Resultshttps://drhyman.com/pages/hyman-hive This episode is brought to you by BON CHARGE, Big Bold Health, Pique, PerfectAmino and AirDoctor. Go to boncharge.com and use code DRMARK to save 15% on your PEMF mat today. Try Omega-3 Rejuvenate®, visit bigboldhealth.com and use code DRMARK25 at checkout for 25% discount. Head to piquelife.com/hyman to get 20% off + a free beaker and frother today. Get pure essential amino acids today. Go to bodyhealth.com and use HYMAN20 to get 20% off your first order. Get cleaner air. Right now, you can get up to $300 off at airdoctorpro.com/drhyman.
Transcript
Discussion (0)
In 90 days, you would reverse your immune health by 47%.
Reduce the rate of aging of the immune cells by 47%.
That's amazing.
80% of autoimmune disease is seen in women. That's a fact.
Does that mean that females have a weak immune system?
We resume our discussion with Dr. Jeff Bland.
Advancing into the science of immune rejuvenation.
And the body's incredible capacity for healing.
It's very so sick.
It's because our genes stayed the same,
but the environment in which they're exposed
has changed dramatically.
Is it true that women who haven't had babies
or been pregnant don't have as much immune disease?
Yes, there is a correlation between childbearing
and autoimmune disease.
If you were to only measure one thing
that would determine the year of your death,
it'd be...
I know that so many of you like me are balancing fitness, work, and family while managing ongoing
back pain. After my recent back surgery, finding a recovery solution became more important than
ever. That's why I'm grateful to have discovered the Bon Charge Infrared PEMF collection.
These devices combine infrared heat and pulsed electromagnetic field PEMF therapy
to target deeper muscle tissues addressing not only surface tension but also those hard to reach
areas that contribute to long-term back pain and stiffness. It's been a huge help as I work on
recovery giving me fast relief right at home. The technology is straightforward. The infrared
heat increases blood flow to reduce inflammation while the PEMF pulses stimulate cellular repair.
Together they
help relieve soreness and tension making it easier for me to get back to my day even after
intense physical therapy sessions. I just set it up, lay down, and let it work its magic and I'm
noticing the benefits in both my sleep and muscle recovery. Bonsharge really thought of everything
from versatile settings to portable options. For anyone managing recovery or simply looking to
support their wellness routine I highly recommend giving it a try.
Go to bondcharge.com and use code DRMark to save 15% on your order. That's
B-O-N-C-H-A-R-G-E.com. Code DRMark for 15% off.
One of the most impactful steps toward enhancing our health and longevity is incorporating essential nutrients into our daily regimen. Among these, omega-3
fatty acids are always at the top of my list. These healthy fats are crucial for various bodily functions
including supporting heart health, balancing immunity, and promoting brain
function. However, getting adequate Omega-3S through diet alone can be
challenging. My favorite Omega-3 product that I take every day is Omega-3
Rejuvenate, a premium blend of pure sustainably sourced fish oils from
Alaska. This supplement is minimally processed to retain its natural benefits and is rich
in omega-3 fatty acids including EPA, DHA, and DPA as well as naturally occurring
vitamins A and D. Each serving of omega-3 rejuvenate delivers essential
omega-3s in their triglyceride form ensuring optimal absorption and
efficacy. Because this oil is minimally processed it also contains pro-resolving
mediators or PRMs,
which further boost the value for immunity
and cellular health.
I personally incorporate Omega-3 Rejuvenate
into my daily supplement routine
and it's a staple for patients at my Ultra Wellness Center
as a convenient and effective way to keep up
with your body's daily Omega-3 needs.
To try Omega-3 Rejuvenate, visit bigboldhealth.com
and use code DRMARK25 at checkout for a special discount. Prioritize your health today with this amazing supplement. Now
before we jump into today's episode, I'd like to note that while I wish I could
help everyone by my personal practice, there's simply not enough time for me to
do this at scale. And that's why I've been busy building several passion
projects to help you better understand, well, you. If you're looking for data
about your biology, check out Function Health for real-time lab insights. And if you're in need of about your biology check out function health for real-time lab insights
And if you're in need of deepening your knowledge around your health journey
Check out my membership community the Hyman hive and if you're looking for curated and trusted
Supplements and health products for your health journey visit my website at dr
Hyman comm for my website store for a summary of my favorite and thoroughly tested products. Welcome back Jeff. It's good to have you again
Dr. Hyman, I can It's good to have you again.
Dr. Hyman, I can't tell you how excited I am
to really keep exploring together what we could create.
It's always fascinating to me
to see what our mind meld up and produce.
It's kind of scary sometimes, but you know, Jeff,
so many people out there are suffering,
and suffering needlessly.
There's certain things we can't control. Given where
we are in the evolution of medicine and science, not what's in practice clinically or in academic
centers or in hospitals or your doctor's office, but where the science actually is around medicine,
we now do understand how to relieve so much needless suffering. And right now, we're having
so much of that.
I'd love you to sort of unpack, to start with, what is the reason we're having this epidemic of that. I'd love you to unpack to start with it. What
is the reason we're having this epidemic of chronic disease? Why are we so sick?
Yeah. It's because our genes stayed the same, but the environment in which they're exposed
has changed dramatically. 50,000 new chemicals of unknown toxicology introduced in the environment,
increased stress patterns, time urgency with social media,
environmental changes in our climate that cause all sorts of different changes with bugs and
pathogens and the biosphere which has changed, the loss of biosphere diversity, the simplification
of our diet. There are 30,000 edible foods of which we constitute 90% of our calories from less than eight foods.
That's right.
And so when we start asking-
I think three make up like 60% of them, yeah.
So when we start asking what are the things that our genes never knew they were going
to be exposed to over the course of a very short period of human history, we're talking
like less than 100 years, much less, our genes can't mutate fast enough to keep up with that. So what happens
is...
That heart attack in 1900 was like a rare disease.
Right.
Diabetes was a super rare type 2 diabetes.
In fact, in 1900, I remember reading some of the original reports saying if there was
a heart disease patient in clinic, they used to run over and try to see them because they
may not see another one in their practice.
That's right.
That's right.
And so, these things that we take for granted today, and then we layer on top of that, of
course, things like autism and like atopy and allergy and asthma and eczema and autoimmune
disease.
Where are these all coming from?
Our genes have stayed the same.
And these weren't that common before.
No.
And in indigenous cultures around the world, these are primarily absent.
This is not like a big discovery process.
All you have to do is ask the right question.
The answers are very obvious.
Our genes have stayed the same.
We didn't suddenly mutate into autism genes.
We didn't suddenly become autoimmune because our genes changed. Our environment
changed, which sends signals to our genes to respond in such a way that it produces
what we then call clinically a disease. We give it a name. Now, what it is is a mal-adaptation
or let's call it an adaptation to that changed environment. Now, given that, then what the
heck do we do? We're
not going to change our genes, at least at this time, maybe there'll be genetic engineering later
where we will. But today, we've got those genes. What are we going to do? What we want to do is
to modulate how the genes respond to that environment so they're not overreacting.
Let me give you an example. Autoimmune disease. I have a whole different take on autoimmune disease
than probably most every rheumatologist in the world. So here's my take. 80% of autoimmune disease. I have a whole different take on autoimmune disease than probably most every rheumatologist in the world. So here's my take. 80% of autoimmune disease is seen in women.
That's a fact. There are 88 different diagnoses of autoimmune diseases that have different names,
read different reimbursement codes. Like MS or lupus or Hashimoto's.
Type 1 diabetes. Type 1 diabetes is a ton of them, right?
If we then take those 80-some diagnoses that all associate themselves with autoimmune disease,
then we ask the question, and 80% of those are found in females, then we ask the question,
does that mean that females have a weak immune system, that they're born with an imperfect
immune system?
