The School of Greatness - This Is The #1 Most Powerful Tool You Have for Health & Longevity
Episode Date: August 18, 2025My life-changing annual event, The Summit of Greatness, is happening September 12 & 13, 2025. Get your ticket today!The vagus nerve controls everything you never think about - your heart, lungs, immun...e system, and inflammation response. Dr. Kevin Tracey, the pioneering neurosurgeon who discovered how to hack it, reveals why this "great nerve" holds the key to healing chronic pain and autoimmune diseases. After performing over 1,000 brain and spinal surgeries, Dr. Tracey made a groundbreaking discovery, that electrical stimulation of the vagus nerve could stop inflammation in its tracks. That discovery has led to revolutionary treatments that have helped patients with severe rheumatoid arthritis walk again after years of debilitating pain. I was blown away by his patient Kelly's story, and it’s a must listen. This episode will transform how you think about the mind-body connection and give you hope that science is on the verge of solving some of our most challenging health problems.Dr. Tracey’s book The Great Nerve: The New Science of the Vagus Nerve and How to Harness Its Healing ReflexesDr. Tracey’s book Fatal Sequence: The Killer WithinSETPOINT MedicalIn this episode you will learn:Why the vagus nerve is called the "great nerve", and how cutting both sides would kill you instantlyThe revolutionary discovery that electrical stimulation of specific vagus nerve fibers stops chronic inflammationHow trauma and chronic stress damage your vagus nerve and create a cascade of health problems throughout your bodyWhy breathing techniques and cold exposure work to reduce inflammation through fight-or-flight activationThe difference between acute stress (anti-inflammatory) and chronic stress (pro-inflammatory) on your immune systemFor more information go to https://www.lewishowes.com/1812For more Greatness text PODCAST to +1 (614) 350-3960More SOG episodes we think you’ll love:Dr. Chris Palmer – greatness.lnk.to/1728SCDr. Caroline Leaf – greatness.lnk.to/1785SCTJ Power – greatness.lnk.to/1741SC Get more from Lewis! Get my New York Times Bestselling book, Make Money Easy!Get The Greatness Mindset audiobook on SpotifyText Lewis AIYouTubeInstagramWebsiteTiktokFacebookX
Transcript
Discussion (0)
There was one main thing that is blocking you from reaching your full potential.
And it's all because you're trying to do everything alone.
And that's a big problem because real growth happens when you build a community.
When you're in a room full of people who want to see you thrive, who supports you,
becoming your best self.
And if that's something you're looking for, then make sure to join me at the Summit of Greatness
live at the iconic Dolby Theater in Los Angeles down in Hollywood, September 12th.
13th because this year is a powerful lineup of incredible speakers and performers like
Gabby Bernstein, like Dr. Tara Swart, like Brendan Bouchard, Amy Purdy, and so many more
inspiring surprise guests. You'll experience a couple days of transformation and
inspiration and deep connection with a community that actually gets you and wants to
see you thrive. Tickets are selling fast. So go to lewishous.com slash tickets right now to
get your seats, bring your friends and family, and I can't wait to see you there at the summit
of greatness very soon. If you are looking to improve the quality of your health, if you feel like
your health has been out of whack, you feel depressed, overwhelmed, you feel like you're just
dragging physically, emotionally, mentally, there might be something off with your immune system.
And in this episode, world-renowned neurosurgeon and medical innovator Dr. Kevin Tracy,
is here to explore the profound role of the Vegas nerve,
what ancient physicians once called the Great Nerve,
and how it's key to both your health and healing.
Again, Dr. Tracy is going to break down for you the science
in a way that's accessible and powerful,
explaining how this critical nerve in our body connects your brain
to every organ in your body and plays a central role
in emotional regulation, inflammation, and inner harmony.
Again, the key to ultimate fulfillment in life is the ability to emotionally regulate our emotions.
And if we have inflammation, if we have discord and dis-ease in our body,
it's probably because the nervous system and the vagus nerve is out of alignment.
And he talks about the different strategies on how to improve this
so you can have ultimate peace and ultimate harmony in your life.
fascinating research, fascinating science and strategies to improve the quality of your life and your
health right now. I hope you enjoy this. Make sure to share this with a friend. And without further
do, let's dive into this episode. What is the biggest thing that's blocking people from creating
harmony within their internal system? And also, the difference between the vagus nerve and the
nervous system. So we can kind of start there and talk about some of this.
Well, first, let me say thanks for having me on it. It's great to be here.
And congratulations on all the success you have had and are having.
Your success is great.
Thank you. Thank you. The great nerve and greatness, you know.
So the name the great nerve comes from the fascination that the world has had in this nerve for 2,000 years.
Galen, arguably the first physician scientist in ancient Rome.
used to call this the great nerve. So maybe we should start by what it is. So
what is the vagus nerve? What is the vagus nerve? What is the great nerve? First, you have
first you have two of them, like two thumbs and two kidneys, one on each side. It runs
down here. Starts at about the level of your ear, runs down your neck, cross your chest
into your abdomen, and it touches all the organs in your body that you don't think
about all day long. All the organs that are operating when you're healthy in complete
harmony because their reflexes are being controlled by the by the brain and the vagus nerve to
balance the function of all these organs so why is it great because it's the only nerve in the
body that if you cut it on both sides up high you die it's it's required for for life it's
required for health what do you just cut one side then then then you suffer it the reason
that the vagus nerve cut on both sides leads to death is because it's critically important
in sending signals that coordinate the function of the heart and the lung. If you only
cut one side, that you can accommodate that. Interesting. But it's not good. Okay. So that's the
vagus nerve. Well, and is it connect to the brain and goes through the heart as well?
