The Rich Roll Podcast - The Ant-Viral Gut: Robynne Chutkan, MD On Optimizing Immunity & Preventing Disease From The Inside Out
Episode Date: October 31, 2022Multiple studies now confirm a dramatic link between the health of our microbiome and our ability to combat viral illness. Today we explore this connection, with tools to promote gut health, optimize ...your immune system & prevent disease. Our host for today's exploration is the queen of all things gut health,ย Robynne Chutkan, MD. Dr. Chutkan is a board-certified gastroenterologist serving on the Georgetown University Hospital faculty. She is the founder of the Digestive Center for Wellness, as well as the author of 4 books on the microbiome, including her most recent,ย The Anti-Viral Gut,ย which offers practical advice for optimizing diet, exercise, sleep, and time outdoors to boost the bodyโs defenses and our overall health. Appearing for the 2nd time on the podcast, my initial conversation with Dr. Chutkan 7 years ago (RRP #192) dove into the nuts and bolts of the microbiome:ย what it is, how it functions, and how we can care for it.ย Today we zoom in, focusing on the antiviral aspects of gut health, why itโs so important, and what you can do about it. Weโve talked a lot about the microbiome on this podcast, but this exchange is truly a masterclass within itself.ย Watch:ย YouTube. Read:ย Show notes. Iโve known Robynne for many yearsโshe is such a delightful presence. It was wonderful to have her back in the studio. Her expertise in communicating this subject matter is truly unparalleled, and I am excited to share this one with you.ย Enjoy! Peace + Plants, Rich
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We know that fiber is a main ingredient for creating a healthy microbiome.
That's really not up for debate.
for creating a healthy microbiome.
That's really not up for debate.
It's becoming more and more clear as time goes on that the microbes in our gut have way more control
over our body's biological processes
than we originally thought or might like to believe,
including, as it turns out, immune system functionality,
our resistance to infection and illness.
If your complement of gut bacteria are off and you don't have a healthy microbiome,
your immune system might not trigger that release of virus slaying capabilities.
To better understand this connection between our microbiome and our immune system,
I sat down with Robin Shutkan, MD.
biome, and our immune system, I sat down with Robin Shutkan, MD. Robin is a board-certified gastroenterologist who serves on the faculty of Georgetown University Hospital. She is the founder
of the Digestive Center for Wellness, as well as the author of the books Gut Bliss,
Microbiome Solution, The Bloat Cure, and her most recent, the antiviral gut, which is the central topic of this conversation
and offers practical advice for optimizing diet, exercise, sleep, and time outdoors to
boost the body's defenses and our overall health. Most of the immune system is physically located
in your gut, about 70 to 80% of it. And there's constant communication. So the gut bacteria
actually guide that immune response. We've talked a lot about the microbiome on this podcast,
but I would say that today's exchange is truly a masterclass within itself.
We define several relevant terms, including germ theory and dysbiosis. We discuss how the gut is affected by birth control, sleep, stress,
lifestyle, and diet, as well as various medications, including NSAIDs like ibuprofen
and PPIs like Prilosec. And we end with advice on how to seek treatment for a gut issue.
I've known Robin for a number of years. She is such a delightful
presence. It was a treat to have her here again for her second appearance on the podcast.
She's somebody who has such a great expertise in communicating on this subject matter. It's
really unparalleled and I'm really excited to share this one with you. So it's all coming up in a moment, but first. We're brought to you today by recovery.com.
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All right, you guys ready to do it?
Please enjoy this deep dive into the antiviral gut
with Dr. Robin Shuttkamp.
So nice to have you here.
It's so great to be here.
I was reflecting on the last time that we did this.
It was a full seven years ago.
I remember showing up at your house in DC
and meeting your family,
being very intimidated by your husband,
who I believe is like in counter-terrorism for the CIA.
Like he's a super spy.
He was with DHS. Is he still doing that?
He was with NCIS and then DHS.
And now he's with MITRE, but he's just a pussy cat.
Do you remember my daughter?
I think she was 10 at the time.
And I remember you got out of a car, I think an Uber,
and she was all like, what?
He didn't swim up the Potomac and bike and run.
And she was all disappointed
that you hadn't like come on foot.
I am a civilian, yeah.
I can't believe how long ago that was.
It feels like yesterday, but delighted to have you back.
We're here because you've got this new book out. A lot has happened over the last seven years
in terms of your life
and also advances in the science of the microbiome.
It really is like this amazing frontier right now
where so much is coming out
about how important gut health is
for every facet of health.
We're gonna focus on the immune system today,
the antiviral gut, your book,
but maybe catch us up on what's going on in your life
since we last talked and maybe, you know,
what's been going on in the field of microbiome science.
In 2015, I think my second book,
The Microbiome Solution, had just come out.
And I think people were just sort of like, huh? Right. Gut microbes. It was a new concept for
everybody. Yeah. I mean, obviously we've known about the microbiome now really from the 1600s
when Anthony von Leeuwenhoek first looked at his own dental plaque under the microscope and
saw some critters. But as you pointed out, Rich, it's really taken a while
and now we're in this crescendo phase.
So there's a really cool graph online.
It sort of floats around the internet
of the number of medical articles published,
scientific articles on the microbiome.
And it's like a bar graph
and then you just see it like stacking up.
And now of course, in the last two years,
that's just gone through the ceiling, right?
The scientific literature.
And in some ways the scientific literature has caught up
with what we know to be true because we see it,
we live it, we experience it all the time.
And so I actually have gone back and read that second book,
which until this book was the favorite of my four books and realize like how much of that maybe just sort of didn't penetrate for people really
until this pandemic. So it's actually kind of tragic, right? That it's taken a global pandemic
like this in some ways for people to really realize this stuff matters.
Mm-hmm. And yet I'm not sure I'm convinced that the pandemic really connected
people with the importance of the microbiome and its relationship to the immune system. I mean,
this is a big focus of the book, right? Like I learned a lot reading it. I mean, first of all,
fabulous job. I think it's an incredible read and I learned a ton. And on the subject of kind of how science has advanced,
it is like the new and the old, right?
Like you even have the quote in the book,
like Hippocrates saying, like all disease begins in the gut.
Like this is not a new idea.
All this science is coming out.
And yet it does also feel like we're still
at the starting line.
Like I feel like there's so much more
that we still don't know that we're discovering
like every month something new comes out,
some revelation about how important our gut health is
in relationship to every other facet of wellbeing.
And that was part of the challenge
of writing this book, quite frankly,
this idea of the science moving so fast.
So unlike the other three books,
which are primarily about digestive health,
something I've been in this field for 30 years,
I dare say, I know what I'm talking about.
This science was changing.
I literally wake up in the morning and there'd be,
you know, 10 new research articles for me to read.
And by that night, there would be more.
And then the next day I would wake up again.
And I remember commenting to my daughter,
who's now a senior in high school.
I think she was probably finishing up her sophomore year when I started this again. And I remember commenting to my daughter, who's now a senior in high school. I think she was probably finishing up her sophomore year
when I started this process.
And I remember commenting to her
and sort of complaining that I feel like
I'm writing a 20-page research article every day.
And she very kind of sarcastically said,
well, welcome to my world.
Maybe she was a junior in high school, right?
But it really did feel that way.
But at the same time, it was incredibly exciting
because seeing these fields of immunology and microbiology
and gastroenterology all coming together,
neurology, quite frankly, coming together.
And it also felt that there was a fervor,
not just in the medical and scientific community,
but out there with people to get answers and to find out.
And you can see it, it's reflected in the publishing process
and in the way that articles now are more accessible, right?
And of course, a peer-reviewed process is important.
We need to make sure, we need to validate
when a new article comes out,
that the statistics are correct,
that the figures are correct,
that peer-reviewed process is super important. But at the same time, it's super important to get the information out to
people quickly. And I think this concept of the citizen scientist, you know, of, I mean, I'm just
amazed at my patients, how much they know and how much they've read. And they're reading a lot of
the same journals I'm reading. I mean, maybe they don't have the same scientific medical background
to interpret it the same way, but they're interested.
There's this kind of thirst and fervor to find out
that just feels different from where we've been before.
That can go both ways though, right?
Like you can have the person
who goes down the wrong rabbit hole
and gets a bunch of strange ideas in their head
about what they should be
doing. I mean, that seems to be a big problem at the moment. Like what is fact? What is fiction?
And when you kind of peruse news articles that are extracting from the peer reviewed research,
they don't always translate it properly. And there tends to be clickbaity headlines associated
with that stuff that give people maybe misguided advice. Absolutely. And then there's a commerce piece,
you know, there've been huge fortunes made as you know, from, you know, whatever it is,
like whatever the sort of magic pill at the moment is for curing COVID. And as you said,
the clickbait, you know, the sensationalism, The goal for me for this book was pretty simple.
I just wanna give people information that they can use.
And the tone is, I feel calm and reassured, right?
I mean, there was, as time has gone on,
I think we felt more that way.
There was certainly, I think a lot of terror
in the beginning, but it is,
and it's not just about COVID, it's about your body, right?
The more you know how it works,
the more you know that these things that are happening
are primarily designed to help you, not to hinder you.
And the more you understand it and can have that dialogue,
the better off you are.
And that's true about COVID, about cancer,
about the common cold, whatever it is that's going on
and really making sure that people understand
some of the physiological, the anatomical, the hormonal processes that's going on and really making sure that people understand some of the physiological, the anatomical,
the hormonal processes that are going on.
Sure, sure.
So the subject of the microbiome
is not a new theme for this show.
I've hosted many conversations on this subject matter,
including yourself.
And we did a masterclass on it not too long ago.
But what we haven't done is really go deep
into the relationship between gut health
and the immune system.
And obviously this is the focus of the book.
So let's like start with just defining our terms
a little bit.
Like when you say, okay, we kind of know
what the microbiome is, we're gonna get into that.
We kind of know what the immune system is,
but like, do we, like the immune system isn't,
it's sort of a, it's sort of ephemeral, right?
It's not like the pancreas,
like where is the immune system?
What does it do exactly?
It's dispersed to some extent, it's complicated.
It's really multiple systems operating.
So talk a little bit about like what we mean
when we talk about the immune system.
Sure. And I think you did a fantastic job of describing exactly how people perceive it. It
is this ephemeral kind of it's humors lurking around in the body somewhere, but most of the
immune system is physically located in your gut, about 70 to 80% of it. And so when we talk about
the immune system, we do a little immunology 101 and
full disclosure, I'm not an immunologist. I'm a gastroenterologist, but let me give folks some
basics. So we're really talking about two systems. We're talking about the innate immune system that
you're born with and an acquired immune system, sometimes called the adaptive immune system that
you acquire over time. The innate immune system works quickly,
but it's sort of nonspecific.
So for example, if you get a cut,
it works to help protect you from the bacteria
that may be invading through that open wound,
but in a very nonspecific way.
The acquired immune system develops over time
and it actually keeps a record
of every pathogen that you're exposed to so that it can remember it
and mount a response.
So it's sort of like that person who never forgets
and holds a grudge and is like,
oh yeah, in first grade, you kicked me under the table.
Right, like a crow, right?
Crows never forget.
Exactly.
So the acquired immune system is able to,
it takes a little bit longer to work
and particularly if it's a new organism,
but it remembers,
and then it is able to release antibodies.
So the acquired immune system involves T lymphocytes,
B lymphocytes, and the B ones make the antibodies,
and the T lymphocytes are kind of like air traffic control,
destroying cells that have been infected, et cetera.
But if you think about the adaptive immune system,
the point that I like to make for people
is that that is a basis of vaccines, for example, right?
A vaccine introduces a tiny little bit of the viral protein,
not enough ideally to make you sick,
but enough for your adaptive immune system
to start to create antibodies against it
for the next time it encounters that virus.
And so if you think about some of these things,
like with measles, for example,
a virus that's very old,
you get measles and you have the illness,
your immune system remembers
so that the next time you're exposed to measles,
you're immune.
Now vaccine can do the same thing, right?
But so can having the disease in that particular instance.
And so what we see is that the adaptive immune system
can make you less sick or not sick at all
the next time you encounter something.
Sure.
So the innate immune system, the acquired immune system.
So when we talk about, I think you said 70%
of the immune system resides in the gut.
Like, so what is it exactly that is in the gut?
Is it these lymphocytes?
Is it these systems and pathways?
Like what are we talking about specifically?
It's these actual cells.
So when you think about the gut lining,
this is a razor thin lining.
It is literally a millimeter or two thick, and it's a net.
It's a permeable net, like a fishing net with tiny holes.
And it allows some things to go through.
So typically digested food,
digested into the micronutrients passes through.
And then the excrement,
the waste matter from cells passes out.
And remember that when something is in your GI tract,
it's not actually inside your body,
it's in this long hollow tube from mouth to anus.
And so things get passed out.
Well, the immune cells are on one side.
They're on the inside part of the net, inside your body.
And your trillions of microbes are on the outside,
on the other side of the gut lining.
And of course, there's a thick mucus layer
also surrounding the gut microbes.
But it is literally this hand and glove relationship.
And there's constant communication. So the gut bacteria actually guide that immune response.
They're constantly sending signals to the immune cells to tell them what to do. And I'll give you
a great example of that is there is a bacteria in the gut called Bacteroidetes. It's a sort of
type of bacteria and there are many different strains.
And when certain viruses enter the GI tract,
Bacteroidetes in the gut lining right there,
in the lumen against the lining
will trigger a message interferons,
and they're called interferons
because they interfere with viruses,
to release certain cytokines to destroy the viruses.
And so if your compliment of gut bacteria are off
and you don't have a healthy microbiome
and you don't have sufficient quantities
or the right strains of bacteroidetes,
you might not trigger that release of interferons
and this sort of virus slaying capabilities, if you will.