Or, here's my model, they're not born with an imperfect, they're born with a perfect immune system to adapt to that,
which is the biggest stress on their immune system
that a woman will ever have, it's called childbearing.
Now think of what happens if you have a child in the womb
that doesn't have your genes,
well, it has part of your genes.
It may be even a different gender,
and now your body has to accommodate that.
If you put that in a male's body,
you're going to have
problems. That person is going to have probably acute immune catastrophe. But in a woman, that
immune system has to accommodate that and nurture it and successfully...
Well, that's an interesting question. Just to jump on a side track here for a minute,
is it true that women who haven't had babies or been pregnant don't have as much immune
disease?
Yes, there is a correlation between childbearing and autoimmune disease, right?
That's a whole other interesting topic.
Rather than tell that woman you have an imperfect immune system, we might say you have a very
adept immune system for finding out that something in the environment is not right.
Maybe you're the yellow canary, because eventually maybe that signal that you're picking up
will be seen in everybody.
If it becomes severe enough
or high enough level of exposure,
now what used to be just in a few now becomes in many.
It's just that you are genetically more responsive.
So you have a super good immune system, it turns out.
So rather than calling you damaged merchandise or wrong,
what we need to do is take the uniqueness
of your immune system and find out how to detune it
in response to that particular thing that's alarming it,
because your alarm mechanism is going off.
And our job on the practitioner side is to help interrogate
what we're going to do to produce an environment
that your immune system will find favorable.
This whole puzzle of chronic disease, why we're seeing this epidemic, some people say,
oh well, we didn't have it before because we didn't live that long and everybody died at 40.
Baloney.
And that's not really not true. A lot of people look to be very old.
Baloney.
In many, many cultures. I mean, if you were born-
What about children with NASH?
How about teenagers that have fatty liver disease?
We never, when I was in school in the 60s, there was no such thing as fatty liver disease in children.
Not when I was in school in the 80s.
This is ridiculous fallacy.
But the idea that these chronic diseases are only occurring because we're getting older
and they're sort of a normal part of human development and aging, that they're kind of
inevitable.
It's sort of something I've heard people say, but I think there's a real flaw in that, because
when you look at the historical records, like, for example, the Native Americans in the plains,
they had this highest number of centenarians of any population at the turn of the last
century and they were living on bison.
And yes, you had a lot of maybe death and childbirth, infirmaritality, that would affect
life expectancy, but we have extended life expectancy because of sanitation
and hygiene and a lot of reasons, better medical care in some cases. But these chronic illnesses
of aging, which we've come to expect as normal, you know, heart disease, cancer, diabetes,
dementia, and even things that we don't think of as diseases of aging like mental health
issues, depression, anxiety, bipolar, schizophrenia, ADD, autism, Parkinson's.
I mean, these are things that we now are understanding are connected to inflammation.
I remember back in 1997 when this paper came out in the New England Journal by Paul Rieker,
which essentially was a Harvard professor that showed that people with high levels of inflammation
had a higher risk of heart attacks. And there was following studies where they showed that if your
cholesterol was high but your inflammation was low you had a low risk
but if your inflammation was high and your cholesterol was low you had a high
risk. So basically it was the inflammation that was the problem not the
cholesterol and pathologists would see in the plaques in arteries back in the
50s 60s 70s they would see macrophages and they'd see T cells in the part of the immune system
in the plaque and they just didn't know what to make of it
and they thought it was just a plumbing problem
and fat buildup in your arteries from eating fat.
And that was an overly simplistic model.
And now what's happened since that seminal paper
from Paul Ricker at Harvard linking inflammation
and heart disease, inflammation is now connected
to all the chronic diseases of aging and aging itself. And so, when we look around us, it seems like the
final common link between all these chronic illnesses that we're suffering from in today's
society are related to inflammation and that some dysregulation of the immune system.
You use the word macrophage. So, the macrophage is an immune cell that's a member of the first line of defense, the innate immune
system.
So the macrophage has this ability to go in and out of cells.
It travels in your bloodstream and then it can come up to a plate on your blood vessel
wall and by a message it can say, hey, I should go inside and interrogate what's going on
inside the blood vessel wall.
And there are several layers of the blood vessel wall, so it goes through the first
layer, which is the endothelial level, and it gets into the intimal level, and then eventually
it sees if there's something funny going on in there.
And if it sees something funny going on, it does what it's supposed to do, is to get rid
of funny business and attack it as a foreigner.
So it does a macrophage engulfment and it goes through its process,
which is killing by chemical warfare through the release of oxidants. So what could be
inside that vessel wall that would precipitate that? It could be many different things, one
of which could be oxidized LDL. There could be sub-particles of cholesterol that are being
modified.
Dave Korsunsky That's exactly right.
Dr. Justin Marchegiani Which is kind of foreign. It's not a normal lipid.
Precisely. And so now it's doing- Or microplastics, which are now found in artery walls.
Yeah. So it's doing what it's supposed to do. It's search, seek and destroy foreigners. The
problem is we need to not just stop the macrophage from working. Let's just block its function by
giving an anti-macrophage drug. Let's find why it would find a foreigner
there and treat that so it doesn't have to be in an alarm state.
You just unpacked why we have so much chronic disease. It's our crappy diet, which is full
of processed foods, limited amounts of variety of foods, lack of protective nutrients, lack
of nutrients and vitamins, minerals, an overload of environmental toxins and chemicals from petrochemical toxins, from heavy metal
toxins, from all the things we're exposed to, the stress we have, the sleep disruption,
this lack of sort of regulation of our circadian rhythm, the lack of connection socially, and
so many things that are impacting us, the overuse of certain drugs like antibiotics, the increase in C-section rights, the increase in bottle feeding and
lack of breastfeeding. I mean, all these are compounding over generations to have the worst
epidemic of chronic disease in human history. And we are the epicenter in the United States.
All these issues and all the things we talked about at the end of the day come down to a problem with the immune system. And this is
really what the sort of amazing discovery is that we're gonna unpack today, which is
how does your immune system connect to these diseases? We now sort of understand why it's
dysregulated, which means we can do something about it. And we're gonna get very specific
about how modifying certain things like diet or certain
plant chemicals or phytochemicals, for example, like from a Himalayan tartaric buckwheat,
an ancient food that was used for thousands of years actually has chemicals in it, phytochemicals
that regulate the immune system.
And we now know this on a granular level.
So we're seeing this sort of one, on one hand, this rising understanding of chronic disease
being an inflammatory state, aging itself being an inflammatory state if
we don't properly understand how to regulate that. And at the same time, we're seeing this
rise in our ability to have really granular understanding diagnostically of what's happening
at the gene level, at the epigen level, at the immune cell level, and ways that we never did before that are
kind of uncovering relationships and connections and things that help us to understand how
to modify our lifestyle and our diet and our habits so that we can properly regulate our
immune system so it does the right thing, which is to fight foreign invaders when we
need that to, but not to do the wrong thing, which is to be overactive in a state of chronic disease or an autoimmune disease or an allergy, right?
We don't want that. So how do we sort of start to think about the immune system? So to take
us through sort of a beginner's level, the immune system, from the types of immune systems
we have to what they do and to how they influence these chronic
diseases.
So what I'd like to propose, and this is my mantra that I'm bringing into this next discussion,
that the information that we're going to share in the next minutes, if understood by the
viewer listener of this podcast and executed at some level in their life, incorporated
at some level, will make a dramatic impact upon their health.
What you're saying is we need to move from an inflammatory lifestyle to an anti-inflammatory
lifestyle and we're going to unpack what that is.
Let's start first by the obvious.
A seminal paper was published out of Stanford Medical School a number of years ago.