It runs. So that's the next important point. It runs from the brain to the body and back. So
it's a two-way highway. In fact, 80% of the signals that travel in the vagus nerve go from
the body to the brain. Only 20%, give or take, run from the brain back to the body. Now, the key
to this, we keep talking about the vagus nerve, and I already said you have two, so it should be
vagus nerves. Okay. On each side, you have 100,000 fibers. So it's much more proper what we
understand today to say that you don't have a vagus nerve. You have 200,000 vagus nerves. And what we've
learned, my colleagues and I in the laboratory, the Feinstein Institute and now in dozens, if not
hundreds of labs around the world, is we've learned that each and every one of these fibers, 200,000
fibers, has a job description. It has a beginning and an end, and the signals that it carries are
incredibly specific. So some, you asked about the heart, some go to the heart. And the fibers
that go from the brain to the heart tend to slow heart rate. Some go to the spleen and other
organs of the immune system. And my colleagues and I discovered that the fibers that go to the
immune system slow inflammation or inhibit it or stop it. Other fibers go to the pancreas to control
insulin, other fibers go to the intestines to control the processing of your food. So you don't
have a vagus nerve. You have 200,000 vagus nerves. And when someone says to me, I want to do
something to stimulate my vagus nerve, I say, oh, really, which one? Right, right. And that's
important. And you've done, I mean, as a neurosurgeon, you were telling me you've done over
a thousand either brain surgeries or spinal cord surgeries over a decade of time. What was the
greatest lesson you learned about the nervous system and how the brain and body connects or
works in unison through all those surgeries you did that it's complicated that's the that's the
that's the main lesson the main lesson I learned about how complicated it is is rooted in the
fact that when when two neurons interact let's take let's go from a hundred billion neurons
in your brain and nervous system,
with trillions of connections.
When you realize that each and every one of those neurons
interacting, interacts reflexively.
A signal in to one neuron from another neuron
means I'm going to do this.
A signal in from a different neuron to that neuron
means I'm going to do that.
Well, one of the fathers of neuroscience
explained it in the 19-teens very, very simply,
and in a way that can't be better explained.
Charles Sherrington said, if you understand a simple reflex,
so that's when the doctor,
is your knee.
The doctor hits your knee with a reflex hammer,
your leg goes up, and you say, who did that?
Basically what happens is there's a sensory activation,
there's a sensory neuron into your spinal cord,
and that activates one of these connections
called the synapse, which sends signals back down
through a motor neuron to the muscles and your quadrice
and your leg goes up.
Sherrington said, if you understand a simple reflex,
then you realize if you put two reflexes together,
or three or four, or on and on and on,
till you get up to however many billions,
you can assemble a nervous system,
but the basis of what's happening is reflexive.
The third thing,
he said, so you understand a reflex, you can build a nervous system, and the third thing
he said was, there's no such thing as a simple reflex, because they are all connected.
So that's what I learned is the most complicated thing.
We as researchers, as scientists, as doctors, we tend to reduce complicated things to simpler
and simpler component parts, and you have to do that to figure out how things work.
But at the end of the day, they're all connected.
Everything's connected.
Everything's connected.
So the brain as the source of your mind and your body as the part of your nervous system
is in fact all connected.
Plato was right.
You can't cure a disease without also curing the soul.
Interesting.
What does that mean?
That means that the networks that control your brain and your mind are inextricably linked to the networks that are controlling the
the health of your organs.
Wow.
And back to where we started, the principal, I like to call it a transatlantic cable connecting
the brain to the body and all its organs is the vagus nerve.
People call it a highway, but a highway is full of traffic and is messy.
It's more of a transatlantic cable.
And so you can imagine you've got the server in New York transmitting movies to wherever, Paris
or London.
When the submarine comes along and decides the sailors, the submariners want to watch a movie.
So they patch onto the cable and they listen in and they project the movie up on the wall.
And they watch whatever, gone with the wind.
Now, some today in the billions of web impressions keep pointing at the Vegas nerve and saying, you know,
as if the movie's in the Vegas nerve, the movie's not in the Vegas nerve.
It's not in the cable.
It's on the server in New York.
The information is being transmitted through the transatlantic cable.
So in this case, which is the vagus nerve?
Which is the vagus nerve.
It's the great nerve.
And there's something you said about a quote from Plato.
What was that a quote again?
That you can't heal the body unless you also heal the soul.
So if someone is feeling some type of pain in their body or inflammation in their body or chronic illness that's been going on for a long time or whatever, something's going on.
they have anxiety, depression, they have irritable bowel syndrome, they have something happening
where it's like, how do I get through this, eczema, some type of condition that they don't know
where it's from. Am I hearing you say that when you can start to heal the soul or the mind
that's connected to the soul, the thinking, the intention behind the soul, then you can create
harmony within the body and heal the body? Is that what I'm hearing you say?
I think what Plato meant is that they're the same thing, and it depends.
So let's break it down to like something, first principle, something.
So pick one of the conditions you listed.
Let's call it like an eczema or something or like, or inflammation in the body and the joints.
How about inflammation in the joints?
There you go.
Inflammation in the joints.
Like arthritis.
Like arthritis.
Inflammation in the joints can come on very noticeably with pain.
inflammation is pain, swelling, redness, heat. So that can come on and it can be quite noticeable.