So it's both a functional relationship and it sort of virus slaying capabilities, if you will. So it's both
a functional relationship and it's an actual physical relationship, Rich, because they're
right there next to each other, constantly communicating. And when you think about it,
your immune system, your gut lumen is exposed to trillions of different things, right? Because
again, it's in contact with the environment, what we're eating and swallowing.
Everything's going into this open tube. And your immune system has to look at this morass of, a gazillion different organisms and figure out what's friend and what's foe. And it's really
the gut microbiome that is directing that. And that's literally saying, yeah, this one,
you need to be really worried, do something big.
This one, just ignore.
Yeah, this one's actually helping.
So it's that back and forth relationship,
that communication that's happening all the time in our gut.
Right, so essentially these things
are completely interwoven.
You can't talk about the gut
without talking about the immune system and vice versa.
They are 100% dependent upon each other
in terms of their functionality.
And when we talk about immune system dysregulation,
that can come in two forms, either it's hyperactive,
and then you see all of these like sort of autoimmune
diseases or allergies to foods and such,
the cytokine storm that comes with certain people
who succumb to COVID, et cetera,
or the underperforming immune system that you mentioned,
where you're not producing the interferons
and the cytokines necessary to combat the disease
on the front lines, the virus on the front lines.
Is that a fair?
Yeah, that's a beautiful summary.
And I think even dividing it further into internal threats
and external threats can help to clarify it even more,
but you gave a beautiful summary of what it is.
So if we think about an overactive immune system,
on the one hand,
I want people to think about internal threats
and that would manifest as autoimmune disease.
So that's basically when your body
is reacting to your own body's normal tissue,
it's recognizing your own joints, skin, et cetera,
as foreign and mounting an immune response.
And so we see that with autoimmune disease
affect one in four Americans.
There are over a hundred different autoimmune diseases now,
and this is a list that's growing, unfortunately.
We can talk about why that's happening later.
When we look still in the category
of an overactive immune system,
we look at external threats.
And so that would be people having allergies,
peanut allergies, severe allergies to bee stings.
I was exploring the Martian Beaufort, South Carolina,
my husband's hometown back in May.
And we had the unfortunate privilege
of being bitten up by chiggers, these insects.
And his healed in about two or three weeks
and mine are still active four months later.
I've had this sort of unknown delayed hypersensitivity
reaction to it.
And maybe because he grew up in South Carolina
and he's been bitten by chiggers before as a kid
and I never have, but that's an example of an exaggerated response to this external threat. So that's all overactive
immune system. Underactive immune system, if we again look at the two categories of internal
threat and external threat, the internal threat would be people developing cancer because your
immune system doesn't just protect you from infection, it also helps with cancer surveillance.
So as our cells start dividing,
sometimes they start to divide a little precariously
and that reproduction leads to errors
in the genetic material of the cell
and over time that can transform to cancer.
And so the internal cancer surveillance system
is also something that our immune system does and it would weed out those cells so that they die off and they're not continuing to
proliferate and form cancer. So with an underactive immune system, your cancer surveillance is off and
you're at increased risk for cancer on the internal side. And on the external side, that would be
infection, viral, bacterial, fungal, et cetera. So what we should all be aiming for
is this concept of a Goldilocks immune system, right?
An immune system that is active enough to clear a virus,
but not so active that we end up with a cytokine storm.
You mentioned this overblown immune response.
And the really fascinating thing
when we look at this pandemic
is that a lot of the deaths and the illness
have been due primarily to the immune response,
not so much a virus itself,
but it's our body's unregulated
or dysregulated response to that virus
that's causing the acute respiratory distress syndrome
or other severe illnesses and sometimes even death.
Yeah, sure.
So there's so much in what you just said to unpack,
but to kind of pull some threads on this.
I mean, first of all, yes, like in this era of COVID,
I think we can all agree
that we've been on the receiving end
of a lot of conflicting information and social vitriol
that kind of swirled around what is fact, what is fiction.
Certainly, one truth that was kind of underrepresented
was that there was not enough messaging
about the personal responsibility
that we have for our own health.
And much of what you talk about and is in your book
is the malleability, the adaptability of the gut microbiome
and in turn our immune system
when we sort of get rid of certain things
or stop certain habits and adapt new habits.
Like it really is resilient in that regard.
And we're all capable of creating
a Goldilocks immune system.
I mean, most of the languaging
is around boosting our immune system.
Obviously that's problematic for the reasons
that you just said.
It is this Goldilocks immune system
that we're all striving for.
But to kind of begin to understand this,
I think we have to talk about,
it seems to me that the first place
that we wanna kind of enter into here
is the difference between germ theory and terrain theory,
which you beautifully articulate in the book.
So let's start with that.
Okay, and I can talk about that one for hours. It's's start with that. Okay, and I do, I can, you know,
I can talk about that one for hours.
It's a great one to talk about,
but I just wanna circle back to something you said,
which I think is so important,
which is this, you know, perceived duality
that if you're saying host health matters
and that we have some control over outcome,
that means that somehow you're not saying
that vaccines and monoclonal antibodies
and so on are important.
And I just wanna emphasize
that both of these things are important.
Of course.
And it's common sense, not just for-
It's not a binary thing.
And not just for COVID.
I don't know why people insist on it being either or.
I mean, if you're an 85 year old with heart disease,
who's a smoker and sedentary and overweight
and diabetic and hypertensive, and you have a heart disease, who's a smoker and sedentary and overweight and diabetic and hypertensive,
and you have a heart attack,
you're gonna do worse than somebody who's 35
and an ultra runner who eats really healthily, et cetera.
So host health matters for cancer and infection
and viral illnesses and everything else, right?
And that's the goal to be the healthiest host we can.
So to get back to my two favorite topics
of germ theory and terrain theory,
germ theory was really popularized by Louis Pasteur.
And germ theory basically says that
a bad bug gets into your body and it makes you sick.
And that's absolutely true.
And we see evidence of that all the time.
We're seeing evidence of it now with SARS-CoV-2.
But terrain theory says that a healthy host
can manage illness and recover. And that's also true. Cov2, but terrain theory says that a healthy host
can manage illness and recover.
And that's also true.
So we wash our hands.
If you look at medical practices,
we wash our hands and we sanitize things
because of germ theory,
but we also eat a healthy diet and exercise
and do all of those things because of terrain theory,
because we wanna be healthy hosts.
And so the two things are really,
again, they're hand in glove.
They're not contrary to each other.
And in the scientific community,
there's all this back and forth,
but apparently Bechamp, Antoine Bechamp,
who popularized terrain theory,
who was also a Frenchman like Louis Pasteur,
folks in the Bechamp camp,
and I don't think they're two distinct camps
and they shouldn't be, but they sort of are.
Apparently, Louis Pasteur reportedly on his deathbed said,
Bechamp was right, terrain theory.
And I don't know if that might be a little dramatized,
but clearly both things are really important, right?
There are germs that get into our body that can do us harm,
but our health as hosts matters greatly in this equation.
And it's also important to realize
that not all germs are bad and a scorched earth approach
where we go out and basically try and seek
and destroy mission for all bacteria or viruses
can lead us to some bad places.
Right, once again, it's not a binary dualistic thing.
It's not one or the other.
These are both important.
It does feel like in the messaging
or conversation around COVID,
it was pretty much all about germ theory
and maybe not enough about terrain theory.
We can quibble about that,
but it is interesting to kind of consider the interplay
between these two theories that are at play
in terms of our susceptibility
to a viral infection and disease.
And what was amazing in the book was the statistics
around people who were not healthy hosts
or who had dysbiosis or some kind of dysregulated
gut microbiome and how they ended up faring
when they came into contact with the virus.
Yeah, it's an incredibly predictive marker,
the health of the microbiome.
So one of the studies that I talk about in the book
is a study that looked at what's going on in your microbiome
as a predictor of acute respiratory illness and even death.
And the accuracy of identifying these different organisms
and the one in particular, Fecalobacterium prosnitzii,
that's really this incredible bacterium
that's associated with eating a lot of plant fiber
and protective for other reasons
in terms of short chain fatty acids and immune regulation,
high levels of F. prosnitzii were very predictive
of a good outcome and low levels, the opposite.
And the accuracy in the study was 92%,
which is much higher than looking at age, gender,
comorbidity, or even inflammatory markers
like the C-reactive protein, et cetera.
So they were seeing really incredible correlation
between this marker of a healthy microbiome
and outcome from COVID.
And that's true for other viral illnesses also.
We've seen similar statistics for influenza,
for rotavirus, et cetera.
And again, we shouldn't be surprised by that,
but somehow we are.
When I would watch reports on television
and they, you know, it was,
I think we'll look back at this time
and see a lot of things we didn't do right.
And one of that was a television reporting,
which was really designed to just completely freak us out
and terrorize us, make us scared.
And I would look at it with my family and would say,
you know, I bet you this person is taking an acid blocker,
has obesity, is, you know,
maybe on a immunocompromising medication, et cetera.
So again, there is predictability to this,
not 100% of the time, of course,
but there are patterns that we see
when we look at some of these factors, host factors,
that are the primary determinants of outcome.
It's not the virulence of the virus.
When we take a population of people who are exposed to the same virus and we look at different
outcomes, those outcomes are all exposed to the same virus. Those outcomes are very much
dependent on what the individual host factors are. And many of those are things that we can
mitigate. We can do things about. Yeah. I mean, 92% is quite remarkable, right?
It's pretty damn good.
And that's without considering any other factors, right?
When you actually then fold in some comorbidities,
I think the statistic I saw is that it goes up
to like 98% predictability.
93%.
Is that what it is?
Yeah. Wow.
Yeah, you get an extra percentage point.
So in other words, we all know people,
or just the general case of like,
well, this person ended up in the ICU.
It doesn't have to be COVID, whatever disease, right?
This person got exposed and they ended up violently ill.
And this other person who was standing right next
to that person didn't become symptomatic at all.
Why is that?
And we said, well, who, you know, who knows,
like genetics or we just sort of dismiss it.
And what you're saying is, no, actually,
when you look at the gut, it becomes quite clear
why some people fare better than others.
Absolutely.
And these other cofactors, obviously.
And it's important for people to understand
there's not blame being assigned here.
We're not saying, you know, you got sick
and ended up on a ventilator because you have obesity
and that's your fault.
The whole point of this is to recognize
that these are factors that we can identify,
that can help us prognosticate,
and more importantly, that we can remediate ideally
so that this doesn't end up happening to you again
or you recover.
So, you know, it's important for people to understand
that this is not about blaming the victim.
Somebody gets sick from COVID,
regardless of their circumstances, it's tragic,
but it's really essential to point out
and to identify what are these factors
so that we can do risk mitigation.
And also maybe we can think about our strategies
for how we approach the
next pandemic, who's at higher risk and who's not, as opposed to just blanket recommendations.
Yeah, yeah, yeah. Well, let's get into that. I mean, obviously the key thing we want to avoid
is dysbiosis. Dysbiosis is something that we've talked about extensively on the show with Dr. B, your peer, your colleague in this world.
Love him.
Yeah.
So if you wanna hear us go on for hours about that,
you should listen to those episodes.
But in terms of the causes,
like the primary causes of dysbiosis,
I learned a lot reading your book
and about certain things that I didn't know
can be driving this that are easily remediated.
Like let's start with PPIs, proton pump inhibitors.
You already kind of referenced it a moment ago,
but I was not aware of this.
Yeah, you started with my favorite one.
And I'll tell you, Rich,
a big part of the motivation for writing the book
had to do with that pivotal study on PPIs.
And I do use my husband
as a little bit of a sounding board.
So I remember when that study came out in the summer of 2020,
I said to him, because he's not in medicine.
So he's, you know, I'm surrounded
by a lot of medical colleagues
and we all know a lot of the same stuff.
But I said to him, I said,
you know that if you're on an acid blocker,
you're gonna be much more likely to get COVID, right?
And he was like, what, why?
And I said, cause stomach acid.
And he was like, but I kept saying,
but you know that, right?
And he goes, I don't know that.
How would I know that?
And then I realized not only did he
in a non-medical field not know that,
a lot of my medical colleagues didn't know that.
A lot of my gastroenterology colleagues didn't know that.
So the study was a population-based study
of about 54,000 patients.
And they looked at people taking a proton pump inhibitor.
Those, you know, you might know it as a little purple pill.
So that's drugs like Prilosec, Nixium,
Asifix, Protonix, or a whole host of them on the market.
And these drugs are-
Like an antacid, right?
An antacid technical is a little bit different, shorter acting. The difference with the proton
pump inhibitors is that they're long acting. And these drugs have been amongst the most
commonly prescribed drugs in the world because they work amazingly well. They're an incredibly
efficient class of drugs for doing what they're supposed to do, which is shutting down that proton potassium ATPase,
that acid pump in your stomach.
So when you take these drugs and it takes a couple days
to get levels to the sufficient point
where you essentially have no stomach acid.
And so for people who suffer from acid reflux,
they love these drugs,
because you take these drugs and now you can do all the
things you're not supposed to do.
You can eat a big heavy meal late at night
and you feel fine. But stomach you're not supposed to do. You can eat a big heavy meal late at night and you feel fine.
But stomach acid is there for a reason.
In addition to it being one of the most important
components of digestion,
we need stomach acid to provide the right acidic milieu
for the digestive enzymes to work
so the food can be broken down,
to provide the right pH so the nutrients
can be assimilated and absorbed.
And we've seen with these drugs,
what happens when you take them long-term.
I'm not talking about taking this drug for a month
or six weeks because you have an ulcer
or you have bad reflux.