One of the authors was a former podcast guest that you'd had, David Furman, asking the question,
is our immune system genetically controlled
or is it non-genetically controlled?
In other words, whatever our immune system is,
is that just what we got?
And the answer is that a very small amount
of our immune system function is hardwired into our genes.
The majority of our immune system function is not heritable.
It is changed by the environment upon which we live
that starts the moment of conception
that influences our genes of our immune system
and how it functions.
So that's number one, which gives us room to play, right?
That means we can do something about it.
That's good.
Number two, recently, technology has been developed
in which you can take blood from a person, even just a finger stick of blood, and using
the technology available today, you can measure aspects of the blood, which is called the
epigenetic component of the blood, to see what, using certain kinds of mathematical
algorithms, your biological age is. And this has kind of become the rage recently, and you've talked about in your podcast before, these molecular aging clocks that are developed from a blood spot.
And then a person, hopefully, you know, when they get their data back, it says, Oh, geez, I'm 45 years of age, but my biological age is only 35. That's really good. Or not so good is I'm 40 and my biological
age is 60. That's not so good. Now what are you really measuring? And this is I think
an important thing that a lot of people don't understand. When you take a blood sample,
even a blood spot, that blood that you are giving for that sample is made of three principal
things. One is water and plasma proteins, that's the liquid. Second is the
red stuff in the blood, which are the blood red blood cells, the erythrocytes, which are
the predominant cells. And then about 10% are what are called the white blood cells,
sometimes called the Buffy coat, and those are immune cells. So the majority of the blood
that you have is not immune cells.
The majority is either the plasma proteins and the erythrocytes.
Now it turns out that plasma proteins and erythrocytes don't have DNA.
So when you're measuring then the biological age of a blood spot sample, you're actually
measuring the age indirectly of the immune system.
Yeah.
So essentially in English that means when you take a sample of blood, the thing that
we're measuring to look at your biological age is the DNA in your white blood cells, which is your immune system.
Dr. Seheult And I think a lot of people don't
understand that. They don't know that. So when they get their data back based upon what the
algorithm was used to determine biological age, they're really doing it off that cell type,
your immune cell type, to see what your biological age is. And there are different ways that that data can be analyzed to give different methods
of clock determination.
Now, when I read these early papers, I thought to myself, well, hold on, if that's the case,
then don't we have now a method of interrogating the age of the immune system against the way
that a person looks, acts, and feels?
What happens if we start studying the age of their immune system against their headaches or against their energy level or against their sleep or against
their arthritis or against their cognitive performance or in whatever
variable or their exercise tolerance.
Now people are starting to do that.
And then at the start of COVID, I was wearing my fitness monitor, my aura ring.
And I got wondering, I wonder if the aura ring, when
it's measuring these biometrics, is indirectly measuring aspects of my immune system. And
so then I started to say, well, if you look at heart rate variability, you look at body
temperature upon sleeping, if you look at sleep patterns, if you look at heart rate,
if you look at respiration oxygen levels, all these things are indirect surrogate markers for
immune system function. So then I started to say, could we correlate the immune age that we come off of our blood
spot analysis with our Fitbit or whatever, in this case I was using OuraRing. And I did
a couple of early papers on this, little publications. And then I found out that the company, Oura,
was rapidly involved with studying with Stanford the relationship
between the biometrics that come off the Aura ring with that of immune system function.
And they published a paper showing that you could detect some days before you got an infection
based on your Aura ring data whether you were going to have an immune problem.
Wow.
These are the interesting things
that we're starting to learn about how the immune system
is connected to how we look, act, and feel.
Then I started to say, well, what about obesity?
Let's talk about that for a second.
So I think that there's two types of obesity.
One type I call friendly fat.
This is like Santa Claus.
That person doesn't have altered metabolic function.
Their insulin's fine, their blood sugar is fine, their lipids are fine, their
HSCRP is low. They have no apparent chronic disease yet. Their BMIs are over 40.
Really?
Yes. And these have been, these people have been studied extensively. They have friendly fat.
Now, what's the other kind of fat? It's angry fat. Angry fat is when those same fat cells and
those people no longer at home, they don't feel at home. And they produce then their own set of
responses to feeling that at home, which are called the dipocytokines, which are inflammatory
markers that travel in the blood to all other tissues and say, I'm fed up. I'm as fat cells,
I'm fed up and I'm not going to take it'm fed up, and I'm not gonna take it anymore.
Call it fire in the belly.
It's like the fire in your fat cells in your belly
that send a spreading fire across your body.
Precisely, and that's the immune system.
Why?
Because these same innate immune cells
that we were talking about, macrophages,
circulate also in the fat cells into the adipocyte mass,
and they communicate with them.
And if they're upset, they're gonna tell the adipocyte mass and they communicate with them and if they're upset they're gonna tell the adipocyte you ought to be upset too and
that makes angry fat. Now what happens when they stick around for a long time
and they do mischief? They die there and what are those called? They're called
crown cells and you can see those in people that are metabolically unstable
that are obese. If you do a thin section under
the microscope of their fat, you do a needle puncture biopsy and you look at their fat
cells, you'll find these crown cells. Those are the skeletons of the dead immune cells
that told the fat cells they should be upset. Now you're going to say to me, well, what's
the percentage of people with friendly fat versus the people with angry fat? Well, it's a great proponent of angry fat. And then that then begs the question,
why would fat become angry? Well, it would become angry because the immune system is
angry. Well, why would the immune system be angry? Where did it gets its message? It got
its message from the gut. Yeah. So if the gut's angry, then the liver is angry, that's NASH, which the fat cells are
angry, that's metabolic unstable obesity, and then the microglia, which is the brain's
immune system, is angry.
And so, what do we see?
Dementia, fatty liver, problems as it relates to diabetes, and arthritis.
All interconnected to this web of understanding.
So, what's the treatment?
Get rid of angry. Get rid of angry.
Get rid of angry.
What is angry?
That's the immune activated cells that are trying to protect you against a foreigner
called the way you're living.
So are you saying that the reason for the systemic inflammation throughout our body,
the silent killer, this quiet inflammation that is not like the inflammation we learned
about in medical school where there's redness and swelling and pain, that it's kind of quiet and you
don't notice it, but it's creating this sort of smoldering fire.
And are you saying that most of this is coming from problems with our gut microbiome?
That's a great contributor.
We can also have chronic infections.
We can also have xenobotic exposure where the body says these are hostile molecules.
Environmental toxins.
That's right.
So it's a total load effect that we've been talking about in our field for...
So low-grade infections like viruses, ticks, who knows what.
It could be mold in the environment.
It could be our diet that's changing our microbiome and creating inflammation, sugar.
And that's why you're such an amazing detective because you're the guy as the clinician that
has pieced that together into an understandable personalized approach to that patient's places.
They don't have a defective immune system.
Let's be really clear about this.
They have an immune system that's doing what it should do based upon the exposure that it's been experiencing.
And so the question is...
Dealing with a bad set of circumstances.
That's right. And it fights back. When it fights back, it produces inflammation.
I think that's what I've always said for years is that disease is just the body's best ability
to deal with a bad set of circumstances, change the circumstances, and the disease goes away.
That's right. And so, you know, this whole remarkable observation
you've had reproducible with the 20-day detoxification
program, I mean, what is that doing?
That's lowering the exposure to all these things
that the body might call upsetting.
Yeah.
And giving the chance to the body to rest
and the immune system to rest.
So this sort of takes us to the next little portal
I wanna dive into, which is, so high level inflammation
is basically the root of all evil
in terms of chronic disease.
We now can measure its effects through blood biomarkers,
through epigenetic testing,
which measures the control system on our genes
and how it's turned on or off based on different influences.