And the pain and the presence of inflammation activates all of that, activates sensory
nerves to send signals into the brain. In a case of mild, say, inflammation of a joint
because you jammed your finger catching a football, that inflammation is usually self-limited
and self-resolving because the signals that go into the brain
and through the autonomic nervous system
activate signals that come back down to the body
to slow down the inflammation when the joint is healed or healing.
Now, let's imagine for a second, in that simplest of cases
that the wires going in or out aren't working properly
for whatever reason.
if the if the signal to turn off inflammation doesn't come the inflammation can persist and persisting inflammation now can cause damage to the tissues it originally started to protect so that's the simplest of examples and that's just right now focusing on the body we haven't said anything about the mind now let's put the mind in place the arrival of a pain signal in the brain
activates reflexes to protect the body.
Yes.
Some of those, quote unquote, they're called
stress reflexes or fight or flight
or sympathetic reflexes have significant benefit
if you need to run away from a attacker,
a lion or a bad guy.
Then it's clearly beneficial to have the energy
and to not be worried about the pain.
Forget about it.
That's what happened.
So we're flooding adrenaline into the body.
so you don't feel the pain for that period of time.
Right.
The young woman who picks the car off or injured child.
Yeah, yeah.
So these signals coming back down acutely in large amounts will tend to dampen and slow down inflammation.
Acute fight or flight inhibits inflammation.
Interesting.
But let's say the wires are broken again.
Now the inflammation is not inhibited, okay?
Because the signal didn't get there.
Now what do you have?
day after day after day after day now you don't have massive fight or flight now you have
chronic low-grade activation of fighter flight that's pro-inflammatory so so
chronic stress chronic anxiety actually is an inflammatory condition where the
presence of inflammation gets worse not better so it's it's complicated yeah
But if you walk through it step by step, you can break down the components.
But doesn't the inflammation? I mean, obviously it's in the body.
But what I'm hearing you say is that there's a strong connection to the way we think,
the intention behind our thinking, the emphasis of the quality of our thinking that is influencing,
I guess, the electricity to send or not send or flow or not flow,
whatever it needs to actually heal?
or am I off there?
No, you're not off, but you're correctly paraphrasing what billions and billions of web impressions
and web recommendations say.
Really?
Absolutely.
So there's, this is, many of these things are being repeated over and over like mantras.
When you break down to what is the, what are the reflexes, what are the neural circuits that underlie this
that we can put under conscious control, you kind of,
run you come you you run up against a wall very quickly what what is it you can consciously control
you can consciously control your breath rate you can slow down your breathing you know if it's not
something you can't always but right in this example you can slow down your breathing have you
just stimulated your vagus nerve well maybe right maybe you calmed it right you haven't
really calmed your vagus nerve you've calmed your mind uh which impacts your vagus nerve yeah it
it impacts maybe a few hundred fibers of the 200,000.
Oh, okay, okay.
We're back to, like, what is it we really understand?
And do we know that slowing breathing one way, you know,
let's say, in on three, out on seven, or box breathing,
four, four, four, four, out four, hold four.
These are all, there's, and how many techniques are there?
Tons.
Hundreds, dozens, hundreds.
Do we know what each of those methods does to the vagus nerve five?
No.
No, we don't.
We don't.
We feel better in that moment.
It might not be calm or my, yeah.
Great.
Here's what we do know.
If, in general, these activities, then we can go through them one by one, but the cognitive
behavioral therapy, prayer, some breathing modalities, not others, because what I'm going
to say will make sense.
Cold exposure.
not cold exposure and we could talk about that that's complicated but let's do
just relaxation meditation that's what I couldn't think of so you've got these
states where you induce relaxation they almost always slow heart rate if your
heart rate slows from something you did then you did stimulate arguably
stimulate the fibers in your vagus nerve that go to your heart because that's what
it does but you may have also
inhibited the fibers in your sympathetic nervous system that accelerate your heart rate.
Right.
Which did you do?
Nobody knows.
Well, interesting.
You don't know nobody knows.
Interesting.
So, you talked about the book.
I wrote this book, not to say that these things that are being promoted, some with all good intention
and some less so, these things that are being promoted.
many of them are grounded in some basic science facts
but to extrapolate it further than that
first of all it's no way to be proven true or false
but second of all it puts in the in the case of a patient with an illness
it runs the dangerous risk of putting the blame on the patient
let's go back to the example I gave before
if you have a if you have an infection that damaged your vaguely
nerve and you have arthritis and you you go online and someone tells you to do
10 extra push-ups because that'll stimulate your vagus nerve and stop your
inflammation no it might not for you so I as a as a as a physician
scientist never want to be in the situation where we say we know this to be
true therefore it will work in you right that's not that's not always the
may or may not work you have to try it out it may or may not work at all it may or may
may not work in you. It may not work in somebody else. So how do we get past that in the modern
era with all of our powerful tools? We did discover that you can put a computer chip on the
vagus nerve of people with severe inflammation from rheumatoid arthritis, and that can make many
of them better. Really? Yeah. And that's based on 28 years of work in the lab, first in my lab,
and now in literally dozens, as I said before, hundreds of labs around the lab.
the world. And what we discovered are of the probably 100,000 vagus nerve fibers on the left side
of people, of humans, several hundred, maybe a thousand of them travel down into the area of your
spleen and your abdomen, which is one of the major organs of the immune system. And when these
signals arrive there, and we can activate the signals with this little computer chip,
These signals arriving in the spleen are a calm down signal to the white blood cells that pass through the spleen.