I'm talking about people taking these drugs
for several months.
And the study was looking at people
who are taking the drug for four months or more.
And some people are on these drugs for decades.
So what the study found
is that people taking one of these drugs once a day
were twice as likely to have a positive test for COVID.
And people taking the drugs twice a day,
it was a three to four fold increased risk.
And that's because stomach acid denatures viral protein.
So when you're exposed to a lot of these viruses,
the entry point for a lot of us,
it can be our respiratory system,
it can also be our digestive system.
And in fact, the ACE2 receptors that bind SARS-CoV-2,
we've got a hundred times more ACE2 receptors
in our GI tract than we have in our lungs.
And that's why GI symptoms have been so common
with this virus.
So you're exposed to the virus,
it gets in through your mouth, you swallow it.
If you have adequate levels of stomach acid,
the acid denatures a viral protein
and can prevent it from binding
to those intestinal epithelial cells and infecting them
and creating that cascade of inflammation.
But if you're now on a proton pump inhibitor,
and if you've been on one for several months
and you essentially don't have any stomach acid, now you're now in a proton pump inhibitor and you've, if you've been on one for several months and you essentially don't have any stomach acid, now you're defenseless because now your stomach has
been converted from a hostile acidic environment for viruses to a friendly alkaline environment.
And so, you know, I, I read that study and I, I remember talking to my, my literary agent,
Howard Yoon about it. And I was like, Howard, you know, people really don't know.
And he said, well, you know, maybe write an editorial,
you know, maybe an editorial or something.
And I was like, yeah, maybe I'll do that.
It'll be good for, you know, spread the word.
And then the microbiome study came out
with the Fecalibacterium prosnitzii,
high levels of that being protective.
And the Sothebacterium enterococcus fecalis,
high levels of that being negatively predictive
in the sense that those are associated
with the worst outcome.
And I just felt like nobody's talking about host health.
And there's lots of people talking about vaccines
and other important things,
but this is an area that I really know a lot about
with the gut.
And it was just,
it just felt like that part of the public health message
was missing. And Rich, in some ways, even worse, it felt like if you talked about that,
you were somehow saying this other stuff isn't important, which I just don't understand because
I'm very pro all the other things that we have in medicine to serve us. But making sure people
understand that, and there are people who have to take these drugs, but these drugs are very overprescribed. There've been studies suggesting that 70, 80% of people taking them,
particularly older people over 65, who are also at risk for other reasons, that the majority of
the prescriptions are unnecessary. And the interesting thing about PPIs, Rich, is we have
seen for decades in the GI world, this increased risk of infection
from PPIs. So if you look at something like Clostridium difficile, it's a bacteria that is
often prevalent in hospitals. And we think about it as an antibiotic associated diarrhea,
because you take antibiotics, you wipe out a lot of your healthy bacteria,
and then the C diff that's lurking or that you've caught from a door
or something in the hospital now starts to proliferate.
And lo and behold, you have this C. diff colitis,
which kills about 30,000 people a year in the US.
So we've known for a long time that proton pump inhibitors
are a major risk factor for C. diff.
We know proton pump inhibitors are a major risk factor
for Campylobacter jejuni, very common foodborne infection
and other enteric illnesses that affect the GI tract.
So in the GI world, it really shouldn't have been a surprise
but I think the numbers were still pretty astounding
that it could increase the risk that much.
And for people on PPIs,
there are people who have serious indications. But again,
a lot of the people who are on PPIs can probably get off them or take a lower dose or use an
antacid, something that you use sporadically. So an antacid that you take only when you're
having active reflux as opposed to a PPI that you take every day. And, you know, having a really
sort of frank conversation
with your prescriber about what your indication is
for this drug and whether you really need it.
And then coming up with a plan for how to taper off,
which you will find in the book.
Yeah, I mean, there's a difference between somebody
who has some kind of chronic acid reflux issue
versus the individual who has a terrible diet
and is creating that as a result of lifestyle
choices and wants to go on the PPI so they can continue to perpetuate the bad habit, right?
So it's driving multiple negative outcomes because it's allowing you to continue to do
something that your body is trying to tell you you shouldn't be doing, right? Your stomach pH
is what it is for a reason.
It's not just so that it can optimally digest your food.
It is this line of defense for these other pathogens.
And when you change that pH,
obviously you're weakening your body's ability
to do what it's naturally there to do.
And that's why we see so many manifestations
of long-term PPI use in different parts of the body.
We see an increased risk for dementia.
We see kidney disease.
We see an increased fracture risk
because it's affecting and disrupting
the delivery of nutrients
to all these different parts of the body.
But the marketing is so fascinating.
And I remember reading this terrific book long time ago,
before I ever wrote a book called "' Daily Meds by Melody Peterson.
She's a believer, a medical journalist,
maybe for the New York Times.
And she described in that book,
the campaign around acid blocker drugs.
So I think so many people out there believe
that they have overproduction of stomach acid.
Overproduction of stomach acid
is an exceedingly rare condition
called Zollinger-Ellison syndrome
that occurs in about one in a million people in the US.
So that means there may be 350,
close to 400 people in the US
who actually have overproduction of stomach acid.
For everybody else who has reflux,
what they have is inappropriate relaxation
of that sphincter, that valve,
between the esophagus and the stomach
that's supposed to shut tight
to keep the stomach contents in the stomach.
So we have inappropriate relaxation opening
and then the acid comes up, but it's not overproduction.
And so if you start to believe,
if the marketing is around overproduction,
you think, oh, I have too much stomach acid
and the marketing is around stomach acid being bad,
then it's an easy step to then say,
oh yeah, let me block my stomach acid
and I'll be better off.
But if you really understand
that it's that inappropriate opening of the valve
and what opens it inappropriately,
eating late at night
after the stomach is basically shut down
and gone to sleep
because it follows a circadian rhythm.
So eating a large meal late at night, overfilling it,
stomach's about the size of your fist,
eating food with a high fat, high protein content,
like a lot of animal protein,
which will slow down emptying of the stomach,
caffeine, alcohol, chocolate, all of that stuff.
So when you understand what's going on
and you think, okay, I can do some stuff here.
I can eat a little bit earlier.
I can eat a smaller meal.
I can eat my big meal earlier.
I can cut down on my dairy and alcohol and caffeine.
You start to understand how you can affect that
as opposed to doing this incredibly drastic
and potentially disastrous thing,
which is to completely shut down your acid pump.
Right, wow.
Well, continuing on this,
I suppose the lane that we're in right now
is the impact of pharmaceuticals on gut dysregulation
and in turn immune system dysfunction.
We're all fairly familiar, I think at this point
with the havoc that antibiotics can wreak on the system.
So I don't know that we need to explore that any further.
It's sort of self-evident,
but there's some other things here
that you talk about in the book
that I also didn't fully appreciate.
One of them being NSAIDs,
basically non-steroidal anti-inflammatory drugs,
the Motrins and the Advils. Yeah. Yeah. So I've always thought of those being relatively benign.
Well, as an athlete, you've probably relied on them a lot too, right? And I'll just tell you
my little story about these drugs. I, as a gastroenterologist, when I used to take call
in the hospital, pretty much at least once a month,
we would see somebody with near fatal bleeding
from taking a non-steroidal, one too many doses,
and you don't need a lot.
Unlike Tylenol, acetaminophen,
where to get liver injury from Tylenol,
there's a set dose amount that you have to exceed.
NSAIDs aren't as forgiving.
So you can take 800 milligrams of Motrin,
which isn't that much and end up with a huge ulcer.
If the area that ulcerated happened to be
over a major blood vessel,
you can potentially bleed to death.
And so literally at least once a month,
we would see somebody with massive near fatal bleeding
from an ulcer in the wrong spot that was created by NSAIDs.
And so as a result of that,
I'm very wary of taking those drugs.
The only time I take them,
I usually would take them at around mile 20 of a marathon.
I'm a slow but steady marathoner,
but the knees aren't what they used to be.
So usually around mile 20, when it's just, you know,
feels like bone, grating on bone, I would take some. And typically at the end of the race, I would be vomiting. And, you know, feels like bone, grating on bone, I would take some.
And typically at the end of the race, I would be vomiting.
And, you know, people like, oh, you really ran hard.
I'm like, no, it's the NSAID.
They really affect me, so I get really nauseated.
But again, like the PPIs, these drugs work really well.
In 2017, I tore my MCL snowboarding and couldn't,
it was out in Utah, couldn't straighten the leg,
was in a lot of pain, difficult to fly back.
And my husband was like, just take some of this.
Like, why are you in pain?
Took away the pain.
I mean, it was like magic.
And maybe I shouldn't be surprised I'm a doctor,
but I generally don't take these drugs.
It was incredible how well this drug worked
to take away the pain. So you can understand for
people who have chronic injuries or in chronic pain, who have inflammatory conditions, it's
understandable how you can take this drug and become dependent on it. But it's really important
to understand what's the price you're paying on the flip side. So we talked about those ulcers
and SEDs make tiny little holes in your gut lining
that can sometimes be bigger holes that we call erosions
or can be really big holes that we call ulcers.
So that's what those are.
And when we do endoscopy
or a technique called a video capsule endoscopy,
a little pill cam that you swallow
that takes pictures through the GI tract,
when we do that in asymptomatic people taking NSAIDs,
we see a very high percentage rate.
We see in some studies up to 30% of people
having these erosions, these little holes in the gut.
And so it's important for people to also understand
that it's not just if you're symptomatic,
like me, you're nauseated, you're vomiting
because you took too much Motrin and you feel really sick.
You can be asymptomatic and still have this.
And again, there are people who need to take these drugs
or people with severe arthritis,
where these drugs are the only thing
that keep them functional
so that they can move without pain.
But there is definitely a flip side to that.
And so the integrity of the gut lining is really,
again, we talked about stomach acid.
The gut lining is another one of those really,
really important barriers.
It is physically, literally a barrier
to keep the virus from getting in and penetrating,
getting into the bloodstream,
traveling to different parts of the body,
wreaking havoc in the body.
And what we see is that these NSAIDs
end up creating breaches,
increasing the intestinal permeability
and making you more susceptible.
Right, so this is leaky gut?
This is essentially- Or a version of leaky gut?
Leaky gut is one of those, again,
ephemeral, ethereal terms that, you know,
people understand a lot of different things by it.
But I remind people that what we're talking about
when we say leaky gut is an increase
in intestinal permeability.
And that's a mechanism more than a necessarily
an actual disease, right?
It is a mechanism and other things can do it.
Intense exercise can increase
intestinal permeability temporarily.
I mean, it would be an interesting study for you
after a really long run or bike ride
to check your intestinal permeability before and after.
There's some tests you can do and see,
but it comes back to normal.
So that's a physiological response.
But what we're talking about,
and I think what's generally understood
when people say leaky gut is a persistent increase
in the permeability that allows things
that normally shouldn't to go through that gut lining
and enter the body and be disseminated
different parts of the body and cause responses.
Right, so in other words,
viruses can then leak through that membrane
and find their way into your tissues and create disease.
Absolutely.
Right, so that's the relationship
between the gut issue and the immune system issue.
That's it.
On that level, yeah.
What about birth control pills
and other forms of hormone therapy? Yeah. Hormonal therapy can affect the balance of gut bacteria.
You know, there was a study done published in the journal nature a few years ago. And as you said,
we all know about antibiotics and most of us are pretty familiar with the damage that proton pump inhibitors do.
And that change in acid also changes a gradient of gut bacteria. It interrupts that. And so long
term PPIs can have the same effect, if not worse than antibiotics on dysbiosis. But this article
in Nature looked at about 42 different classes of drugs. And there was a wide variety of drugs
that are causing dysbiosis.
So for example, the SSRIs that people use,
antidepressants that people use
can be associated drugs like Prozac.
There's associations with Prozac causing resistant E. coli.
I think about all the young woman I see
with sort of recurrent urinary tract infections who may be taking fluoxetine, Prozac.
So there are all these drug interactions
and hormonal therapy is another one.
And again, not suggesting that these drugs are bad.
I am thrilled that we have all of these medications
in our arsenal, but I'm a really firm believer
and a strong advocate for more judicious use.
And for people really understanding
the risks, right? That nothing is free. There's always a flip side with a pharmaceutical intervention
and they need to understand the risk and really personalize that based on what their risk factors
are. So for hormonal therapy, if you are somebody, for example, with a strong history, family history,
if you're a menopausal woman and you have a strong family history
or personal history of breast cancer or endometrial cancer,
you might consider that differently
versus if you're somebody with a history of heart disease
and what goes into that.
But the idea that every post-menopausal woman
should be on hormonal replacement therapy
or every young woman should be on birth control.
And the birth control is one I really struggle with
because we know that unwanted pregnancies
is something that keeps women
and particularly young women
and young women of color in poverty.
And so birth control has revolutionized the ability
of young women to have control over their lives
and prevent unwanted pregnancies and so on.
But at the same time, it's important to acknowledge
that there is a downside for some people, right?
And that it does potentially have an effect
on the microbiome.
Not so much birth control just on its own,
but then if you add in,
this is somebody who's taken a lot of antibiotics,
this is somebody who's been on steroids,
this is somebody who's eaten a highly processed diet.
This is, you know, it's one of those factors
to take into account as opposed to just, you know,
nobody should be on it or everybody should be on it.
So this more personalized approach
and understanding your own medical history
and risk stratification, and then putting that
in the context of the pharmaceutical is really important.
Yeah, beautifully put.
I mean, this is certainly not,
my intention is not to villainize any medication,
but I think it is so important to understand
the comprehensive nature of what's going on
when you ingest certain things.
I think that we have this limited
or back to this idea of being overly dualistic about things.