And we can then intervene with lifestyle a control system on our genes and how it's turned on or off based on different influences.
And we can then intervene with lifestyle or different foods or phytochemicals to see how
the biomarkers change and how our immune age changes over time.
Yes.
And we can see it change rapidly.
We're not talking about years.
Yeah.
So we've never really, you know, it's one thing to say, okay, I'm going to give you
a drug or some food and see if it prevents a heart attack 20 years from now. But
what's happening underneath is this chronic low level of
inflammation, all these cytokines and inflammatory
cells, kind of going awry, leading to these chronic
diseases. But we're seeing those changes happen far before you
might have a symptom.
So let me give you an observation I made.
This is my aha for the last two years.
So I found this paper, which was called the Immune Inflammatory Index.
I'd never heard of this before.
And so I looked into it.
It was actually some work that had been done in Denmark.
I looked at the what is the immune inflammatory index.
And it's actually a very simple algorithm
that anyone can do from a blood test.
It is a taking the differential from a CBC,
complete blood count,
and putting it through a simple arithmetic equation
that anybody can do,
because it's simple math,
of the relative number of neutrophils,
lymphocytes, and platelets in your blood
from a standard blood test, you
do a calculation, and it will tell you from the immune inflammatory index, it's what's
called the result of that equation, if it's above two, then you start to be into an inflammatory
state that is associated with a whole variety of different diseases.
There are many, many papers now that have been published over the last couple of years
on the use of the immune inflammatory index.
So I started to talk to my colleagues about this.
They said, you know, why aren't we using
the immune inflammatory index?
Because it's a standard part of every blood test
that a person has.
We're just not doing the calculation.
When we started using that,
and we looked at them before and after,
say, were they were on tartary buckwheat
or on these low allergy, low potential diets, your detox approach,
lo and behold, the immune inflammatory index starts coming down very rapidly.
It's a very simple test.
And so now we have a simple marker.
I'm not saying it's a be-all and end-all, but I'm saying it's a very inexpensive first
level.
So now we have this like clinical observation trial
that we're doing with a whole variety of people,
including pediatric patients,
with a group of docs that are willing to participate with us
in looking at clinically how the inflammatory
and immune inflammatory index can be used in their practice
for designing personalized intervention.
So this is where we're going.
This is like a first level beachhead.
It's very simple.
No, no.
Most people don't necessarily have access to full epigenetic testing and deep analysis.
Your company, Big Mouth Health, which has pioneered a lot of the work around immunorejuvenation,
understanding immunosinness and immunometabolism, which we're going to talk about, has done
deep analysis using special chips that look at epigenetics.
This is not something you can go
just get from your regular lab.
It's a pretty sophisticated test.
But you were sharing with me earlier
that there's some surrogate blood biomarkers
that you can use that we test regularly
to infer what's happening at the epigenetic level.
So what are those?
So there's a panel of the following.
The majority of collisions can have access to
that are standard reimbursable analytes.
The first, as I'd mentioned,
is a complete blood count with differential.
Which measures your...
Your red cells and then your white cells,
what type of white cells.
And you put it into this little equation.
The second is secretory IgI,
which is measured in your saliva. So that infers
aspects of your mucosal immunity, that first line of defense on your mucosal membranes
that protect you against stuff getting into your bodily and creating mischief.
And you can measure that through a stool test or cheek swab, but also through your blood.
Is it as good to measure through your blood?
That can be done there as well. That's correct. Then the third is the, you've talked about
it a lot. In fact, you mentioned Paul Ritker, who was the developer and promoter of high
sensitivity CRP, C-reactive protein. C-reactive protein is a molecule made by your body's
immune system or acts by the hepatocytes that then is related to inflammatory burden.
And this high sensitivity variant gives you a much more sensitive determination of your
immune cell inflammatory potential. And anything above, say, one to two on that test is indicative
that there's some kind of a chronic inflammatory condition that may be present. So if you use
that small panel,
all of which are inexpensive and readily available,
now you have-
This is CBC, IGA, and a CRP, HSCRP.
That's where you start.
And what does that tell you?
Well, that will tell you if the person
is in a state of immune unrest.
And do those go through some algorithm together?
They can conceivably, the way I think they're generally used
by most practitioners is to look at them
just kind of visually and see if there's an imbalance
because we know that the IgA is gonna be
an innate mucosal immune variable.
We know that HS-Cerapi is a systemic immune
inflammatory variable and we know your CPC data
is going to be related to your hematopoietic immune system.
So that would be a combination of a innate and adaptive.
And it correlates pretty well with the epigenetic changes in your genome.
That's what we're finding.
So is this sort of a clinical tool that you can do and at function health we
offer this,
you can go to function health.com and test all these things and find out what
your numbers apply.
I can say, myself being a client of Function Health
and now tracking, I've had two sets of analyses done.
When I got more heavily on our program,
the things that we're talking about,
and that is really making sure I'm disciplined
about these low inflammatory promoting things,
including Himalayan Charter and Buckwheat,
but the whole diet approach and lifestyle approach, lo and behold, all these markers
that I were just talking about in my function improved.
What we have to do is figure out in order to address this chronic disease epidemic,
how do we reset our immune systems? Is there a way to rejuvenate our immune systems? Is
there a way to understand the linkages of that to aging and to
metabolism and to, you know, all the things that we, you know, are struggling with? We're struggling
with our metabolism with the epidemic of obesity. We're struggling with degeneration as we age and
the doorway into it just may be our immune system.
Pete Well, let's look at Yamanaka factors. You spoke about that in your book. So Yamanaka
factors won a Nobel Prize for their discovery, Professor Yamanaka, are these genes that are
associated with longevity. And so people that have been into the longevity space have been
trying to find drugs or ways of intervening to favorably influence the expression of Yamanaka factors to extend life.
One of those Yamanaka factors is a epigenetic regulatory agent for the patterns that associate
themselves with immune system function.
And so we're indirectly with those as one of the things that's associated with longevity
affecting immune cell epigenetics, which affects immune cell function.
Now it turns out that we are learning,
when I say we, that's a plural we,
we're just a small little part of the bigger we,
are starting to understand that the things
that we do in our lives, including eating,
send signals to these gene translation events
that epigenetically mark and regulate
how our immune system is gonna respond to our environment.
So if we eat diets that are gene regulatory and they put our genes at rest in our immune system,
then lo and behold, we can tolerate a lot more stuff. But if we eat foods like high in sugar,
they do the opposite. That aggravate the way that our genes are marked for our immune system. Now
we're hypersensitive. Now we suddenly, people will, you know, you know this, you've spoken to it many times, the patients will start this spreading effect.
They'll start with one thing and it gets worse and worse and then it becomes pan everything.
They become sensitive to everything because their immune system is so aggravated it can't
discriminate anymore. It just has pan allergic response to the world. So this is all part
of the regulatory process. It occurs way upstream with the signals that the immune system is getting from
how it's being treated.
Most people don't realize their morning coffee might be doing more harm than good.
Sure, it gives you a quick boost, but it can also spike cortisol, disrupt blood
sugar, and leave you crashing hours later. That's why I love Nanduka by Peak, a
smarter way to energize and support cognitive function
with fermented probiotic teas, adaptogens, and functional mushrooms.
It delivers steady, long-lasting energy with slow-release caffeine from poo or tea and
cacao, no jitters, no crashes, but clarity and focus.
Plus, it supports gut health, metabolism, and brain function with powerful polyphenols
and antioxidants.