So the spleen gets 20% of your cardiac output every minute.
That means a huge percentage of your circulating white blood cells go through that spleen every hour.
If the vagus nerve signal is sending a calm down signal to the cells that are passing through the spleen,
they get they get pacified they get calm down now when they arrive at that injured finger
they don't attack what they see they actually switch into a a more tissue reparative mode so it's
as if rather than a soldier arriving at the front and and shooting it's a team of medics
they come and start patching things up interesting that's what you want that's what you want and
And that's what, we know that works if you directly stimulate the vagus nerve with a chip.
There are patients with very famous, widely publicized stories.
There are stories of people, as you say, who were unable to walk up a flight of stairs
and are now riding their bicycle several miles every weekend.
Can you send some of these case studies or visuals if there's any after this and we can put some
in to show people or link them up?
The visual I would send you is in my office.
Okay.
I met a patient named Kelly, who was one of the first patients implanted in a study that we did in Europe years ago.
And Kelly was one of these patients who couldn't walk up a flight of stairs.
She was told by her physicians that she had to retire as a teacher.
And she and her husband, Sean, were out of options.
had been nearly bankrupted by the expense of her drugs that weren't working.
They sold everything they owned.
Kelly talked her way into the clinical trial in Europe.
She moved to Amsterdam.
Wow.
How was she when she did this?
Not sure exactly.
Late 20s, early 30s.
She's young.
Very young.
Was arthritis or was it like inflammation or feet?
It was actually inflammatory bowel disease,
but a complication of Crohn's disease that she had was effective.
her joints to the point that her father for one of her birthdays gave her a cane oh man because she
was in and out of wheelchairs so in her 20s yeah yeah so Kelly and Sean moved to Holland
they Kelly received one of the first I call it a gen one implant it's not it wasn't the small chip we
have today and um she she had to stay there for a few months afterwards for her follow-up checks
and they were running late to the doctor's appointment.
And there was an elevated train, and Kelly saw it coming.
And this is a few weeks or a month post-op, and she ran up the stairs.
No way.
And she's about to get on the train.
She realizes Sean's not with her, so she stops.
And she looks at Sean like, what the heck?
And Sean's at the bottom of the stairs crying.
Oh, my gosh.
Because she couldn't remember when she did it.
Oh, wow.
Gets better.
I didn't know any of this.
until I got an email, and I invited Kelly to, like, I never met her, didn't know who she was.
She came to see me, and she gave me a gift, and it's still, it's in my office. It's her cane.
Oh, my gosh. Wow, that's powerful. I left the bow on it. I have a picture I can get to it.
Oh, that's beautiful. Wow. Man, how does she now? When was, or how long was it? She's in her 30s.
She is now restoring guitars, tell you listeners to look up Kelly Owens,
guitar restoration in Connecticut.
She was in Connecticut?
Yes. Wow.
She worked for us at the Feinstein Institute for several years after that.
She was a patient advocate that helped us collect the hundreds, ultimately more than
1,000 emails we were getting for patients that want to participate in these kinds of
things.
And she retired from that to move on.
To restore all the stories.
Yeah, and other, and other artists.
And what is her, I mean, I guess.
And her husband's an amazingly skilled carpenter or woodworker.
Yeah.
So is this five, ten years ago, or when was this like?
This, well, the trial she was in was down, was in the mid-20 teens.
Okay.
So she's now.
Ten years ago, right?
Yeah, the last time I looked, I think she's eight years out.
She takes no medications.
And she can walk upstairs.
She can use her hands fine.
I mean, maybe there's...
She goes to the gym and works out on the treadmill.
Come on.
Does she have pains anywhere today?
Or is it like...
I haven't talked to her recently.
I'm sure as we all get older, we all get some aches and pains.
Of course, yeah, yeah.
But that's interesting.
But she's able to move, walk, and do all these things.
Yes.
Pretty normal lifestyle then.
Yes.
All from one little implant.
Or maybe that one was bigger.
It was bigger.
All from an implant here.
That one, I call Jen 1.
It was like a cardiac pacemaker.
and it goes under the collarbone.
Okay.
And then a lead goes up to the vagus nerve in the nap.
Interesting.
That device has been put in at least a quarter of a million people.
Really?
For to treat, we come back to the mind again at some point,
to treat depression and epilepsy.
Interesting.
And it's been FDA approved in the United States for decades.
And we know the complication rate.
We know that it's quite safe.
we know that at least a quarter of a million people have been studied.
I estimate that somewhere over a half a million, maybe a million people,
I've had this surgery worldwide.
This is with the large device that fires on for five minutes, off for five minutes,
24 hours a day, at a 10 times higher amount of current than we use in this little chip.
So when people look at the side effects of vagus nerve stimulation for depression and epilepsy,
They're going to see things like twitching of the lip, buzzing in the vocal cords when they speak.
And, of course, with any surgery, you can have a very small risk of a wound infection or potentially damage to the nerve.
But when you look at the side effects of the small chip that was put now in 242 people in the United States in the last couple of years,
the side effect, the severe adverse event rate is called, was eight times less than the severe.
adverse event rate of the drugs.
Interesting.
Of the drugs.
Of the drugs.
Which are also on base and have to be injected.
Yeah.
Painful.
Yeah.
So someone's had chronic arthritis for years, and it only seems like it's getting worse.
Is that a soul healing, or is that a vagus nerve healing and total body healing?