Like I'm taking this thing for this single purpose,
but there's a cascade of ramifications to that.
And not the least of which
is how it's impacting our microbiome.
And I think it's,
I can't say that when I take a medication,
I think what is this doing to my microbiome?
Like that's not the first thing that comes to me.
Well, now after I will now I should,
I don't really take medications anyway,
but I mean, unless I'm dealing with something acute,
but to understand that we have to think about these things
and from a holistic perspective that,
it's not just about like you see the ad
for the pharmaceutical on TV and it's,
they rapid fire through all the terrible side effects, but I don't know that I've ever heard anyone say, you know,
might lead to microbiome, you know, dysbiosis. It should though, right? Don't you think? Yeah.
I mean, a perfect example of that is cough syrup. And that was one, I have to say the mucus section
in the book is what I geeked out on because I,
you know, been talking about gut bacteria and dysbiosis
and acid blockers for a long time,
but mucus was sort of a new area for me.
And a lot of people think of mucus as something that,
you know, it comes from your head or your lungs,
but the majority of mucus is made in your gut.
We make about one and a half liters of mucus a day
and mucus serves some really important purposes.
So it lubricates the gut, obviously,
as the products of digestion come through.
It provides a protective layer for that.
Razor thin intestinal lining I talked about.
And in the stomach, it helps the stomach
from being auto-digested by all the acid
that's being produced.
So mucus is really important.
But the role is much more than just a lubricant.
It's this cross, somebody, I forget who it was,
described it as a cross between jello and glue.
And it's a sticky matrix that ensnares things.
And then the cilia,
the little finger light projections in the lungs,
move it all up and you cough it out or you swallow it.
And if you swallow it and you have stomach acid, then the stomach acid denatures all up and you cough it out or you swallow it. And if you swallowed and you have stomach acid,
then the stomach acid denatures a protein and does its thing.
If you suppress mucus, you have a runny nose.
I mean, when you have a runny nose,
it's because your body is producing more mucus
to fight something that you're dealing with,
whether that's a seasonal allergy or an infection
because mucus traps pollen and irritants and smoke
and other things too, to expel it from your body.
So you have a runny nose, you take a cough suppressant
or some sort of antihistamine or something
to dry up your mucus.
And now one of your main defense is the ability
of the mucus to trap and expel is gone.
And so now it's gonna stick around
and maybe get down into your lungs.
And what's really incredible,
speaking of pharmaceuticals,
you look back at things like
Mrs. Winslow's soothing syrup
and the original Bayer formulation for cough syrup,
this stuff had heroin and morphine in it.
Right.
So it really made your kids stop coughing, right?
Maybe they didn't wake up.
I mean, it was incredible.
And really for some of these ingredients,
it wasn't until the 1970s
that some of this stuff was taken out.
And so the American Academy of Pediatrics
now recommends that you don't use these cough expectorants
or anti-expectorants in kids,
but they shouldn't be used in adults either.
And again, like you have a hacking cough,
you're trying to get relief,
you're keeping your partner up,
but again, it comes at a cost.
So what are some other things that you can do, right?
To think about, to help with this,
as opposed to blocking this really important host defense.
And the mucus also provides a layer,
in the book I talk about,
I don't know anything about football,
but I used a football analogy.
It's equivalent of like going through 150 football fields
to make a touchdown or something just for the distance.
When you add that mucus layer on top of the lining,
it creates this protective layer
that the viruses have to wade through
to penetrate the gut lining.
So serves these really important purposes.
And then there's also the whole concept of mucins in mucus,
which are the proteins in mucus that degrade enzymes.
So just like stomach acid can denature viral protein,
mucins in mucus, an enzyme that can degrade protein.
And depending on the composition of your mucins
and how healthy they are,
you can be the kind of person where the virus gets in,
the mucins in your mucus immediately degraded
and you're good versus your mucus isn't that good
and it sticks around.
And this has a lot to do with the whole concept
of super spreaders.
Right.
So we know that for a lot of these viral illnesses,
for measles, for Ebola, for SARS-CoV-2,
it's often a small group of people who are disseminating the virus widely.
And so if you connect super spreading to mucus,
if you happen to get coughed on by somebody
who has SARS-CoV-2, but who has really good mucus
that has broken down and degraded the virus,
you're not gonna get infected.
But if you get coughed on by somebody
whose mucus is not so hot,
they're more likely to spread it to you.
So you have super spreaders
and you have super recipients based on,
if you have really healthy mucus,
you're gonna be protected versus not.
So the cool thing to me is like,
this is all stuff we can work on.
We can hydrate to improve the quality of our mucus.
We cannot smoke if we're smokers. We can think about the quality of our external environment, but there are lots
of things that go into it. And a really fascinating aside about mucus is with pregnancy, the cervical
mucus, the thickness of it tells us a lot about what's going on. So that's something that
obstetricians have done for years during labor.
They will examine or sort of leading up to labor, they'll do a manual exam and they'll
tell the thickness and they can feel it with their hands. And if the mucus is really thin
and watery, they know that that person is at risk for preterm infection because the mucus isn't
thick enough to prevent pathogens from getting in
and they may do something differently.
So, you know, it's mucus not just in the GI tract,
but also cervical mucus.
We can tell different stages of ovulation
based on what the mucus feels like and fertility.
It's really cool stuff.
That's super fascinating.
Yeah, I mean, I didn't realize the diversity of mucus. I mean, I always understood it to be
a protective system in our body that can neutralize diseases, but it's also something
that we've kind of been conditioned to fear because disease spreads through droplets and
on the subject of super spreaders, you're in a, you know, an enclosed
environment with a lot of people and somebody sneezes or coughs or, you know, mucus is shared
communally, like that's something to be terrified about, right? But to the extent that some people's
mucus is benign or safe versus the person who has the subpar mucus that can in turn be an accelerant
to the spread of disease is fascinating.
So first of all, I mean, the obvious question is like,
how do you know if your mucus is doing its job?
And what are the things that you can do to ensure
that your mucus is tip top?
I mean, hydration, is it like,
humidifying your room?
Yeah, and diet plays a huge role. And the
humidifying may help if you're congested. I think the thing about, you know, you mentioned about
being terrified of mucus, other people's mucus isn't as cool as your own mucus. It's kind of
like other people's stool, right? Like my stool is good. That's fine. I'm sure it's good. You know,
I don't need it. It is. There are lots of tips. One of the things that my team at Avery,
who I've been with them for all the books
from they took a chance on me in 2013
with gut bliss all the way through,
is they've really encouraged me
to provide more actionable information.
Cause I'm like, oh, this is great.
I'm gonna tell people all about this.
And like, that's good to know, but what can I do?
What am I supposed to do?
And to really, so with this,
it went from being like a kind of little side thing
with gutless microbiome solution,
had a bigger plan with this one.
It's a third of the book.
It's page count wise, it might even be closer to a half.
And to really, you know, think deeply about,
so if we think about fever,
something we haven't gotten into yet,
what are the guidelines and really, you know,
pulling those guidelines about when to treat a fever,
when not, what else can you do, medication section.
If you're not taking an NSAID, what else could you take?
And here are some questions to ask your doctor.
What about every other day dosing?
What about these kinds of NSAIDs
that are not as disruptive to the GI tract?
So really trying to feel a little more prescriptive
for people as opposed to just, don't do this.
Right, well, let's talk about fever and heat,
because this is another thing.
It's like, oh, I have an ache, I'll take an Advil.
Oh, I'm feeling phlegmy, I'll take a cough suppressor.
These are all very knee-jerk common reactions
to ailments that we've all experienced.
And on that note, the idea that when you have a fever,
oh, we need to bring the fever down.
Like this is not good, right?
So walk us through the protective mechanism of the fever
and what is it doing to us
and when it is appropriate to try to lower it
and when we should just let it run its course.
And I'll tell you fever is one of those things
that was good then bad and maybe getting good again.
So this idea of, you know, you think about different cultures
and things like sweat lodges and saunas, et cetera,
that's all thermal therapy, that's all heat therapy.
And Hippocrates, I mean, everybody's familiar
with the all disease begins in the gut,
but Hippocrates, I mean, everybody's familiar with the all disease begins in the gut, but Hippocrates also famously said,
"'Give me a fever and I can cure any illness.'"
And I think it was in 1927,
an Austrian physician won the Nobel prize for heat therapy
that was being used to treat neurosyphilis.
So that successfully, I mean, of course we have drugs now
that are more effective, but so heat therapy
and this idea of fever as being therapeutic
is not something new.
We're seeing now thermal therapy in cancer,
finding that using heat to treat cancer cells,
to kill them is effective.
Poliovirus replicates 250 times faster
at normal body temperature compared to with a fever.
So fever is a really important defense your body has of slowing down, if not halting viral
replication. And what's the first thing we do when we have a virus and a fever is we reach for
an antipyretic, something to stop the fever. So understanding that fever is our body's sign that
there's something going on and also our body's therapeutic response to try and handle that
thing, whatever it is that's going on. So just the replication rates. And so in the book,
I do talk about when it's okay to take an antipyretic or maybe if you can even wait a
little bit and then take it, allow your body time to try and, you know,
get its antiviral fever virus, you know,
slowing down replication processes going.
But there's really interesting data too.
There's some mice studies.
If we look particularly at elderly people,
a lot of the morbidity and mortality around COVID
with elderly people is this condition ARDS,
acute respiratory distress syndrome,
which is essentially lung failure.
And studies in mice show that at high heat for a few hours,
we don't see the respiratory cells dying the same way.
And then you think about the fact that elderly people
often are not able to mount a high febrile response, right?
Kids can get their temperature up to 105, 106,
but older people, not so much.
And so they're looking experimentally now
at whether thermal therapy might be a treatment for ARDS.
I mean, this hasn't gone into the human stage yet,
but they've seen it in mice for slowing down
the death of the respiratory cells.
And then again, we've seen similar thermotherapy
happening in the cancer world.
So again, we have to be thoughtful about this
and we have to understand the process.
What is our body trying to do
and make sure that we're not sabotaging that process
in our efforts to feel better.
And there are plenty of things you can do to feel better
when you have a fever that can do that
and make you more comfortable
without sabotaging that process.
And also understanding for our kids,
it's not just the temperature,
it's what else is happening with your kid.
Is your kid listless, not eating, not making eye contact,
especially with babies?
That's a more worrisome sign.
The kid might have a fever of 104,
but it's running around, eating, playing, laughing.
That's a whole different matter.
So what else do you look at and how do you, you know,
how do you make this evaluation?
Obviously this should be done in concert
with people's healthcare practitioner,
but giving people some basic information about that
and some questions to ask.
Yeah, well, obviously if you have
an elevated body temperature
and that's slowing replication rates
of the acute viral infection that you're trying to combat,
you wanna allow that to take place.
But I would presume that there are other physiological
systems that get disrupted by an elevated body temperature.
And at some point when that threshold,
that temperature threshold exceeds a certain set level,
it becomes problematic and you do wanna bring it down.
That's right.
And again, it's not just the number,
it's what else is going on.
But I'll tell you,
and that's why it's important to have that done
in an actual medical setting and not just rely on,
you know, what I'm putting out in my book.
A couple other things in terms of the gut fever connection.
So when you have a fever,
slows down viral replication,
it also recruits additional immune cells
for the immune response
and can enhance production
of certain antiviral cytokines.
And interestingly in the gut,
it helps to tighten up those junctions.
So those connections between cells,
we talked about intestinal permeability, the tight junctions. So those connections between cells, we talked about intestinal permeability,
the tight junctions.
When you have a fever, the tight junctions realize,
oh, we're battling something here.
We need to tighten up our battalions, our forces here.
And the junctions become tighter
and the gut membrane becomes less permeable
to whatever virus, bacteria, et cetera, you're fighting.
So it's just fascinating how it affects,
your immune system, your gut,
all the different things that are going on
when you have a fever.
Super interesting.
Did you look at any of the research or science
that's coming out on sauna therapy,
not in the context of combating an infection,
but just as a daily practice
in terms of what it's doing to us,
benefits, negatives, that kind of thing.
I haven't rich, but I'm a huge sauna fan.
Anything hot, I do heated vinyasa flow yoga.
I love saunas.
I feel like heat and you could hearken back to Ayurveda
and talk about pitta, vata,
and maybe do some analysis there,
but it certainly feels good in my body.
Give me a little update.
Well, I just think, I mean, I'm certainly no expert on this,
but I know there's some indications
that it perhaps might be a longevity extender.
And certainly as an athlete in terms of recovery
and all these other kind of things,
there seems to be some interesting signs coming out
to support that.
But then the next thing I wanted to ask you
is cold exposure, like ice baths,
because this is all the thing now.
And I've been playing around with like the sauna
and the ice bath and going back and forth.
Is there anything that you learned about cold therapy?
Yeah, you know, these extremes.
So, and this is really connected to the idea of stress
and really important here to distinguish
between acute stress and chronic stress.
So these acute stressors, cold, fasting,
running long distances, heat,
tend to all be moving us in the right direction.
I mean, depending on how it's done
and what your baseline is,
but these are all things that have been associated
with longevity and with improving health
in different studies.
Again, depending on the context,
with acute stress,
you are actually recruiting additional immune cells
and you're strengthening that response,
but it's the chronic stress.
So you want that fight or flight
for short, brief periods of time,
and you want it to be able to escape the lion or the snake
or whatever it is that's about to attack you,
but you don't want that revved up immune system
over long periods of time,
because then that becomes a problem
and that becomes a threat to your health.
So I don't know, it'd be really interesting to look
and I don't know the sort of intermittent exposure
to cold therapy and cryotherapy
versus a sustained cold response.