Ever since I added Nanduca into my routine, I have decreased brain fog and much more mental clarity. And unlike most mushroom coffees
that use grain fillers, Nanduca only uses 100% fruiting body mushrooms for
real cognitive and immune support. Plus it tastes like the most indulgent and
delicious spiced hot chocolate. Right now, Peak is offering 20% off for life plus
a free starter kit with a frother and glass beaker. Just go to peaklife.com slash hymen that's p i q u e life dot com slash hymen. Try it risk
free with their 90-day money-back guarantee and feel the difference. I want
to talk to you about protein, a critical nutrient that's often misunderstood. Many
people don't realize that when we consume protein our body doesn't use it
in its current form. Instead it breaks the protein down into amino acids. The
building blocks of protein and then reassembles those amino acids into the specific proteins our body needs.
That's why I'm so impressed by Perfect Amino. It contains the precise ratio of essential amino
acids your body needs to build new proteins without the excess amino acids that turn into
calories. This means you get better results. Faster lean muscle creation, improve recovery,
reduce soreness, stronger bones, and no unwanted fat gain. If you're looking to build or tone lean muscle and recover faster
without the caloric impact of breaking a fast, Perfect Me-No is a game changer.
This is the future of protein supplementation. I recommend you try it for yourself. Just
go to BodyHealth.com and use code Heiman20 to get 20% off your first order.
The air inside your home might not be as safe as you think. Everyday household items like cleaning products, furniture, and even stoves release toxic particles
that can linger in the air along with bacteria, viruses, allergens, and mold spores.
That's why I trust Air Doctor to protect my family and why I have Air Doctors in my home
and podcast studio.
Air Doctor is the first affordable air purifier that removes virtually 100% of particles as
small as 0.003 microns. That's 100 times smaller than standard HEPA filters.
It also includes a substantial VOC carbon filter that eliminates volatile organic chemicals
and dangerous pollutants thanks to its perfectly sealed system.
I've partnered with Air Doctor to give my listeners an exclusive deal.
Right now head to www.airdoctorpro.com slash drheimann to save up to $300.
That's a-i-r-d-o-c-t-o-r-p-r-o dot com slash drheimann. So our diet has huge influence.
Our exercise has a huge influence.
Sleep has a big influence.
Dress has a big influence. Relationships and community have a huge influence, sleep has a big influence, dress has a big influence,
relationships, community have a big influence. The presence of nutritional deficiencies and lack of
optimal levels of nutrients plays a role. Lack of phytochemicals play a role. So there's all these
things that are modifiable that we can do something about. And now we can actually measure their
impact in ways that we never could before. What's really striking to me with things like COVID is that its consequences are quite striking.
Both the disease itself and maybe even the vaccine in acting in ways that suppress our
immune system. Lime disease and tick-borne infections are another example of microbes
that seems to suppress our immune system. One of the ways we diagnose it is by measuring
the activity of natural killer cells, which are depressed. Natural killer cells are exactly
what they sound like. They're the hunt and destroy cells, they go after cancer, they
go after infections and viruses, and they're part of your urinary immune system that are
so important in fighting everything. And what seems to have happened is that we've had a
suppression. Oh, in a second. Are we sure it's depression or is it not that we have enhanced the turnover of
those cells by causing their load, their lower life expectancy?
In other words, we've made them so senescent that they, they go away quickly
because they are basically being killed.
Yeah.
And so it's not that we've depressed them, it's that we've turned them over more rapidly
because we're not sustaining their functional ability.
Because all the things we're doing are causing them to kind of decrease in number.
That's right.
And that's what Lyme disease, that's what COVID does.
I've seen this in certain patients.
It's pretty striking to see this when you see across the spectrum of a population,
particularly along COVID, which is tens of millions of people in America, things are
off, their immune system's off.
And it's a form of chronic fatigue syndrome, like we had with maybe Epstein-Barr and other
triggers for chronic fatigue.
And it means that these people are less immune resilient, and they're likely to have all
sorts of symptoms and who knows what kind of diseases they're gonna get.
You know, there are now therapies that are being looked at that provide natural killer
cells.
There are now, there's a lot of research going on around, for example, how to take natural
killer cells from your body, grow them in a laboratory, inject them back into you as
a way of fighting infections or fighting cancer.
There's sort of concept of a bio shield that Patrick Soon-Shong has
talked about as an incredible physician researcher who's discovered a lot of these ways that
we can treat cancer differently or treat infections differently. And so we're kind of in an era
where our immune system, on one hand, is actually now working well, some of the key surveillance
mechanisms to deal with infections or deal with certain
things we need to address. And on the other hand, we're seeing an overactive immune system.
So we're seeing both these under and overactive immune systems that seem to accelerate inflammation
even more.
Well, I get that right?
I mean, yes, you did phenomenologically. I think you, yes, you did, but I think mechanistically, I think there's maybe a little bit more to the story.
It has to do with the turnover and life cycle
of these different cells within our immune system.
So as we've said earlier in this discussion,
immune cells kind of sacrifice themselves
often for their defense.
They will undergo cell suicide as a consequence
of when they are overly called on.
And so maybe what we're talking about as an immune system that looks like it's underactive
with these natural killer cells is actually just that the system is so turned on that
they're not able to replicate and keep their function.
And so what we need to do is lower the burden to allow them to catch up. That's right. So rather than give more natural killer cells, what we need to do is
find the mechanism that's causing the eradication or the overactivity of those cells, their
shortened lifetime, and reduce the senescence of the cells. As I said earlier, one of the
most important lessons for me in all my years of studying cell biology and health is that every process that I can think of in the body that I've come in contact
with has a destructive or a breakdown phase and a buildup phase.
So think of this as a highway with two lanes.
One lane is the area of breaking down.
The other, on the other side of the highway,
is a lane that's building back up.
Now, in terms of metabolism,
we call that catabolism and anabolism.
We say catabolism is you break down macronutrients,
protein, carb, iron, fat into calories of energy,
and then you use those calories of energy
to build back up tissues like muscle
and other tissues that are needed.
So catabolism and anabolism, we'd like to be balanced.
But that can occur, that same model
can go right down to every cell type.
So let's talk about molecules
that we wanna put a label on.
Let's talk about prostaglandin E2,
which we call an inflammatory molecule.
So we say, oh gee, we see a high level
of that molecule in the blood
if a person has a lot of inflammation.
So we want to get rid of it. How do we get rid of it?
We block it with an anti-inflammatory drug like
Inamethicin or
Ibuprofen that blocks PGE2. Now, but when we block PGE2, what happens then we become more immune
suppressed and now we become more at risk to opportunistic infection.
suppressed, and now we become more at risk to opportunistic infection. So it's not that PG-2 is a bad molecule. It's part of a balance of one side of the road. What we need is then
a counterbalance on the other side of the road for PG-1. And we can do that by properly
navigating the immune system into resilience. So it's balanced between PG-A2 and PG-1. That's
just one of a myriad of examples that we could go through in physiology. So it's balanced between PGA2 and PG1. That's just one of a myriad of examples that we
could go through in physiology. So our role is to find ways of restoring that resilience so your
body has that ability to go on both sides of the road simultaneously.
So what's really exciting is that we're now understanding how to intervene in this.
Yes.
Because you hear people, I wanna boost my immune system
or my immune system's not working
or I'm like chronically ill, infections,
I have a suppressed immune system.
There's something to all that, right?
And I think we understand how the system works now,
we understand what influences it, what harms it.
And it's the litany of things in modern civilization
that are killing us all, right?
The diet, the stress, the toxins, all the things we talked about, the increase in certain
infections. And now we can intervene. So, the question is, how do we start to think
about this idea of immunorejuvenation to kind of reset our immune system?
Dr. Seyfried We are right now, for the first time, I think,
in human history, able to find some answers to that question. That's the exciting situation that we find ourselves in.
So what have we learned?
So let me go back, if I can, to universal learnings,
historic learnings.
You have done a lot in bringing up Dan Butener's work
with Blue Zones and how do they relate.