Uh, you know, and it sounds like no drugs can really heal something like this.
Maybe they can help some people sometimes,
but it doesn't seem like there's a drug
that can help reverse arthritis or certain conditions.
So let's talk about, again, rheumatoid arthritis,
which is one type of arthritis,
and what we know and what we don't know.
We know that rheumatoid arthritis is a very common condition,
affects up perhaps 1% of the population
or 1.5% of the population worldwide.
It's very common.
It tends to affect younger people,
More women than men, and it's not sort of like the old football injury.
My knee gets sore when it rains.
This is a serious illness that affects all the joints.
And many of these patients can't pick up a pencil, can't ride their bike, can't sometimes
button their shirt.
Yeah.
And we also know that we have powerful drugs that have treated very well, many, many of these patients.
These drugs go by the names of Demards for disease.
modifying entrematic drugs or biologics, which are typically antibodies.
You see them advertised on the nightly news.
You see them advertised on all the sports on TV.
These are very powerful drugs.
They work because, not because they cure inflammation,
but because they suppress the immune system.
But do you want to suppress your immune system?
You don't want to suppress it too much.
Yeah.
If you suppress your immune system too much,
you leave yourself open to secondary infections,
even to cancer.
So many of these drugs that are...
Some side effects of those then.
Many of these drugs,
the side effects have the most serious label
that the FDA can give,
which is called a black box warning.
And many patients, even though, let's be clear,
millions of patients have benefited from these drugs.
Millions of patients have benefited from these drugs.
But many patients, despite the benefit,
don't want to take them.
Yeah.
Many of them have to be injected,
so they're invasive.
many of them cost between $30,000 and $100,000 annually.
Oh, my goodness.
Many, if not all of them, have dangerous side effects,
and so people are reasonably concerned.
There's no guarantees for healing,
and it's like you have to stay on these things forever, it sounds like.
Not only is there no guarantees,
but in most studies, these drugs are effective about half the time.
So despite the fact they're invasive, have side effects,
and are expensive.
They work half the time.
They may not work, yeah.
So what's the point of?
all this the point is yes some people are benefited they don't need anything and
that's wonderful but a lot of people want other options and what this
Vegas nerve stimulation which by the time this airs may be approved by the
FDA in the United States if if not hopefully it'll be approved in the coming
months after this airs what that will allow is patients who have tried these
other therapies but as you said are not getting better in their body or their
mind that they now will have an option of having an implant the implant will be
put in it's about the size of a fish oil pill it'll be put in through about a
one inch or one and a half inch incision in the neck by a neurosurgeon right
about the level of your atoms apple down deep where you feel the pulse in
your neck you won't be able to see it and it will
operate for about one minute a day.
And many of the patients, I've met many of them,
many of the patients sleep through the therapy
at 4.30 in the morning or something like that.
Other patients told me that it's like a little alarm clock for them,
but when it goes off, they smile
because they realize immediately their hands don't hurt anymore.
Really? Yeah.
So it's a little chip that they implant.
Other side.
Left side, right?
Left side.
This is where the pulse is, right?
Yeah, you feel here on the left side.
next to the pulse and you've had over 200 and some people to already go through this in the last year so i exactly
so the the company's called set point medical it's not far from here in valencia and they completed a
clinical trial um last year uh that they reported the results and these are people that were having
extreme pains like for years all of these people were out of options they had they tried the drugs
they've meditated for years they've prayed they've done everything that
they can and they're just feeling pain.
Yep, pain, stiffness, swelling.
And many of them had symptoms of, in their mind,
of either anxiety, depression, sleep disorder,
cognitive abnormalities.
And what the results showed is not only did a significant percentage,
a statistically significant percentage
of the patients with the implant have improved pain
and swelling in their joints,
many of them also had an improved quality of life.
Less anxiety, less pain, better sleep, less depression.
And it doesn't require taking any drugs or invasive therapies,
except for one invasion, I guess, of putting something in your neck.
So that's going to remain to be seen.
Many of the patients were able, after the chip was implanted,
to reduce the drugs they were taking.
But many of the patients continued to stay on some of the drugs.
it's been 242 patients there are millions of patients that will be eligible for this worldwide it will
take years to have a clear simple answer to what you said what patients will be able to to take
fewer drugs what patients will have to continue taking drugs what patients will have no response
to this and what patients will live their life not taking any drugs anymore how those numbers
shakeout has to be studied in much larger populations, but I've met some patients who were taking
several drugs and are now taking none. Really? Yes, and having no symptoms. What has been the
biggest thing you've seen over the last three plus decades of research, hands-on experience,
and the science that you've been studying? What's been the biggest breakthrough you've seen
the last three-plus decades of just healing the body or body optimization?
I think the biggest breakthroughs I'm seeing today are actually coming from understanding
the linkages between the brain, the nervous system, and the immune system.
You know, the vagus nerve insight, which we started 25, 30 years ago, was just the tip of
the iceberg.
Right now, the field, which is called neuroimmunology,
is probably one of the fastest growing,
if not the most exciting fields in all of science.
Young people want to study this
because the tools are so powerful.
And just again, in the vagus nerve story,
we can go in a laboratory mouse
and we can put tags in the neurons of the brains of those mice
and we can shine a laser beam
on a discrete part of the mouse's brain
and activate a few hundred neurons in the brain and follow the signals down into the spleen.
And we can look at the molecules all along the way.
We can look at the electrical signals.
We can look at the individual steps.