Whether that moves you from a realm of acute stress to chronic stress
and how that works.
But certainly little touches of that are good for you.
I mean, I can tell you that it's definitely a mood elevator
and it's certainly an anti-inflammatory,
like it's helpful in recovering from exercise-induced stress
and I just feel better in my body.
Like I just, I know it's a good thing.
Like I just, you know, I'm interested in the science
that supports that.
Well, there's definitely a lot of it out there
where I'm from Jamaica originally, as you know,
and we would sum it up by saying a little sufferation
is a good thing, little sufferation.
I think that's the title of this podcast.
You just coined it, what I'm gonna title it.
Let's talk a little bit about food and diet.
I mean, this is something we've explored extensively also
in past episodes, so I don't wanna linger too long here.
We all know we need to increase the amount of fiber
in our diet.
There's this rule of thumb,
30 different plants a week, basically.
But there were some other things in your book
that were a little bit new to
me. Not the least of which was this emphasis on not just fiber, but short chain fatty acids,
specifically in inulin. So talk a little bit about that. Yeah. So, you know, there's very few bad
plants of what's edible, right? Poisonous stuff isn't good. And I'm not a huge fan of creating these hierarchies,
you know, white potato bad, sweet potato good, et cetera.
Most of us, I would add to Michael Pollan's fantastic book,
Indivens of Food.
You know, he has that little thing on the cover
that says, eat food, not too much, mostly plants.
I would add to that, eat more vegetables.
You know, the numbers are just astounding.
Something less than 5% of Americans
are getting the recommended grains and greens, et cetera.
So we all need more vegetables.
Even many of my completely plant-based patients
who are eating a lot of processed plants
need to eat more vegetables.
But there are some in particular
that really have a pronounced effect
on the levels of short chain fatty acids.
And so when you look at something like inulin
that you can get from rolled oats
and from onion and garlic and leeks, et cetera,
what we find is that kind of fiber,
it's sort of that stringy fiber, hard fiber
is the preferred food of bacteria like the fecalibacterium presnitzii
in terms of the fermentation process, creating short-chain fatty acids like butyrate,
propionate, et cetera. And these short-chain fatty acids help to regulate the immune system.
So they help to prevent that overblown response, but they also act locally on the immune system.
So it's not just sort of acting
in a more general managerial way,
but on the local immune response.
So for example, they can down-regulate
the number of viral receptors in tissue,
sufficient levels of short-chain fatty acids.
So we've known for a long time,
there've been some landmark studies,
Paolo Leonetti's study from,
gosh, that study must've been early 2000,
maybe, no, maybe 2012 or so from about 10 years ago,
where he looked at kids in Burkina Faso
and compared them to kids from Florence, Italy.
And the kids eating the Florentine diet
were eating kind of a standard American diet.
Because it had become Western,
it was no longer a Mediterranean diet.
It's not a Mediterranean diet anymore, yeah.
And the baby, the groups of babies were similar at birth.
These were for vaginally born breastfed babies,
but once they sort of graduated to table food,
everything changed.
And the kids in Burkina Faso were eating essentially almost 100% plant-based diet,
except I think they were eating some termites
in the rainy season and a free range chicken here and there
versus the kids in Florence were eating
a lot of animal protein, fat, sugar, et cetera.
The microbiomes are vastly different
and one of the biggest differences
was the levels of short chain fatty acids.
The kids from Burkina Faso had more than double
the levels of short chain fatty acids. And kids from Burkina Faso had more than double the levels of short chain fatty acids.
And the fascinating thing about this study, Rich, is that neither group of kids were sick.
We're talking about infants.
These are healthy infants, but you could already see the foundation for disease, for susceptibility
to viral illness being laid down in the microbiome.
And again, to your point, this is not host health matters
and it matters early on too.
I mean, of course, there are other fantastic studies
that show you can change a stuff
within a short period of time.
But, you know, this foundation that we're building
is really important.
And I really focus with my patients on what you're missing
more than what you're eating.
You know, you're eating pizza or say, you know,
we can deal with that, but you're missing more than what you're eating. You know, you're eating pizza or say, you know, we can deal with that,
but you're missing the kind of fiber, that fibrous fiber,
that is going to lead to production
of short chain fatty acids that is gonna keep you healthy.
And so really focusing on adding in,
I mean, it can literally be adding in a stock of celery.
And those short chain fatty acids really help to patch any of these holes that are leading to leaky gut.
Right? Absolutely.
That is sort of like the cure to that or the fix.
Strongly correlated with sort of more normal
intestinal permeability.
Yeah.
So what say you to the carnivore diet enthusiast
who is telling you that all this nonsense about fiber is overblown
and I've been eating nothing but steak for the last year
and I feel fantastic.
Well, you know, I think it's important for people
to understand the concept of statistics.
And we were talking about this earlier.
Like we all know people who've smoked two packs
of Marlboros for 90 years and are fine.
But does that mean that cigarettes
do not increase your risk for lung cancer?
Of course not.
So, you know, we have to rely on the population-based data
that we have, which is very robust.
And we know that fiber is a main ingredient
for creating a healthy microbiome,
fiber and fermented food.
That's really not up for debate.
Now, does it mean that there's not room
for animal protein on the plate?
No, it doesn't necessarily mean that.
There are other reasons to avoid animal protein there,
environmental reasons and ethical reasons, et cetera.
But from a medical lens,
it's making sure that there's sufficient amounts
of indigestible plant fiber on the plate
that is really the most important element of that.
And then the issue about
whether you're gonna eat meat or not,
again, that's a more personalized, individualized issue.
And lots of other factors go into that,
but there's no debate about the fiber.
And it doesn't mean that you,
of course, you could be a carnivore your whole life
and somehow manage to be fine,
but you're an N equal one number.
That does not a scientific study make.
Right, so the low hanging fruit
in terms of things to avoid
would include artificial sweeteners,
sugar, fatty foods, alcohol, processed foods.
We're all, you know, this is all like common sense stuff.
But I loved the example that you gave
of your patient called Alicia,
cause I feel like that really illustrated the interplay
between all of these things and how challenging
and difficult it can be to diagnose somebody
who's coming in to you with some sense of something
being awry and the process of like trying to figure out
how to untangle that knot.
Yes, she was the one who was obsessed
about fungal organisms.
And I see this a lot in my practice
because again, there's all this hype
around different things, right?
So overgrowth of fungal organisms
and you have candida overgrowth
and that's what's causing all your problems.
And it's really balanced.
So we need
yeast in our microbiome. Yeast play a really critical role in part of the digestive process,
but we don't want too much yeast. And so when you kill off a lot of the healthy bacteria with
an antibiotic, you leave more room in there and you can get overgrowth of fungal organisms.
But she had been eating a super restrictive diet, essentially no carbohydrates.
And she was eating occasional little bit of vegetable,
green vegetable, no fruit, no grains, tons of meat.
She'd taken these really potent antifungals
that I was really concerned about her liver
and reminding her that the food
for our healthy gut bacteria are carbohydrates.
It's not meat that fecal bacteria and pregnancy is eating. There our healthy gut bacteria are carbohydrates. It's not meat that Fecalibacterium presidensae is eating.
There's this huge fear of carbohydrates.
Yeah, and that carbohydrates make you fat.
And you see the studies coming out all the time
showing that a primarily plant-based diet,
whole foods plant-based diet,
is not just for overall health,
not just for resiliency to viruses,
but also for weight.
But people somehow have gotten so stuck on this idea
that carbohydrates are bad.
And carbohydrates are incredibly important fuel for the gut,
not just to grow a good gut garden in terms of gut flora,
but also for providing bulk in the stool
so that things can move along.
And I see these patients coming in
on these ketogenic diets, incredibly constipated.
Yeah, that's a common thing, right?
Let's talk about sleep.
Some of the statistics in the sleep section of the book
are like mind blowing.
Like what happens in our gut when we're sleep deprived?
The risk of viral infection skyrockets 88%.
Is that true?
Crazy, the sleep.
I have to say when I turned in the first draft of this book,
the sleep chapter was 60 pages.
And the folks at Avery were like,
Matthew Walker wrote that book.
You're not Matthew Walker.
Yeah, Sean Stevenson wrote that book like that.
There are really good sleep books out there,
but it was so fascinating, Rich.
And when you think about it,
you can go without food a week and you will be hangry,
but you can go without food for a week.
You can go without water for a week
and your kidneys will start to
shut down, but you'll rehydrate and you'll probably be okay. You go without sleep for a week,
you will be very close to dead. You will, you know, your testosterone levels will drop,
your risk for cardiac disease will triple, all kinds of things will go wrong in your body without
sleep. So really, you know, the elixir sleep is really essential.
And the sleep gut connection
is something that is also really profound.
Serotonin, which many people know as the feel good hormone
is made primarily in our gut,
about somewhere between 70 and 90%,
depending on which study you read of serotonin
is produced in our gut, primarily by our gut bacteria.
Well, serotonin is a precursor to melatonin,
the sleep hormone.
And so if your gut bacteria are off
and you have a messed up gut
and your serotonin production is down,
which is a real thing we see,
and that's why there's such a correlation
between gut disorders and psychiatric disorders
and mental health.
So if your serotonin is off,
your melatonin is gonna be off
and your sleep is gonna be affected.
And vice versa, if you're not sleeping well,
that's also gonna throw off
what's going on with your gut bacteria.
So one of the things I see, for example,
is with my college student patients,
they're always sick around exams when they're not sleeping.
And for a lot of my patients with Crohn's disease
and ulcerative colitis with complex autoimmune diseases,
they'll tell me that sleep is a thing that totally,
if the sleep is off, they'll have a flare
more than anything else, more than their diet,
more than stress, more than anything else
is really the sleep.
Less than four hours of sleep correlates to a 7% drop
in critical, no, Iates to a 7% drop in critical,
no, I think it was 70% drop in critical immune cells the next day.
So this happens very quickly.
It's the reason why I'm not taking the red eye
back tomorrow.
I'm done tomorrow afternoon,
too late to catch the 4.45 to get back to DC,
but in time for the red eye, but I know I won't sleep. And I'm like, no, I'll take the 7.55 in the 4.45 to get back to DC, but in time for the red eye, but I know I won't sleep. And I'm like,
no, I'll take the 7.55 in the morning. I am not risking that. There's crazy data about sleep and
vaccines too. So if you are sleep deprived before your vaccine, the effectiveness is significantly
reduced. And our daughter who's a rower, when she was getting her first vaccine,
it was during the regatta season.
And she had to get up at like 4 a.m. or something.
I forget where we were in Philly or Bali.
We're going somewhere the next day.
And I'm like, nope, we gotta reschedule that.
There's no way you're getting a vaccine
after four and a half hours sleep.
And so there's really clear data,
not just in older people, but in everyone that being sleep deprived in the 48 hours
before you get a vaccine can lead to a decrease
in effectiveness in some studies by as much as 30%.
And that's not just for the COVID vaccine,
that's also for hepatitis vaccines, for flu shots, et cetera.
And it's just not something that I think is even
in our awareness, this idea that it would matter.
We just think you get the vaccine, it works.
But this is one of these factors.
And when you look at some of the statistics in the book
that you just read, the drop in immune function
when you're sleep deprived,
you really start to see how it's all connected.
Yeah, it's unbelievable.
The other one that hit me really hard was every hour
that you sleep is associated with 12%,
a 12% reduction in the odds of becoming infected
by a viral infection.
I mean, infected means, how are you defining that?
Because exposure and infection are two different things.
Becoming ill.
Becoming ill, okay.
Becoming ill.
But I think we can all think about times in our life
when we've been, for me, it was every year
before our big GI conference, Digestive Disease Week,
which happens in May.
And typically, especially when I was still full-time
at the hospital at Georgetown.
And so it'd be working on five
or six different presentations.
And it's like, you know this stuff is coming six months
in advance, but it's still last minute.
You're getting slides together and you know, it's like, you know, this stuff is coming six months in advance, but it's still last minute, you're getting slides together and you're, you know, finishing stuff up
and not sleeping and invariably I'd get sick. And, you know, as I said, I see it with my college
students who have chronic autoimmune diseases. You see it, you're, you're run down and you're
more likely to get sick. And we know that sort of in the back of our minds intellectually, right?
That when you're run down, you're tired, you're not sleeping well, you're more likely to get sick.
But I think we're not aware how profound that impact is.
And I think Matthew Walker, when he was on,
talked about this incredible global study, right?
With daylight savings time
and how we see this tremendous increase,
I think up to a 25%, 24, 25% increase in heart attacks
the day after we all lose an hour of sleep
and then a drop, not as dramatic, but significant.
Yeah, it's really-
And then when you think about residents,
med school residents working these insane shifts
in hospitals where they become more susceptible
to disease and infection, then of course,
they're gonna be more likely to shed and spread it, right?
When they're doing the rounds.
And eating terrible food.
Go into any hospital physician's lounge
and look at what's in there.
It's soda and donuts and ham sandwiches.
Why can't we solve that problem?
And you know, Neil Bernard and his wonderful group
at Physicians Committee for Responsible Medicine
are doing a petition now.
They've been helping them with the folks at Georgetown
to remove known carcinogens from the hospital meal tray.
So sausage, bacon, I mean, you could argue
about whether you are gonna serve animal protein
or not in hospitals, but you cannot make an argument
for why you would be serving sausage and bacon
to sick people in the hospital.
My dad had a cardiac catheterization about five years ago, had an acute event playing tennis
and went in and had state-of-the-art care at Washington Hospital Center, incredible cardiac
services. And they went right in, aborted the heart attack, fantastic. I was in New Haven at
a college reunion. I rushed back.
He's sitting there, he's lying in the bed.