And you've traveled these countries
and you've spoken eloquently and you've
been in videos and movies and you've
brought to people's understanding that certain kind of simple lifestyles were associated
with increased longevity.
And so we started asking the question, what are the principles that kind of the through
line that connect these things together that when we actually ask questions about how these
things influence their immune
system, we can come up with answers and those answers lead us into ways that we can employ
that in our lives.
Just this week, as we're having this conversation in a very well respected journal, Nature Medicine,
is published this incredible study from Tanzania.
Several thousand Tanzanians were divided into two groups. One group were
individuals that were eating the traditional African diet. The other group were people that
had become westernized, eating the westernized diet. So many cultures are undergoing that transition
where you can find the fast food. And the study did a very detailed evaluation of what was the
traditional African diet in Tanzania. Because obviously people eat their indigenous foods, the things that they grow and eat.
So it's very plant-based.
They have a lot of plantains and they have a lot of bananas and they also ferment these.
So it's fermented products.
They have these non-glutinous grains, sorghum.
And so it's very high fiber, obviously minimum processed and very
rich in phytochemicals and very colored. If you look at the photographs in the
publication which are colored you can see these diets are very beautifully
colored. Then what are the westernized diets? Well in the same country they have
photos of those. You could have those photos anywhere in the world. They're the convenience foods, the fast foods, the things that a lot of people are drawn
to. And so they then studied the individual's metabolism and their immune cells with both
these on the both these diets. Living in the same country, sharing the same gene pools
and what have they found exactly what we've been talking about. Incredible different marks on their immune cells when they ate their traditional diets
with low inflammatory potential, low gene activation, low alarm response.
Their fat was friendly, what little fat they had.
And the other group, the westernized diet group, exactly what we see in the rest of
the world when you get into the westernized diet group, exactly what we see in the rest of the world when you get into the westernized diet.
The immune cell profiles change, they become inflammatory potential, senescent, these secretory
inflammatory types.
They have the zombie cells, they have the issues of meta-inflammation.
And so we can see this at the genetic expression level by the signals that these foods that they're eating
are signaling to the genes that regulate then
the function of their immune system.
Now I wanna say-
So the key to unlocking healthy aging
is to understand how to properly interact
with our immune system.
Yes, in fact, what has been found,
this is the last 10 years,
is if you were to only measure one thing
that would determine
the year of your death, it'd be the age of your immune system. That's the best data we
have today to date to predict your longevity, is the age of your immune system.
And that's really predicted based on epigenetic testing of the expression of your genes and
which genes are turned on or off in your immune system. And that's what we're doing now.
And correlating that with epidemiological studies of longevity, which those papers are
now being published. What we're talking about here may sound very matter of fact, but actually
this is seismic changes in thinking. Because now we have, just not just a paradigm, we
actually have a model that is modifiable and we have a rationale as to why these diets
that were associated with blue zones
have this through line of similar foods,
not that the people in Tanzania
don't eat the same foods in Sardinia,
but they have this very high polyphenol content.
They have very colored with their different phytochemicals,
things that we have never taken seriously
in American nutrition. We thought that we have never taken seriously in American
nutrition. We thought that we could throw them away. We could process them to white
because white is close to godliness. We don't need all these colored things. It is produced
flavors and now we don't have sweetened fat as a flavor. We have the flavor of whatever
that polyphenol mixture is producing. We don't like that. We want sweet fat and salt. So
this is a whole shifting recognition when you asked
me the first question on our discussion, why do we have so much chronic illness? It's all
these variables that are changing at a time where we need maximum immune resilience and
we've taken away all the things that are needed for immune resilience.
So, so basically that the colorful compounds in foods, what we call phytochemicals, are part of a
strategy to rejuvenate your immune system.
Absolutely.
So, let me say one more thing to that.
If you go to Google or wherever you want to search...
Chat GPT.
...and ask, what is the historic value of these bioflavonoids or polyphenols in your
diet?
What it will say, I think.
And those are plant medicines.
There are things that actually the plants use for their own defense,
but that we've evolved, co-evolved with that actually regulate our biology
in very specific ways and targeted pathways that we now understand.
Okay, that's what you say.
That's not what CHAT TTP will say.
It will say that they're antioxidants.
That'll be the first thing it says.
Now I can tell you, I'm an expert in antioxidants.
I think I fulfill that criteria.
I started in the 70s and doing research
and publishing papers.
And I have always questioned
whether that was the adequate explanation
for how these flavonoids work.
Now it is true that they're antioxidants.
It is true they'll soak up oxygen radicals. To me, it never seemed like an adequate explanation
because Albert St. Georgie, who won a Nobel Prize, as you know, in chemistry for his discovery
of vitamin C, he developed the concept of the guinea pig as the test animal. Do you
know the story about that?
No, I know. He had a famous quote, which, discovery consists of seeing what everybody
else has seen and thinking what nobody else has thought.
That's right.
And so what happened when he did look for a marker organism that he could test anti-scorbutic,
anti-scurvy effects, he chose a guinea pig because it has this genetic aberration that
we have, a gene that doesn't allow us to make vitamin C, which like other animals, including
the goat can make vitamin C in their liver. In fact the goat makes over almost a gram a day of vitamin C in its own liver.
So he chose the guinea pig and so he was able to show by taking paprika
and extracting it because it's very high in vitamin C and he was the first guy to form
crystal in vitamin C and gave it to the guinea pig and treated scurvy for the first time in the guinea pig model of scurvy.
However, and this is a point that most people don't know, that if he used the ultra-pure
vitamin C, he only got the guinea pigs almost well, but they weren't totally well.
The only way they could get totally well was to give them the impure vitamin C that had
kind of an orange color to it.
Like it had impurities from paprika.
It wasn't purely crystal and white.
And then they got well.
What do you think that stuff was coloring the vitamin C?
It was flavonoids.
He called it vitamin P for permeability because it prevented capillary permeability.
Then people said, well, it's not really a vitamin, so let's call it substance P. Then
that got degraded to where it kind of completely got lost. He was the first person to start
talking about actual specific effects of a flavonoid on a health outcome.
Incredible.
Now, let me give you another example. So, you know DIL. I think any person can detect
the difference between DIL and spearmint.
Yeah.
What is the detection you use to detect the difference between DIL?
Your taste buds.
Okay, your taste buds. And what are your taste buds? They're neuroactive receptors of information from your diet, right?
The signals that are coming from your diet. What are those signals? Those signals are something in that plant.
Those are molecules in the plant. Okay, now I'm going to give you a little factoid you may be unaware of. So what is the molecule that produces the flavoring of dill and the flavoring of
spearmint? It's the same molecule. It just tastes different. It's called carvone. Now, now, here is the point of my story.
It turns out the only difference between the carvone that's in DIL and the carvone that's
in spiriment is the way that it rotates plane polarized light.
One rotates plane polarized light to the right.
The other rotates plane polarized light to the left.
That's called RNS carvone. That's called R and S Carbone.
That's a chemical nomenclature.
Wow.
They only differ by their handedness.
That changes the flavor.
One is right-hand.
Yes.
To the extent that you would never dismiss the mistake experiment.
Think of that for a moment as it relates to the information that our body is receiving.
It is so precise that it's down to the ability to rotate plane polarized light in its specificity.
So we just say flavonoids are antioxidants.
That's BS.
They're cell-specific regulators of gene expression patterns.
This is a pharmacopoeia of thousands of compounds that we eat in our diet.
So given that, and given that we have immune systems
that are dysfunctional, given that we need,
we are understanding the role of immune system
in metabolic health and aging
and how to rejuvenate our immune system,
I wanna sort of dive into a specific plant,
which you've come to love.
Do I ever.
And you've spent, you know, better part of a decade,
I think, diving into the science around this and doing some extraordinary research.