Those kinds of experiments are now being applied to all kinds of conditions,
ranging from not only autoimmune disease, but diabetes, metabolic syndrome, and obesity.
We're seeing studies looking at understanding how
things like g lp1 ozempics how these things work these things are now all being broken down to
signals traveling in individual neurons not only in the vagus nerve but in the sympathetic nervous
system and in the neurons in the brain itself you're we're living in an era where we can map
the the starting point the origin and the location the origin and insertion of of
all the nerves in the body first first in mice then in
larger animals and ultimately in humans.
And with those maps, we will be able to design devices
and someday even drugs and perhaps nanobots
that can target the individual fibers
in an individual patient to give the treatment
that that patient needs.
Specific without side effects, probably.
Just to that thing, wow.
That's where the world is headed.
Is it gonna get there tomorrow?
No.
Is this some pie in the sky?
Everyone's gonna have a flying car.
100 years from now? No, this is happening. Some of the things I said are already in clinical
development. Wow. Now even though you're not a psychiatrist, have you seen any research on how
trauma impacts the brain, whether it be psychological or emotional or sexual trauma, how it
impacts the brain, the body, and the nervous system, and how we could stimulate the vagus nerve to
actually start healing that trauma? So it's complicated.
at this again at the simplest level if we have seen now if there's trauma in the vagus nerve or damage or injury
that um you can have problems in the body because signals traveling in the vagus nerve are not getting where they need to go
they're blocked somewhere yeah it's like imagine going down a mountain and the brakes in your car someone cuts the
brake line in your car that's happened to me before i mean it didn't cut like someone didn't cut them
but I was in an old Cadillac, a 1997 Cadillac,
going up a mountain to Big Bear in California.
And on the way down, the brakes gave out.
And this is like an old car where it's like pumping the brakes,
and I was, there was a guy next to me that was driving.
And I was like, we're going to die.
I was like, it's not breaking.
And I just shifted it down into like first gear, whatever,
and slowed it down.
And it came back a little bit around these curves going down.
And luckily, got to the bottom of the hill,
but it was scary.
You're lucky to be here.
It was scary, but it was like, this was probably 12 years ago, but it was terrifying.
So imagine that in your body all day long, like the brakes not working, and your vagus nerve is experiencing that.
It's probably what these people with rheumort arthritis felt like.
Interesting.
The brakes have failed.
They have excessive inflammation in their body.
The inflammation in their body is changing the way their mind is working and how they feel and their level of anxiety all day long, day after day, year after year.
It's exhausting.
It's exhausting. So that effect we understand. You asked about similar things in the brain. That gets complicated and is an area of active research, but it has come together very recently in studies of post-traumatic stress disorder. So post-traumatic stress is an example. A warfighter sees or experiences sees or feels some horrible scene and continues to relive it and relive that.
horrible event day after day after day even in the safety of their home you
know here in California or somewhere else it very recent study they implanted
Vegas nerve stimulators in those subjects and timed the activation of the
nerve now focused on sending signals up into the brain not down to the
immune system they time the signals so that the the therapy being given
either by an app or by a human therapist which is
reasonably successful, reasonably successful therapy. I'm sorry, I forget what it's called.
Again, I'm not a psychiatrist. But this therapeutic modality has been reasonably successful and maybe
helps half or two-thirds of the subjects with post-traumatic stress, which is pretty good, but not
100%. When they added the vagus nerve stimulation to the clinical trial, they had 100% response rate.
What does that mean? Well, what happens when you stimulate the vagus.
nerve and we're back to the mind-body connection again. Signals presumably going up into the brain
increase neuroplasticity. What is neuroplasticity? Neuroplasticity is the ability for those
connections that we talked about in the very first minutes of the podcast, which are called synapses.
Neuroplasticity means that the brain can form new synapses. When you learn something,
you form new synapses. When you unlearn something, you form new synapses. By driving the
driving these signals up the vagus nerve, increasing neuroplasticity, these post-traumatic stress
patients, many of them had had significant benefit from their therapy, and it was lasting,
is lasting. It's almost like they have to unlearn the memory. Absolutely. That's what the point
of the therapy is. Because the memory, if you're reliving it five times a day, it's almost like
your body's in that trauma now. It's a new experience when you live a memory again. Isn't that
interesting? This is, I mean, trial lawyers have known this for decades.
And so you could be living in a war that you went through 10 years ago, but your brain is
reliving it, rethinking it over, fresh, fresh. And so you're in that heightened state. It's
going to be chronic illness, right? Absolutely. And so it's really more about, is it about eliminating
the memory, changing the memory, reinterpreting the memory and creating meaning behind that memory.
So there's a benefit to it. Like, what, even though you're not a psychiatrist,
What is that process so we can actually heal the mind, the thinking of the mind that's causing the stress in the body?
Yeah, I think psychiatrists, psychologists, and philosophers are talking about this now and trying to figure out the answer to that.
You know, how much is unlearning, how much is relearning, how much is adapting.
But at the level of the synapse, which Charles Sherrington taught us, if you understand the synapse, you can assemble an entire nervous system with 100 billion neurons.
at the level of the synapse,
vagus nerve stimulation enhances neuroplasticity.
I mean, this has been known for decades.
Years ago, there was a fascinating study,
subjects, patients who had had an implant for their epilepsy.
So in these cases, these are people with serious disorders,
with seizures, epileptic seizures,
that are not well controlled by medications.
And some of these subjects were having,
20, 30 seizures a day.