There's a hamburger on his plate.
This is what they're serving him
after an acute cardiac event,
you know, out of the cath lab recovered.
Insanity.
Insanity.
Why is it so difficult to solve this problem?
Like where's the missing link in resolving this equation?
I think it's- Is it the money?
Is it government contracts?
It's disassociation between acute treatment of illness
and prevention of illness.
And what we have seen, Rich,
is that the medical community has not done a good job
on the prevention side.
I think we can all agree.
We're really good with the acute side, right?
I am thrilled that Washington Hospital Center
was available in 10 minutes away
and they did a fantastic job with my dad.
And I do credit them for that,
them and his cardiologist, Jack Flyer,
for why he's alive at 87 and doing well
and eating lots of lentils.
But the prevention side, we don't do.
And when you think about it,
having people be ill keeps these
organizations in business. Now, I don't think that they're thinking about it that way. They're not
like, oh, we hope he goes out and has another cardiac event. Not at all. It's just that it's
not on their radar, right? They're in the business of the acute care and interventions, and they're
not in the business of prevention. And we've seen these other industries
that have flourished health coaches
and other people who are really focused on that,
on the diet and lifestyle.
And I think it's wonderful.
And it has arisen out of a great need,
which is a fact that we've neglected it.
And the medical visit is fast, hospital-based medicine,
you don't have a long time.
So we needed to have other resources
for people, other places for people to go to learn about that. Yeah. When you kind of raise
the conspiracy flag of the system is set up to keep sick people sick because that's where the
money is getting made. I think what gets confused in that conversation is this idea of mustache twirling,
executives sitting around a table like this,
conspiring to extract money from the,
the woe begotten consumer.
It's not that, it's just that there is a certain system
in place that's very profitable.
And when that is the case,
there are many parties that are invested
in maintaining the integrity of that system
and it becomes more and more difficult to make changes.
But to your point,
the explosion of functional integrative medicine
practitioners is very heartwarming
and they are serving this need.
And I think it's cool to see that blossom.
They found a way to make it economically
viable. I mean, I think that was the big impediment, right? Like how are you going to be
able to make a living doing this when the system is set up such that you need to see X many patients
a day for 15 minutes each because of the way insurance companies have created the reimbursement
schedule. And it's not just a, you know,
at the practitioner level in terms of physician level,
but it's really people like health coaches
who are much more grassroots,
who can do the handholding and the explaining
and the walking through and, you know,
really have that frequent interaction
because, you know, gastroenterologists are really good
at doing colonoscopies and endoscopies,
but most gastroenterology programs even today
don't have formal training in nutrition,
really significant training in terms of,
explaining to somebody what's the difference
between gluten intolerance and a wheat allergy
and celiac disease.
And even when we know it,
and I think most gastroenterologists do know that,
but do we have 45 minutes to sit down
and explain the difference
to somebody who's just been diagnosed with celiac disease
versus somebody who is just gluten intolerant,
I shouldn't say just,
but somebody who's gluten intolerant,
that these are very separate conditions
and they require very different approaches.
And so, I think of it as these grassroots,
community-based folks who can really do that heavy lifting.
I would like to see more disease specific training
for some of the health coaches, right?
A lot of them have great empathy,
but maybe not as much specific training
in the different areas.
And I think when we get that,
so we have like a whole army of diabetic,
diabetes educators or dysbiosis educators,
people who help people understand gallbladder disease
and what to do so you can hold onto your gallbladder
if you have gallstones and not have to have it removed.
So as we start to see more of that disease specific training
with health coaches,
I think we'll really start to move the needle.
Yeah, and the follow-up and the accountability
that's so critical to actually getting somebody
on a better path.
And the working with the medical community
so that it's not either or,
but you're working with a health coach,
health coaches attached to medical practices.
Like the gastroenterologist might diagnose somebody
with celiac disease or gallstones,
and then they refer them to the health coach.
And then the health coach does all that work
with the diet and lifestyle, the sleep, stress, the food.
And then there's more cross pollination between the two.
So that's something that I would love to see.
And I think we're moving towards it
because I think consumers are demanding it.
Right.
Let's talk about weight, specifically obesity.
I think we're all aware that obesity
was the biggest comorbidity factor
that was driving severe COVID cases. Some of the statistics in your book are pretty heavy. 78%
of patients hospitalized for COVID were obese. You're 113% more likely to be hospitalized for
COVID if you were obese. But the interesting thing to me that I'd never really considered
is the extent to which obesity
becomes a public health crisis.
So explain that because I never really pondered that.
I tell you that was pretty shocking to me too.
So if you think about obesity,
what the risk is to the individual,
we know with something like COVID,
so you're gonna have trouble ventilating the lungs,
expanding the lungs because of the adiposity,
because of the pressure on the chest, if you're obese.
So you have issues with ventilation.
You're going to have issues with potential complications
like clotting because increased weight
in the setting of obesity is associated
with increased clotting factors
and other inflammatory things floating around in the bloodstream. And you're going to have an altered
immune response because adipose tissue, fatty tissue is itself immunologically active in a
negative way and can lead to an overblown immune response. So those are all things that can affect
the individual. But in terms of what it means for society, having obesity is also associated
with prolonged viral shedding.
We've seen that for influenza,
we've seen it for SARS-CoV-2 and many other viruses,
you shed the virus longer.
What that means if you shed the virus longer
is that there's more opportunity
potentially to infect somebody.
And there's also more opportunity
for the virus to become more virulent during that process.
And so from a public health point of view,
if you have a population with a large percentage
of people in it who have obesity,
you're potentially going to end up
with a more virulent viral outbreak over time.
Yeah, the shedding with influenza was 42% longer
for people who are obese. So it's not a small margin. Yeah, that shedding with influenza was 42% longer
for people who are obese.
So it's not a small margin.
Yeah, that's right.
And that was stunning to me also.
And it also makes me think about,
we saw a lot of collective concern
and people coming together and goodwill
during this pandemic, particularly early on.
And so realizing that this is a problem that we all share, that this is, we all have a
responsibility to figure out how we can help, whether it's individually or from a policy level,
make sure that people who struggle with obesity have access to better food,
safe places to exercise, stress reduction, all the different things that contribute to it.
to exercise, stress reduction, all the different things that contribute to it
because A, it's the right thing to do
and B, because it has a ripple effect on the whole society.
Of all the comorbidities,
why is obesity such a powerful one
when it comes to susceptibility to viral infection?
I think, Rich, it's because
of all the different elements it affects.
So there's a sort of mechanical anatomical issue
with the lungs.
And when you can't expand your lungs,
you end up having collapsed alveoli in the lungs
and the bacteria there start to produce
and you end up with secondary infection,
bacterial super infection.
So having a bacterial pneumonia on top of COVID
can be really deadly.
So with obesity, there are mechanical factors,
there are physiological factors, there are hormonal factors,
there are endocrine factors, there are immune factors.
So it's a condition that affects, you know,
every aspect of our body's physiology.
And I think that unlike heart disease,
where okay, heart disease primarily affects your heart,
right, may affect your circulation. Diabetes is primarily an that unlike heart disease, where okay, heart disease primarily affects your heart, right, may affect your circulation.
Diabetes is primarily an endocrine disease,
but with obesity and of course,
our risk for all of these things,
heart disease, cardiometabolic disease,
cancer, et cetera, are increased.
Right, I mean, obesity doesn't live in a vacuum, right?
It's usually associated with some other battery of,
you know, poor health outcomes.
And it's also very strongly correlated
with changes in the microbiome.
We can look at microbial sample
and we can predict with pretty good accuracy
whether this person has obesity or not
based on the compliment of bacteria.
So it's strongly associated,
but I can't say that's the factor.
It's the fact that it is affecting
so many different systems.
And you mentioned something about
adipose tissue specifically,
sorry, I interrupted you.
I didn't mean to. No, no worries.
Something about the adipose tissue specifically
that has a negative impact on immune response?
Yes, the adipose tissue can itself
release more immune cells more than you need this whole concept of overshooting
and cytokine storm.
So that's another potential complication there
for people who have obesity.
Well, let's talk about getting outdoors,
exposure to nature, bathing in the biome, right?
This is a big part of taking care of our gut health, right?
Is our exposure to our natural environments.
And another statistic that jumped out to me
from the book on this was what they discovered
in the wake of the 1918 Spanish flu epidemic.
That was fascinating.
So we look back a hundred years, more than a hundred years now,
and we found that this concept of the open air factor,
and it's defined as a germicidal constituent in open air,
that it's basically factors in open air,
many of which we're not sure what they are,
that are lethal to viruses and certain pathogenic bacteria.
And in the Spanish flu epidemic,
what they found is that people who recovered outside
had a much lower mortality.
And when we look at
it in the military setting, officers were often given a hospital bed because they were officers
and the enlisted men were put in cots outside the hospital when the hospitals were overflowing.
Well, the mortality was very different. In some of those studies, the officers recuperating inside
had up to a 40% mortality and the enlisted soldiers on the cots outside
had a 13% mortality.
That's a massive difference.
That's a massive difference.
And so we see that, you know,
if you look at the impact of something like forest bathing
and the exact Japanese term escapes me at the moment,
it's something Shirinoku, I'll mess it up.
But we know from a couple of different studies that that lowers
blood pressure, it decreases risk for heart disease, it increases feelings of wellbeing,
it decreases feelings of stress, et cetera. But it turns out from an immune point of view,
it also does some pretty amazing things too. So this open air factor is different from just
sunlight and vitamin D. Sunlight and vitamin D is a thing for sure, but it's open air. And so if you can't get outside and stroll in the
woods, you can open your car window. I'm going like this, but it's more like this, right? Pressing
the button, rolling it down. Nobody's car window opens out anymore. You can open a car window. You
can open a door. You can literally sit on a window ledge. And it's been striking even in my own life,
how much time I spent inside during the pandemic.
We're really lucky to live right on the edge
of Rock Creek Park.
We moved since you were there last.
And we literally, the trailhead is right outside our door.
So it's really easy for us to get outside.
But especially with writing this book,
I mean, I was sitting eight hours at a stretch sometimes
on my computer, looking out through the glass at the woods. And, you know, I tell you like getting outside, you feel it,
you feel better. It just has this, you know, exercising outside. I mean, I love the gym I go
to. I, you know, enjoy hopping on my Peloton bike, but there's something about being outside in the woods in nature that feels very different
from mood, everything else.
And it turns out that that effect is very real,
this germicidal constituent.
And it, you know, it can be tricky.
It was tricky in the beginning of the pandemic
when everybody was being told to stay inside
and isolate and all of that.
But we were lucky in Washington
to have these beautiful outdoor spaces.
And you're lucky here too in California.
But that's something that people really should think
about incorporating is this time outside in nature
and ideally getting a little dirty exposure
to soil microbes.
Yeah, it's not just the air and the sunlight,
it's the greater microbiome
of our external environments and the diversity of,
you know, whatever is growing in the air
that we're breathing, right?
That is serving our gut health.
I had a funny story.
I had COVID in January,
but I had read that study a year before
and I had told my family, if I get COVID,
you need to put a little cot outside on the deck for me.
And that's where I'm gonna isolate
and just bring my food out there.
And that's where I wanna recover.
I had COVID in January, a couple of days after New Year's.
That's not ideal.
The day before a huge snow storm.
And I'm somebody who, as I said, I like heat.
I like it hot.
So my family was like, yeah, about that cot.
I was like, yeah.
I mean, it turns out I had it
and my husband had it the next day.
My daughters were all able to isolate together,
which was marvelous.
But what I did do beginning with that next day
with a huge snowstorm was I was out,
I would bundle up, double mask,
and I would hit the road late at night.
And I was trying to do as many miles as I could breathing.
Cause one of the things I also experienced
was lying on my back.
I could feel alveolar tissue collapsing.
It was like, I can't lie on my back all day
like this in the bed.
I could feel it and starting to get a little chest pain.
So I got an incentive spirometer,
one of those things they use in the hospital after you've had surgery where you do the deep breaths.
So I was doing my incentive spirometer. I was going out and walking. I mean, I wasn't out trying
to run a marathon, but really doing as much as I felt able to expand the lungs. And some of those
things, those basic things, you know, we put people in the hospital on their backs, bad things happen.
So some of these things that people can think about, you know, if you're able, you know, we put people in the hospital on their backs, bad things happen. So some of these things that people can think about,
you know, if you're able and again, not to overdo it,
but do what you can manage,
which will depend on your baseline of getting outside,
fresh air, breathing deeply, all of these things
are important.
From a policy perspective,
I presume that the powers that be at the CDC, et cetera,
I presume that the powers that be at the CDC, et cetera,
had some awareness of this 1918 Spanish flu epidemic and the difference between recuperating outside
versus inside.
Why and how does that not get translated
into public messaging
about how to best take care of ourselves?
I mean, we were told to stay inside.
I mean, I live out in the middle of nowhere
and habitually run trails where if I'm out
for a couple hours, maybe I see two people.
And there was a yellow tape, like on these trails.
On the playgrounds, yeah.
It was basically illegal to go out
and do exactly this thing that has been proven
to be beneficial as opposed to harmful as we were told.
The lack of public health messaging around this
is really astounding.
If you look at something like antibiotics,
we clearly, if you take rotavirus infection,
rotavirus viral infection
kills about half a million children a year
around the world, serious diarrheal illness.
We know that if you take certain proteins from bacteria
and inject it into mice with rotavirus,
it halts the diarrhea and basically they're good.
And we know that kids who have been on an antibiotic
immediately before getting a rotavirus viral infection,
by the way, antibiotic, as you know,
has no activity against a viral infection,
but they still sometimes, oh, diarrhea, they're sick,
they get this antibiotic.