This is a plant that's called Himalayan Tartary Buckwheat.
You develop a company called Big Mold Health, which I'm an investor and advisor to and very
proud to be.
It basically has taken this ancient plant, which turns out to have probably more phytochemicals
than almost any other plant on the planet that we've discovered to date, has sort of been a neglected plant. And you've taken this plant
and subjected it to rigorous clinical trials, studies that have found some pretty extraordinary
things with this. And this is a seed, basically, right? A flower seed.
It's a fruit seed.
Fruit seed, yeah. You can't really buy it that easily in the supermarket,
but you've basically resurrected it from being kind of almost eliminated from
the food supply, created a model of regenerative farming to grow it,
which actually compounds the phytochemical richness of the food and
increases it because the soil is how the plants get their nutrition.
And if the soil is dead and dirt, not soil,
if it's just devoid of organic matter, it can't take out the nutrients.
You even sprouted it, which even accentuates a lot of these benefits.
Yes, it's rich in flavonoids like coarse tin, which has been studied for longevity and it
activates AMPK, which is a key enzyme in longevity pathways and many other things.
You found how it affects gut immune system function with its prebiotic fibers.
You found how it actually enhances the function of natural killer cells, which are key to
fighting infection and cancer.
How it modulates inflammatory cytokines that drive inflammation in the body and all the
chronic sterile inflammation we've been talking about that's rich in nutrients like zinc and magnesium that is important
for function of your T cells and your natural killer cells and even has antimicrobial properties
that are antiviral. So this is a plant that has a...
Plus it's high in protein and its protein utilizability is close to that of meat.
That's incredible. So it's high in protein, it's low in starch and sugar,
low glycemic load, it's quite an incredible plant
that you've kind of resurrected
from the mothballs of history.
And one of the things you've done with this
is you've subjected it to a trial in humans
where you've measured through very complicated,
sophisticated epigenetic testing, in other
words, how this particular plant modifies the expression of our genes and is an immunorejuvenator.
So can you take us down what that study was that you did and how this sort of works at
a mechanistic level and what you discovered in terms of its effects on our genome.
I think that this work that we've been doing is kind of a model in which nature is giving
us a peek into some of its mystery in ways that we didn't understand before.
Nature doesn't divulge her secrets easily.
I think you have to do it a step at a time. And so what we first found was this 3500 year old food.
When we analyze it very precisely for its composition, we found there were 121 different
phytochemicals from the polyphenol family across all the various families, the flavonol,
flavonoin, flavone, and anthocyanin families. They were members
across that whole range of plant compounds. So then I asked a question. I said, now hold
it just a minute. Why would a plant go to the trouble? Because metabolically, it's very
costly for it to make 120 different individual chemicals. why would it do that? Maybe it only needs
one thing, like why doesn't it just make quercetin? Quercetin has all these value propositions.
Why doesn't it just make rutin? Why doesn't it just make homo aereodictiol? Why doesn't
it just make, and I could go down the list.
Yes, you could. I'll try it.
And the answer is that nature is super intelligent because it has recognized that regulatory
function of genes requires multiple cell-specific activities to orchestrate outcome for maximum
resilience, to maintain the redundancy of our system so that we have maximum opportunities
for positive outcome from exposure.
Now why did those flavonoids get built in the plant?
It wasn't for us, obviously.
It was because that's the plant's immune system.
And that plant is subjected to really hostile conditions.
It is.
Yeah, the climate is horrible, the soil is horrible,
the insects are there, the mold and rust and all this stuff.
So it has, plus it gets sunburned like mad.
So it has to have-
Yeah, and you have 17,000 feet.
That's right.
You get more sunburn, right.
So it has all these members of its orchestra
that are there to play this suite of immune innate function
that allows it to survive for millions,
well, hundreds of thousands, probably millions of years.
And it turns out, hundreds of thousands, probably millions of years.
And it turns out, lo and behold, that the mechanism by which that plant is able to protect
itself by these compounds speaks right into the mechanism that our innate immune system
in humans when consuming that plant can use as fuel, can use as information.
So here is a specific example of food as information.
It's not just an antioxidant effect.
It's a gene expression effect through this
epigenetic regulation of multiple genes
that are controlling multiple functions.
So now let's go to your question,
which is what about this research trial that we did.
So in this case, we asked in humans,
without controlling their diet,
just go ahead and eat your normal ad-lib diet. So it's not going to be a diet control study.
What happens if we gave you a fairly enriched level of these imaline, tartar-e-buckwheat
polyphenols, this array of substances, to the level that you were going to get about
1200 milligrams a day? that would be equivalent to consuming
about a half a cup of tartar-e-buckwheat flour a day, would be equivalent to that.
And the reason we chose that is that there are data that had already been published in
the Asian medical literature showing that they could show clinical effects in humans
in terms of improved insulin sensitivity, reduced inflammation, reduced lipids when
they fed that amount of flour
to individuals.
So I said, okay, let's study that the gene level in immune cells.
And lo and behold, in these individuals, when they consumed that level of these polyphenols
over the course of 90 days, so three months, what did we find?
Now we were told when we started this study, we probably wouldn't find anything of statistical
significance because the background of diet would overcome whatever signal we were getting
from the supplement.
But it turns out that was wrong.
That the signal was so strong on our immune system of these 50 subjects that we had in
the trial that some of the epigenetic patterns in their immune genes were amplified or altered by 20 fold.
Dr. Senghorst Wow.
Dr.
Senghorst Not 20%, 20 fold. I mean, it just stood out like the Empire State Building, you know, off of the other gene array.
Dr. Senghorst That's like 2000%.
Dr. Senghorst Right, exactly.
Dr. Senghorst And when we see an effect in medicine, we say, oh, it's a 30% or decrease in your risk of heart attack, like a statin, and that's 30%.
We're talking about 2,000% of the time.
Dr. Delgado So then people would say, okay, interesting,
but does it mean anything?
So then we did a functional analysis as to what were these genes regulating in terms
of the cell function.
And they were regulating two interesting
pathways or networks. One is called the ceramide kinase network and the other is
called COP9. This is a little scientific geekism but what I'll tell you is that
both of those are fundamental longevity pathways. And so what this then
translated to when we did the algorithms of aging clock analysis of the immune
cells is that we reduced the rate of aging of those immune cells by 47% over the course of three
months. So basically taking a supplement with Himalayan Taro buckwheat plant chemicals or
yes other chemicals in 90 days reversed your immune health by 47%. Reduce the rate of aging of the immune cells by 47%.
That's amazing.
I mean, this had never been shown before.
Now, let me be very honest.
This was a pilot trial, was a small number of subjects,
wasn't blinded, wasn't placebo controlled.
So there's legitimate criticism
that this doesn't fulfill all the
gold standard criteria.
But you're going to fix that.
We are. We are doing an 800-person trial under very controlled, blinded, placebo-controlled
conditions initiated actually this month to be completed by the end of the year of 2025.
We will wait and see. But this is the first study I think ever been done on
a single food and its effect on immune cell epigenomic influence on cellular aging and
cellular function, inflammatory pathways. I believe we will contribute to the body of
science some aha that will leverage this forward in ways that have never been seen before. I am really excited about this because I think it not only will validate our thought that
the simulane ternary buckwheat is really an important agricultural product, but it will
also provide a model for which other studies can be done on many other interesting plant-derived
things that are associated with longevity. And it gives
us a testable model that we can replicate.
Pete It across other foods.
Dr. Corsette That's exactly right.