Oh, my gosh. You can't go out of their house.
That's exhausting. So as an attempt to treat
that, Vegas nerve stimulators were
implanted in some of these seven, and about half of them
had significant benefit. Now, you say
at first, well, half's not a lot. Well, it's a lot
if you're having 30s, if you're one of the people having
30 seizures a day, and you go down to having
two or none or three.
It's life-changing.
Life-changing. So
during the course of
those experiments,
those clinical trials, some subjects didn't get significant benefits.
So they had their device turned off, but they left it in.
So researchers called them in for a clinical experiment,
and they gave them a cognitive test, and they wrote down the answers,
and then they turned the device on, and they gave the test again,
and their scores went up.
Interesting.
That was one of the early signs of the fact that vagus nerve stimulation
can improve cognitive function through enhancing neuroplasticity.
It's very interesting.
Wow.
That's now been FDA approved for the treatment of rehabilitation, increasing rehabilitation
from in patients who've had a stroke affecting the arm.
Wow.
So what's done is the therapist does their therapy,
but the delivery of the therapy is timed with giving vagus nerve stimulation
through the left neck, through a surgical implant.
And for patients who've had paralysis of the hands and arms,
the disabling thing is not being able to use the hands
to feed themselves, hold a newspaper, hold a book.
And the results from adding vagus nerve stimulation to that
are absolutely remarkable.
Really?
Where people were paralyzed in an arm or a hand?
And are significantly better with their rehabilitation
combined with the Vegas nerve stimulation.
Maybe it's not full range and function,
but it's like improved and exactly it's not necessarily full range of function but it's significantly
improved enough that the FDA has approved it and it's uh yeah it's coming in i mean for me i'm all about
trying to find holistic solutions to heal the mind and the body that's what i want for myself the people in my life
the people watching or listening around the world is there are people that have so many different
either conditions, pains, stresses, overwhelms. And I think a lot of these things stemmed from the
way people think and how they respond to their environment that impacts the fire or flight
tension, tightness in the body, which causes inflammation, pain, things like that, which then
could cause into your bowel syndrome or eczema or whatever it might be. And my whole
whole vision is to bring harmony and healing to humanity. So they have the tools to do this for
themselves and the people that they love. Because I think when people heal themselves and they
heal their families, the world is healed. It's like there's so much more harmony in the world.
There's less anger, resentment, wars, fighting, competition. It's more collaboration and more
community and that's my entire mission is to bring people like you who have the decades of
research the knowledge that the literal hands-on surgical knowledge and the research and the data
and so i'm curious how can we going back to the the soul how can we learn how to to heal the soul
with the different therapy strategies and techniques that you've learned as a neurosurgeon
uh i think you said it you said it best one person at a time so everybody
everybody's different and I think we can approach this with realistic optimism okay
again a first principle approach the vagus nerve is transmitting reflexes when
those reflexes are functioning optimally yes you have a harmonious function of the
organs in your body in a healthy state with your brain yeah in a healthy state
And we want brain, heart, organ, coherence, is what I'm hearing you say.
100%.
So we need the coherence of a just a smooth, a flowing machine, right, throughout all three systems, I guess.
What emerges from that coherence in all three systems is an emergent property.
You can't predict plucking one string on a violin what the whole symphony will sound like.
But the one string on a violin gone bad can make the whole,
orchestra sound terrible. Right. That's what the Vegas nerve is like. Interesting.
It's like the, it's like one of the 200,000 Vegas nerves. Yes, yes. Is like 200,000 violin
strings. It's the difference between playing the piano, if the piano had 200,000 keys,
and sitting on it. Right. So that's the role of the Vegas nerve. Now, that's a fact. But let's not
get carried away, let's not, let's not say that the vagus nerve is the answer to solving all those
things. It has, it's a violin string. It has a part. If it goes bad, it can affect all those
things. So what do we want to do with our interventions is we want to do our best to help keep
the violin in tune. In tune. Yeah, yeah. Now you can do that. It gets complicated quick, right?
It gets complicated quick. You can do that by making sure you have the best conductor.
Uh-huh.
It's yourself.
Your mind, I guess.
Well, way up there.
Your mind.
Your mind.
And you can do that by making sure you keep the instrument in tune.
Yes.
Which would be the level between your mind and the violin strings.
It would be the middle of your brain where you want to, your emotional brain.
Uh-huh.
Okay?
Which if it gets all fired up, it's going to put everything out of tune.
So, once again, I just don't want to rush into any answer.
Yes.
and say, you know, if the conductor has a heart attack,
the orchestra is going to go out of tune.
Exactly.
If you're, if you're, if you're, if you're, if anxiety or some other emotional interfere, anxiety, fatigue, hunger, go, dominates,
cranks the key too hard on the top of the violin, you're out of tune.
Yeah.
If, if the, if you've got damage in the vagus nerve from an.
infection or an injury, you've broken violin string, you're out of tune.
And at the other end, don't forget the body, if you got that inflamed finger again,
which is now pulling on the other end of the violin string, you're out of tune.
Yes.
So which one do you want to talk about first?
It's all going to work in unison.
It has to all work in unison.
And I get the reason I spend so much time on this in this book is because there's so many quick fixes on the
internet. And they're all, not all, many of them are rooted in one of those things. But you need
all of them, all those things to be working together. Maybe in you and me, three out of four
are working right now. We only need to worry about one of them, but we don't know which one.
So how do you self, become self-aware on which one is off? How do you know what's at a tune?