We know that they're five times more likely
to have a bad outcome from rotavirus.
We know the same thing for COVID and other viral illnesses.
Gut bacteria are essential.
They're an essential part of fighting these viral illnesses, not just with modulating
the immune system, but by actually releasing proteins that help, by competing for binding
sites with the viruses, all these different things. No messaging, nothing saying, don't take
an antibiotic if you have a viral infection. And not just no messaging, we still see physicians,
hospitals, other healthcare practitioners saying, well, you have COVID, but just in case.
And granted, there are definitely people who have-
Prescribing antibiotics. Antibiotics.
You have bacterial-
I thought we kind of gotten past that.
It's been astounding, Rich.
And of course you have to pull out from that,
the people who either have a secondary bacterial
super infection or at risk.
But the majority of people who are getting slapped
on antibiotics had none of that
and actually worsening this person's likely prognosis, right? With the antibiotics. So
things like getting outside, things like, you know, avoiding unnecessary antibiotics,
things like don't suppress your cough or fever. I mean, these basic things and it's puzzling to me.
And I don't know if maybe the feeling is,
if we focus on these things,
it will seem like we're detracting from those,
but that doesn't really make sense.
I feel like they should have trusted us a little bit more
to understand that, yes, we need both.
We need to take care of ourselves
to put ourselves in the best position
to basically fend off this illness
that we're almost undoubtedly gonna come into contact with
and understanding that not everybody is equal.
And there are certain things that we can do
to put us in a better position if and when that occurs.
And it's not an if, it's a when, right?
But I don't know, maybe they felt like
that would detract from the other messaging,
but I think we're gonna be doing a forensic excavation
of what went wrong and what went right
for many years to come.
And because we will inevitably face another pandemic,
my hope is that we'll have our ducks in a row
a little bit better for next time.
Well, if you look at the statistics,
there've been over 30 different viruses
in the last 50 years
for which there is no cure or real treatment.
So things like hepatitis C, HIV, Ebola, SARS-CoV-2.
A study from Duke in 2021
looked at the statistical likelihood of a pandemic
of the proportions we've seen with COVID happening
and calculated that at 2% per year, which means for somebody born in 2000, that's a 40% likelihood
by 2020 that this would have happened. But yet we still seem very surprised, you know, and again,
there's precedent for all of this. And a lot of the things that we did seem
that they weren't super innovative.
And I think it's really easy to look back
with a retrospective scope and say,
we didn't do this right, we didn't do that right.
And there was clearly a lot of panic.
I feel like we're in a less panicked mode right now
and we're able to be more thoughtful,
thoughtful about maybe stratifying people based on risk
and who needs to do what based on risk,
like age and comorbidities and medication, et cetera.
And that's been good to see.
And also who needs to test and who doesn't
and who needs to get boosted and who doesn't.
So I think we're seeing a lot more thoughtfulness
around that and hopefully we will be better prepared.
I mean, what this has really shown us
is that our public health system
really was not what it needed to be.
Right, so hopefully everybody's re-watching the game tape
and trying to learn how to do it better next time.
Cause we're gonna need that.
I feel like it was a trial run.
Listen, it could have been a lot worse,
but a lot of people died.
It wasn't nothing.
It was a very significant event in all of our lives
and plenty of people perished.
And it's incumbent upon us to sit down
and figure out how to do better next time.
And my sense is that smart people are doing that.
I hope they are.
And it's not over.
Sure.
But at the same time-
Yeah, that's the thing, I'm acting like, yeah, so.
We also saw incredible generosity
and graciousness and community
in a way I don't think I've seen before
that I can remember.
So we saw some good things too.
Yeah.
You mentioned the prescription of antibiotics
and kind of the misguidedness of that
in the midst of all of this, what about Paxlovid?
Like that's something that's being prescribed quite a bit
for COVID.
Is there a sense of the efficacy of that?
Is there a sense of the downstream gut health
and immune system implications
of doing a five day course of that?
I think we don't really know yet
in the sort of real life data what the downside is.
But what I will say is I think it's being prescribed
a lot outside of the guidelines
for who should get it in terms of age
or somebody who has a comorbidity that qualifies.
And I think part of that is it's pressure on the physician side to
feel like I need to be able to do something other than to tell you to go home and walk a little bit
outside and eat some vegetables, right? So physicians want to feel like we can do something
actively. And there's also pressure on the consumer side is that people want to know.
They're like, look, we live in this modern world
where we can take a heart from somebody
and put it in somebody else and do all of these things.
Like you must be able to do something for me.
And so I think there's pressure on both sides
and there's clearly efficacy in certain groups of people,
but I think it is being over-prescribed
and outside of the guidelines.
And I think we'll have some data coming in soon.
You know, for things like this,
a short exposure probably isn't going to be problematic,
but it's when we see people on longer courses
or repeated courses,
we'll start to have some data in terms of, you know,
what the potential downside there is.
Last time we spoke,
it was a lot about how to live dirty, eat clean.
And I have to ask,
like, has there been any new revelation
since we last spoke about the consumer products that we use?
Like we've been talking about food
and pharmaceuticals and the like,
but what about beauty products?
What about our soaps
and the way in which we conduct our hygiene
and the clothes that we wear
and the dyes that those clothes are made with.
Like, how are you understanding our habits around this
and some things that we should be thinking about?
Since we last convened, Rich, which goodness,
it's been seven years, that's a long time.
What's been exciting is to see people realizing like,
oh, we were too clean. But what's also exciting is to see people realizing like,
oh, we were too clean.
But what's also interesting is this idea that now you just have to put a probiotic in something,
you know, probiotic shampoo and probiotic.
But, you know, so we've gone from,
oh, the antibacterial to now the probacterial.
And the thing that I want people to remember
is that it's less about adding something
and more about not doing something that is harmful, right?
So thinking about what practices can we stop
or decrease that are removing our healthy microbes,
as opposed to no, I'm gonna add a microbe to something.
So just not washing as much as super helpful.
I know I have rosacea, super sensitive skin.
It's under well, good control now. It's not
flared up in years. And I credit part of that to the fact that I don't wash my face that much.
And that really helps. And the same thing, I have people who are suffering from hair loss. And I'm
like, why are you putting all this stuff in your hair? You got to give your scalp and the scalp
microbes a little chance to regenerate. And so I think because we are so
product driven, right, we want to take something and to do something. And I'm happy to see that
we're having, you know, some, actually some pretty terrific pro bacterial products compared to all
the antibacterial, you know, this idea that we're going to, we're going to cleanse everything away.
We've definitely moved away from that.
And you look at products like some seaweed-based products, a company like Osea that's based here in Malibu that I think makes fantastic products. So we're seeing much more of that. And I think
the barrier for entry is lower because it's easier for somebody to put a product out now.
With platforms, you don't have to go through two or three
of the large CPG companies to do that.
So we're seeing a lot of innovation,
but I think the focus still should be on,
again, your body is producing this stuff.
If you think about stuff like the oil on your skin
and in your hair,
your body is producing the stuff
that is custom produced for your body's pH
and your ideal skin type.
And what do we do?
We scrub that away
and then we put some store-bought version on.
And so, you know, we have to think about
how we can work in concert a little bit more
with what our body is already doing
and sort of enhancing it,
but not destroying and then replacing.
Right, it's analogous to the cough suppressant, right?
If we're just putting soap on our face all the time
and removing all of those oils,
those oils are there for a reason, right?
Like, why are we getting rid of them?
It seems like a good rule of thumb,
although, you know, orthogonal
to kind of our current modern day habits
around some of this stuff.
And my sister likes to point out,
cause I've been quoted about, you know, not bathing too much and stuff And my sister likes to point out, because I've been quoted about, you know,
not bathing too much and stuff.
And she likes to point out, like, she's like,
that's not everybody in the family.
I like to bathe every day.
And sometimes I'll go over there and she lives nearby
and I would have like gone for a long run in the woods
and maybe done some yoga.
And I'm like, I don't smell bad, right?
And she's like, yeah, you don't smell as good as you think you do.
It is interesting. There are so many companies and new products that are coming out that are,
you know, sort of chemical free or more natural. And I think there's a sense like, oh, more natural
is better, but it also has to be efficacious. Some of these products don't actually work. If
they don't work, we're not going to use them. But in the pecking order of, you know, like the,
the, there's the dirty dozen, right?
What are the organic?
So like in consumer products,
like chlorinated water or fluoride in our toothpaste
or certain kinds of shampoos,
do you have a sense of the most important things
that we should be paying attention to or getting rid of?
The really sudsy things,
like the sodium lauryl sulfate is a problem.
And people like that
cause they like a sud.
But some of those things,
what they actually do is they disrupt the skin,
the integrity of the skin,
and they make it easier for pathogenic bacteria
to penetrate or they're really toxic to the, you know,
the population of staph or crinobacterium
that live on the skin
that are part of the skin's important ecosystem.
And certainly things that have a lot of alcohol in them,
because remember before we had antibiotics,
we had alcohol as our main antibacterial.
And even now, if you go to get blood drawn,
they put alcohol swab to clean the skin.
So products that have a lot of alcohol in them
are also potentially problematic for those fragile microbes.
I wanna touch on long COVID for a minute.
I feel like this has become like a COVID.
This is not meant to be like a COVID focused conversation,
but because COVID is the virus
that we're currently contending with,
it feels like appropriate to use that as a lens
to talk about these other things
that you talk about in the book.
Long COVID is a tricky one.
I feel like we don't really know what we're dealing with here.
And you have some interesting information in the book
about this, about what we know and what we don't know
and the relationship of gut health
on this quote unquote thing we're calling long COVID.
One of the things with the book,
I purposefully did not put COVID in the title.
The book is called
The Antiviral Gut Tackling Pathogens from the Inside Out.
And while COVID is definitely on the radar,
there's a lot in the book as you've read it
about other viruses, about polio, about influenza, et cetera.
And when it comes to long COVID
or post acute sick quality COVID or long haul
or all the different names we have for it,
one of the things we know a lot about
is post-viral syndromes.
This is not the first post-viral syndrome.
It won't be the last.
I think the problem Rich is that we weren't expecting it
because we were thinking this is kind of like
a bad flu virus and post-viral syndromes from flu are not as common. But think about AIDS. AIDS is
a chronic form of HIV. HIV, the human immunodeficiency virus causes AIDS and it causes
this prolonged disease. Now we have pretty good antiretrovirals for that, but it's still a chronic
condition. You think about hepatitis C can cause cirrhosis of the liver
and liver cancer in many patients.
You think about Epstein-Barr virus causes mono,
it's been linked to chronic fatigue syndrome
and it's been linked to MS now, multiple sclerosis,
and it's linked to certain forms of lymphoma.
So we have lots of precedent.
In my world in gastroenterology,
we see something called post-infectious irritable bowel syndrome, post-infectious IBS,
which is people who have had a clear infectious episode and then lo and behold, maybe they have
acute symptoms, diarrhea or something, nausea, vomiting, and those acute symptoms resolve,
but then lo and behold, they have irritable bowel syndrome and the GI tract is sort of never the
same. So we have a lot of experience with, if you think about some of the
sexually transmitted diseases like herpes and human papillomavirus, so HSV, HPV, et cetera,
we know there are acute and chronic forms of those. And we also know similarly, who is at risk for
those chronic forms. And there are some outliers to that,
but we know, for example, in women
with sexually transmitted diseases,
that the population of healthy lactobacillus bacteria
in the vagina that produce acid to repel these viruses,
that having lower levels can make you more susceptible
to the acute process of after exposure becoming infected,
and also to the acute process of after exposure becoming infected
and also to the chronic aspects of that.
So post-viral syndromes are not new,
but because this is a relatively new virus,
we're getting familiar with what the post-viral landscape
looks like with long COVID.
And there's now,
there are now more than 200 different symptoms
that are associated.
And of course, you know, a lot of this is reporting,
everything sort of gets put in,
but we know what some of the more common symptoms are,
fatigue, respiratory symptoms, brain fog, et cetera.
And if we look at that,
what we see are clear microbial differences
in a lot of these patients.
And a lot of this we know from the CFS,
ME literature with chronic fatigue syndrome,
that researchers at Cornell were able to look
at the microbiome and identify people who had ME CFS
based on what was going on microbially.
And we've seen a lot of those microbial differences.
We don't have a clear cut microbial signature yet, but we have some hints.
And there was a study that was published
in one of our GI journals.
They followed 106 patients with acute COVID.
They found a very high rate of chronic symptoms, about 76%.
And in that 76%,
they found significant microbial abnormalities
in the people, the majority of people
who went on to have chronic symptoms
versus a minority who recovered
very distinct microbial patterns.
So it's difficult to sort out how much of that is cause
versus effect because the virus itself can induce dysbiosis.
This wasn't something we talked about,
but the binding of SARS-CoV-2 to those ACE2 receptors
can induce microbial changes, dysbiotic microbial changes.
And then of course, dysbiosis itself,
as we've been talking about,
is a risk factor for having worse outcomes.
So, they're both sides to that.
We know that autoimmunity is an issue.
We see autoimmune markers.
Many of those patients never had
an actual autoimmune disease before,
and they still don't have an autoimmune disease,
but it's almost like a precursor.
And we don't know what's gonna happen
with some of those patients with the positive ANAs
and different non-specific markers of inflammation.
Are they going to progress to an autoimmune disease
or is that stage where they are,
where they have an autoimmune marker,
but not an actual autoimmune disease,
a specific disease in and onto itself.
We see EBV plays a role also.
Yeah, that was the thing that jumped out to me
that there's a sense that it might be a reactivation
of Epstein-Barr virus.