Pete This is amazing. And I think, you know, what's so interesting about this particular
food is that it has a, it's like a multi-tool, like a Swiss army knife of effects in terms
of the body. And it doesn't just affect the immune system and inflammation
in all the ways I describe it. It also has incredible effects on metabolism by regulating
glucose metabolism, the fibers in it help with cholesterol metabolism, improve your
HDL and lower your LDL and helps liver fat and modulates something called AMPK, which is
a critical pathway that a lot of people
are studying with longevity.
It's one of the, I don't know, what I call one of the four longevity switches that everybody's
studying Metformin for, but there may be other ways to do that without having to take a drug.
And it has effects on the microbiome in ways that help blood sugar control.
So there's so much going on in there, not just the fiber in it, but also the polyphenols, which now are needed for gut microbiome health. So,
this is such an incredible food and you've sort of resurrected it from basically the
grave, have done a tremendous amount of research on it, and we'll link to all the studies
that we talk about. But this is kind of a moment in history when we're finally able
to sort of make sense of food as medicine, not in this abstract,
high-level framework, but actually in a very specific way with very sophisticated testing
that isn't available clinically, but as a research tool to see the impact of these molecules
that we can get from our food.
You can make pink.
I make pancakes out of it.
You know, muffins, but you can get the sprout powder,
which sort of enhances its benefit.
And I put that every day in my smoothie.
You can sprinkle on yogurt or put it in food.
It's kind of like a superfood of the superfood in a sense.
You're working this whole area,
I never even heard of the word
amino rejuvenation until you said it, right? And never heard of
immunometabolism. But now there's published papers on it, there's
a whole field of research that's looking at this. And we're kind of at this
historical moment where we actually can, in a granular way,
use food as medicine and to actually help many conditions. But it's more
importantly to kind of help us deal
with the degradation of our immune system as we get older.
And to find a way to kind of up level the function of it
so that we don't get this enhanced inflammation
as we get older and then through multiple pathways.
And I imagine many of the phytochemicals in this product
are not fully elucidated in terms
of their impact on our biology.
We still, we're sort of looking at holistically at what it's doing.
We don't know what each individual compound is doing.
But to me, it's really fascinating.
We don't even want to do that because that can, sort of a reductionist way of looking
at things.
But to me, this is sort of a great advance in science and something that people can easily
do as part of their daily supplement routine
or their smoothie routine. I've sort of incorporated it automatically into my daily life because
I think the literature is so compelling on this and it's why I'm an investor. It's why
I support the company through my advisory role and just in terms of promoting it because
I think this may sound like a commercial, but it's really not. It's like this is just taking advantage of the tremendous advance in science that help us understand this
sort of unique role between us and plants and our microbiome and plants and our immune system and
plants and our metabolism and plants and how all that plays a role in optimizing our health and
enhancing function because this isn't treating a particular disease, it's just making everything
work better so they don't get sick.
The more we deep dive into this, the more we learn.
That's just a neat thing about science interrogation, that there's always another question to be
answered.
So when we started focusing on sprouting the seed, and we're looking for optimal sprouting
conditions, we were able to finally land on a specific mechanism for sprouting that I am, was quite
amazed because when we did a compositional analysis of the phytochemicals in the sprout,
as you alluded to earlier, we had a threefold increase of the overall immune active phytochemical.
So it's like a super superfood.
And I think we have levels now in that sprout powder
that's basically like a medicine.
I mean, it's quite amazing.
Now, here's the most interesting thing to me.
When I looked at the compositional analysis,
much to my surprise, I found out that there were
very high levels of a specific anthocyanidin
called delfinidin. Now, delfinidin has never been reported in
anything at high levels, in anything other than berries. And there are clinical trials
on delfinidin as a cognitive improver, as a substance that improves blood sugar. And
the level of delfinidin in our sprout powder is therapeutically high. So then I asked the question,
where did it come from? So what happens when you sprout, if you think about it, is that
the sprout life starts generating. And what life needs may be different than what the
seed when it was dormant was storing, just like the egg when it starts hatching. And
so the principles of life then require
certain things to be produced. And it turns out that in the hull of the tartaribucweed seed,
there is a different composition of polyphenols than in the endosperm inside the seed,
because the hulls have to be able to protect the inside of the cell against all the environmental
damage. So what's in the hull, in the hulls, the husks, are these anthocyanidates that are really
good as protectors from environmental stress to protect in the interior, which are higher in the
flavin III hulls that are necessary for metabolism. So now what happens when you sprout is you liberate the
anthracyanins that were in the hulls now into the mixture so we get the full benefit of berries
plus HDB in the sprouts. This is the first time it's ever been reported.
Incredible. Incredible. So as you can kind of get from our conversation, you know, we're in a whole
new era of understanding food as medicine. Yes.
And no one has been an advocate for that more than you, Jeff.
I think you might have even coined the term.
I don't know.
For sure, food is information.
And the information in our foods can help us to rejuvenate our function across a spectrum
of different bodily functions.
And the most important is our immune system.
And it's something that now you've kind of pioneered
as this new field of inquiry and also of clinical application.
How do we then apply this in therapy?
And you're not treating a disease
when you take sprout powder,
but you're modifying your risk of disease.
That's right.
And you're regulating your immune system
in ways that help you stay healthy
and end up reducing the rate of aging,
which you've demonstrated clinically.
So I'm really excited about the further research you're doing.
I think we're gonna stay tuned for that.
I think we're gonna keep talking about this for a long time.
And Jeff, I just wanna thank you for your life's work.
And I don't know how you do it at almost 80 years old
with a startup company, doing it all over again,
but it's just a testament
to your passion and care and interest in kind of continuing to educate all of us about the
latest advance in science and medicine and how we can use that to help relieve suffering.
So thank you, Jeff, for being on the podcast and eliminating this whole field of immunorejuvenation
and immunometabolism, which I think is really the future of understanding health and aging and longevity.
And it's something we can easily apply to our lives by just incorporating some of these
things into our daily routine.
And we're going to put links into all the scientific papers we talked about.
We're going to put links into how to find more about Big Bold Health and Himalayan
Turmeric Buckwheat products, including Sprout Powder, which I think is an essential daily
staple, including supplements that are derived from it and things that help your microbiome and many other things
you guys offer, which are really cutting edge in science.
Well, Mark, you're a gift to all of us.
You really are.
And I want to be very authentic about that.
I was privileged to have met you in the AFMCP some many years ago and watched how you have
spread your skills and
talents to the world and you're creating a better world as a consequence
of what you do. So thank you so so much. It's a privilege to be part of that.
Thank you Jeff. That means a lot.
When it comes to supplements, you only want the best for your body,
the kind with the highest quality, cleanest and most potent ingredients you can get.
That's exactly what you'll find at my supplement store.
I've hand selected each and every product to meet the most rigorous standards for safety,
purity, and effectiveness. These are the only supplements I recommend to my patients
and they're also what I use myself. Whether you want to optimize longevity or reduce your disease
risk or you're looking to improve your sleep, blood sugar, metabolism, gut health, you name it,
DrHeinman.com has the world's best selection of top quality premium supplements all backed
by science and expertly vetted by me, Dr. Mark Heiman.
Check out DrHeiman.com because when it comes to your health, nothing less than the very
best will do.
That's DrHeiman.com.
DrHeiman.com.
DrHeiman.com.
DrHeiman.com.
But if you love this podcast, please share it with someone else you think would also
enjoy it.
You can find me on all social media channels at Dr. Mark Hyman.
Please reach out,
I'd love to hear your comments and questions.
Don't forget to rate, review, and subscribe
to the Dr. Hyman Show wherever you get your podcasts.
And don't forget to check out my YouTube channel
at Dr. Mark Hyman for video versions
of this podcast and more.
Thank you so much again for tuning in.
We'll see you next time on the Dr. Hyman Show.
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
Ultrawelnesscenter.com and request to become a patient. It's important to have someone in your corner who is a trained,
licensed health care 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.