And I didn't realize that like a huge percentage of people
are harboring some amount of that virus.
The majority of the population.
And EBV is fascinating, the history,
because if we look at 100 years ago,
they called it idiopathic adenitis.
I mean, idiopathic meaning unknown,
adenitis means the glands are inflamed.
And then it wasn't till researchers at Hopkins,
a couple of decades later linked this to mono.
And then just recently this year,
some groundbreaking research linking the EBV to MS.
And the lymphoma connection has been made a few decades ago.
So it's still evolving.
And the role that EBV and reactivation of EBV may play
in long COVID is still,
there's still a big question mark there.
But again, we have precedent
because we have lots of research in the MS world,
in the lymphoma world, et cetera.
So for people out there who are struggling,
I want them to know that even though the virus is novel,
the science is not novel. We have a lot of data. We have a lot of researchers, a want them to know that even though the virus is novel, the science is not novel.
We have a lot of data.
We have a lot of researchers, a lot we do know,
and there, you know, there are lots of people working on it.
Final thing I wanna get into with you
before I let you go.
I gotta know where we're at with the fecal transplant
clinics that are supposed to be popping up everywhere.
Right?
I, you know, it's when you hear about all of these gut dysbiosis
illnesses and the extent to which people like you
can look at the gut flora, see what's missing,
see what's proliferating, et cetera,
it seems to follow that a lot of this could be resolved
by simply culturing fecal transplants
and inserting them in people and resolving this issue.
So explain why that is too simplistic
a solution to these problems.
If we look at some diseases,
so if we go back to the Clostridium difficile,
I was talking about Clostridium difficile,
again, a bacteria lurking in many hospitals.
Some of us are colonized with it, but at low levels.
You take an antibiotic, you kill off a lot of your healthy bacteria,
and now the C. diff that's either there or that you've acquired
when you went to visit your grandpa in the hospital,
or if you yourself were hospitalized, is now proliferating,
and you have C. diff colitis, and you have this severe diarrheal illness.
is now proliferating and you have C. diff colitis and you have this severe diarrheal illness.
A stool transplant in that setting,
in the study published in the New England Journal of Medicine
a couple of years ago,
they actually had to stop the study early
because the group that received the stool transplant
did so much better than the group that received antibiotics.
And when you think about it,
a problem that's caused by antibiotics,
the likelihood you're gonna have, you know,
some fantastic solution from antibiotics is pretty low.
Right?
So, but FMT, fecal microbiota transplant,
the technical term was shown to be vastly superior
to the antibiotic treatment vancomycin
that had heretofore been the standard for this.
And the reason that it works so well
is because that's an acute problem.
Your healthy bacteria have been killed off
by this dose of antibiotics.
You've acquired this bacteria
and we're gonna crowd it out
with a lot of other healthy bacteria
and it's gonna take care of the problem.
When we look at more chronic problems
like autoimmune diseases,
like a problem of Crohn's disease or ulcerative colitis
or autism or Parkinson's
or a lot of these things that we're looking at FMT,
we're looking to FMT as a solution.
I think the biggest problem is that the studies
have been short term.
You're not going to cure a chronic disease
giving a stool transplant for a week or two weeks
or maybe even two months.
And the other problem is we're not looking
at what we're feeding those gut microbes. So there was an autism study looking at FMT in conjunction with diet over
several months. And that study really stood out head and shoulders above the other studies,
whereas FMT alone. And the same in the GI world. Just a few weeks ago, I was actually on vacation
in Turkey. And so the time, you know, we were seven hours ahead from DC and one of my GI colleagues, you know, we're all geek out on this stuff, texted me and
I was like three in the morning or something about this study that just came out from Johns Hopkins
finding that Clostridium difficile infection was actually potentially linked to colon cancer.
And he's a person, my colleague at Georgetown,
really great guy, Mark Mattar,
who does a lot of the fecal transplants.
And so I saw it and then like,
we immediately started this text exchange and my husband was like, it's 3 a.m. in Turkey.
But the reason it was so exciting for us
is it links the antibiotic use.
Because why do people get C. diff?
The vast majority, it's from antibiotics.
You have some more sporadic or community acquired,
but it's primarily related to this antibiotic use
and maybe exposure in the hospital.
And so this is a potential link to antibiotic use
and malignancy, which is something that I've worried about
for a long time.
But again, it speaks to the acuity of that process.
You're trying to cure ulcerative colitis
or put it into remission or Crohn's disease.
That's a long-term process.
Those stool microbes for C. diff,
you're able to control the acute infection
and then the microbiome kind of reverts back
to something closer to baseline gradually over time.
But with colitis or Crohn's or MS or Parkinson's,
you need the microbiome, those changes to last.
And so in the studies where I've combined it with diet,
they saw very different results.
There was another study that just came out just a few weeks ago.
And this was a small study from India
looking at ulcerative colitis.
And they did the FMT with dietary change,
very dramatic results, very different results,
much higher rates of response and of remission.
So it's intuitive, Rich, that you gotta continue to feed.
You can't feed the microbes Doritos and cheeseburgers.
Yeah, it's like planting a seed in the sand
and walking away from it and being disappointed
that it doesn't grow versus watering it and feeding it
and tilling the soil and all of that.
I mean, conceivably it would follow.
It makes sense that even with a chronic condition,
you would be able to resolve it
if you had periodic fecal transplants
on some kind of schedule over an extended,
a very extended period of time and a very specific diet
that is intended to fertilize those transplants
so that they're allowed to flourish and grow
until they become sort of self-sufficient, right?
And the other thing we have to consider
is what is the quality of the stool
that's being transplanted?
So is a stool from somebody, you know,
who's eating at McDonald's every day?
I mean, the vetting process is very basic currently.
So they exclude certain infectious diseases.
You know, they test for syphilis and HIV and hepatitis
and various things.
And there's certain conditions that are,
will exclude you from being able to be a donor
and medications.
But there's nothing about,
I wanna know like how many vegetables do you eat?
Right, I'm seeing a new product category on goop.
I mean, I always said if I were getting a stool transplant,
I would be going to Tanzania and getting some stool
from one of my Hadza tribe brothers or sisters, right?
I don't want stool from somebody
who's been eating at McDonald's every day.
So we don't, in the studies where they looked at
the quality, the microbial richness, diversity,
robustness of the stool,
you measure short chain fatty acids, that's night and day.
It's like any other transplant.
If you're getting a heart transplant from, you know,
an older person who lived a very unhealthy life,
you're gonna have a different outcome
than if you're getting a heart transplant
from a young, healthy person.
Right.
So, and you know, in this case,
I would say age, maybe less so,
but, cause I would take some microbes from Mike Fremont.
Yeah, Mike could support himself for the rest of his life
selling his-
Selling his stool, yeah.
So we have to look at what are we feeding the microbes
that are being transplanted
and what is the quality of the transplanted stool?
And I think in the future, we'll see some new innovation.
So we'll see instead of somebody else's stool
where we do have to worry about infectious things.
And that's why getting stool from an intimate contact
can make it more convenient, right?
You're already swapping body fluids,
but there may be issues with the quality of the stool there
that are not ideal is can we amplify our own bacteria?
Can we take our existing fecal bacteria and prosonaceae
and maybe take them out of the body
and amplify them in some way,
maybe with an ideal growth medium
and then reintroduce them.
And of course, Rich, we can do that with food.
We could do that with food.
Yeah, I mean, that's the great thing
is we don't have to sit around and wait
for these moonshots to become accessible to all of us.
There are all these things that we can do every single day.
It's back to the original point
that we opened this conversation with,
which is the resilience of the human body
and the ability of the microbiome to adapt.
And throughout your book, I mean, as you've mentioned,
a third of the book really is this plan, right?
You've laid out this entire plan.
It's about mastering your mind, securing defenses,
changing your environment, rethinking these therapeutics.
And you walk people through a step-by-step,
very practical things that every one of us can do,
including all these recipes for different kinds of foods
that are specific to optimizing the health of our gut.
And I think it's, I'm excited for people to read it.
I think it's really powerful and it's empowering.
And that's the point, right?
It's not just an academic pursuit
to try to understand the microbiome,
but to really give people tools
that they can implement into their lives
to take better control of their health trajectory.
And I think it is an optimistic message.
I mean, I find it reassuring this
information, you know, there's stuff you can do because the fair mongering, you know, when you,
and that's how you sell stuff to people is you make them afraid, right? And I'm not interested
in doing that. I'm interested in making sure people have the information to empower themselves
so that they don't need my help, quite frankly. Yeah. And if somebody is looking for your kind of help, maybe they're not able to come and see you,
but what is a way or a resource that's available to people who are trying to find someone
who has your type of specialty in an integrative sense in their respective area?
Is there a way to do that?
That's a tough one, Rich.
We don't currently have sort of association
of integrative gastroenterologists.
So although Will B and myself and Jerry Mullen
and this great guy, Desmond,
British gastroenterologist who I met at ICNM,
I'm blanking on his last name,
but he runs a clinic in the UK
treating patients with IBD plant-based diet.
So there's a handful of us
and we've been chatting about it.
And the idea wouldn't be,
you have to be a plant-based physician
to be part of this, not at all.
It's just this idea of people
who believe in the concept of food as medicine
for treating digestive disorders.
So I think that you gotta ask some questions
and you might have a gastroenterologist
who maybe isn't particularly focused on this,
but is open to this.
And maybe you're working with a nutritionist
and the gastroenterologist is open.
And I think, you know, my evolution from a more,
I'm a conventionally trained gastroenterologist,
but from somebody who wrote a lot of prescriptions
and practice more conventional medicine
to somebody who now believes fervently
in the power of food as medicine
and what the individual can do
in addition to prescribing medication when needed,
that evolution really came because of the patients
who were
generous enough to share what they were doing with me when I didn't know. When I was like,
really? That stuff works? And they were like, yeah, this is, I'm like, how is it that you're,
I scoped you and your ulcers are all gone from your colitis. What are you doing? And they'd be
like, well, as a matter of fact, this is what I'm doing. I've changed my diet. I'm doing this. I'm
focusing on. And so it was really, you know, a patient led evolution.
And so I always tell people like,
don't break up with your gastroenterologist
unless they're just really an asshole,
in which case absolutely do, but bring them along.
So maybe you find somebody, a nutritionist,
who's well-versed, who can help.
And you make sure that that gastroenterologist
is open to the idea of what you're gonna do.
And I always say, tell them, like, don't hide.
Like say, look, I know you want me to take this drug,
this biologic, and I'm aware that this could help me,
but I'd like to try something else right now.
And I feel like my disease is sufficiently controlled
that that's safe for me to do.
You know, do you agree?
And this is what I'm gonna do.
I'm gonna try this diet and I'm gonna start meditating and go into a walk in the woods and whatever else. And, and we'll
see how it goes. And if it doesn't work, I'm going to come back and get that drug that you're telling
me could help, even though it could potentially cause an infection and give me cancer, because
I think I need it at that point, but I'm going to explore this stuff. So I think that we, the way we change a medical community is we have to change it from the inside. And if everybody
abandons their doctor and seek somebody else out, that's not going to work. So bring your doctor
along, help to open his or her eyes about what can be done and create those bridges between the
other practitioners that you were using, or it may even be a book that you've read,
but you know, books are fantastic,
but you really wanna find that practitioner
who can be on that journey with you.
I think that's a really important part of it.
Beautifully put, the communication.
And on the subject of books, just bring this book.
This is the galley cup.
It doesn't have the nice new cover on it,
but maybe pick up the antiviral gut
and bring it to your gastroenterologist
if they haven't read it yet, right?
The worst thing that can happen is you improve your health.
There you go.
Seven years is too long in between our conversations.
I have so much reverence and respect
for the work that you're doing.
And the subject of the microbiome
is just endlessly fascinating.
And I think it's really important work.
And the fact that you've found a way to communicate
what is very complex in a way that's not just understandable,
but very practical and actionable,
I think is a great service.
So thank you for that.
And it's always a pleasure to talk to you
and come back and talk to me some more.
Thank you, Rich. And I just have to say to talk to you and come back and talk to me some more. Thank you, Rich.
And I just have to say too,
that we've known each other a long time
and I've watched sort of in awe
as you built this incredible community.
But I also just wanna call you out
for what I think was a really incredible work you did
during that dark summer of 2020 with Black Lives Matter
and our country was really hurting
and still is in a lot of ways,
but I think you personally just did so much
to move us along there.
So thank you for that.
I appreciate that.
It wasn't much, but it was a little bit that I could do
during that difficult time.
So thank you.
Thank you.
Obviously pick up the antiviral gut available everywhere.
Any other place that you wanna direct people
to learn more about you?
RobinChutkan.com, I have a difficult to spell first name,
R-O-B-Y-N-N-E and an equally difficult to spell last name,
C-H-U-T-K-A-N.
So RobinChutkan.com, we're sort of transitioning from gutbliss.com to
robinchutkan.com. And we do have lots of great free resources there. We have these gut guides
to different conditions that talk about, you know, diagnosis and therapeutics. And we have a great
blog with lots of great tips and we don't sell anything or promote anything. Right. And you're,
I think you're still GutBliss
on some of the social media, on Instagram.
Yeah, I'm still at GutBliss on IG,
but planning a kind of-
Switching it up.
Brand identity happening, yeah.
All right, well, like I said, you're always welcome here.
And thank you, that was amazing and wonderful.
Thank you so much, it's always so good to be here.
Peace.
That's it for today.
Thank you for listening.
I truly hope you enjoyed the conversation.
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including links and resources
related to everything discussed today,
visit the episode page at richroll.com
where you can find the entire podcast archive,
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Peace, plants.
Namaste.ใใในใ