Well, I don't. I mean, obviously, if you're, if you're, if you're, if you're feeling stressed and
anxious. You could start with that first. Yes. What would you say then is the if someone is living in
fear throughout their mind constantly, they just have fearful thoughts at work or their relationship or
their home or whatever it might be or you know, they're watching too much chaotic news and they're
just living in fear and stress or they're overwhelmed constantly or they're just feeling like
these heightened stressful thoughts and emotions. How much is that impacting the vagus nerve and the nervous
system and blocking us from feeling in harmony with our total body health a lot really a lot yeah no
the evidence for that is clear so first of all i'm not a psychiatrist i'm not a therapist i'm not
recommending any sort of therapy for someone who has that much fear and anxiety and that should
be talking to someone you know second because it impacts the body in a big way the nervous system
of the vagusiness absolutely it what what we know is patients who are
experience that kind of emotional or mental anxiety, fear, and stress tend to have increased
heart rates and decreased heart rate variability. Now, those are functions of, those patients tend to
have increased heart rate and increased heart rate variability. Heart rate and heart rate
variability are the product, are under the control of the autonomic nervous system. Heart rate
is slowed when the vagus nerve is active, and it's sped up when the sympathetic,
nervous system is relatively more active. That variability in speeding up and slowing down is measured
by heart rate variability, which many people now, millions of people are looking at all the time
on their wearables. Heart rate variability is very complicated. Where do we want our heart rate to
be at most of the time? In general, we know from the Framingham study, which looked at thousands
of people and an even much larger study out at France, in general, you want a lower heart rate
at rest rather than a faster heart rate.
At rest.
At rest, what we know from these huge population studies is that populations with a slower
heart rate tend to live longer than populations with a faster heart rate.
Now, before all your listeners run and check their pulse and say, oh, my pulse is 80,
it doesn't mean that they're going to have a short lifespan because you can't take
a population statistic and apply it to an individual. If you could do that, you would buy the right
lottery ticket. Okay, statistically, statistics from a population cannot be reduced to a single
individual. But it's still very interesting that at a population level, slower heart rates,
meaning more vagus nerve activity relative to fight or flight, tend to live longer than those with
faster heart rates. Why is that? Well, no one knows. One possibility, it's because if you have
a slower heart rate you tend to have a healthier vagus nerve function that may also be slowing
inflammation we don't know there's 200,000 fibers it could be that the fibers to your heart are
working fine and the fibers working right to your immune system or not but that kind of logic
leads people to um hope that if they can slow their heart rate through healthy habits like regular aerobic
exercise, eating a balanced diet, getting enough sleep, all the things your grandmother and
your doctor tell you to do. Avoid too much anxiety and stress. Meditate if you have a lot of
anxiety and stress. Prayer, yeah. Prayer, cognitive behavioral therapy. All of these things
slow your heart rate. Isn't that interesting? Yeah. It's good tools. If you use them,
if your doctor says it's okay, those are all safe, good tools in most patients. And if you use them,
and if it slows your heart rate, you're probably doing a good thing for your body.
You ask me what I do.
I do those things.
Yeah.
Interesting.
And so what's the difference between the vagus nerves system and the nervous system?
The vagus nerve is part of the nervous system.
Okay.
So one way to think of the nervous system is that you have a brain and a spinal cord.
The spinal cord, of course, runs down from the base of the brain in the back, through your spine.
And it's principally involved in coordinating all the muscles that you can put under voluntary control.
When you want to throw a basketball, hit a golf ball, sign your name, button your shirt.
These are all, this is the voluntary nervous system.
Because when you think something, it's connecting, I guess, the wiring throughout your body to move.
Like my hand movements right now, it's like it's just automatically connecting it.
correct when you think nerves in your brain generate the thought and the intention and because that's
what a thought is it originates in nerves and those nerves are connected to the voluntary nervous
system which sends signals down your spinal cord to control your muscles under voluntary control
but if something is not being transmuted smoothly you're saying it's not necessarily the cable or the
nerve, it's the network. It could be either or both. And that goes back to your first question.
Uh-huh. So if you think for a minute about one example would be what happened with COVID.
We know from COVID that many of the patients that died, and this is work out of Spain,
towards the end of the pandemic, pathologists and researchers looked at the vagus nerves of people
who died from COVID, and they found two things. They found inflammation.
and damage to the vagus nerve, and they found virus in the vagus nerve.
Now, knowing what we know today, that signals in the vagus nerve are like the brakes on
your car that suppress inflammation, and knowing that the signals that travel up and down
the vagus nerve are critically important in controlling heart rate and blood pressure and
breathing, part of the autonomic nervous system, which we haven't gotten to yet, those
are two of the major complications that occur in long COVID or in post-COVID syndromes.
So we don't have the answers yet. These are real interesting scientific questions that did damage
or does damage to the vagus nerve contribute to or even cause long COVID, which is characterized by
excessive inflammation and malfunction or dysfunction of the autonomic nervous system.
And what is the autonomic nervous system?
Okay, so we talked about the voluntary nervous system.
The autonomic as an autonomy is the involuntary nervous system.
And it's the part of your nervous system that, first of all, you never think about it,
but it's controlling your kidneys and your intestines and your heart and your lungs and your pancreas right now.
All day long, every second, every day of your life.
the signals from say glucose levels in your liver are going up the vagus nerve the sensory vagus nerve
into your brain the autonomic part of your brain the autonomic nervous system receives that input
and says oh this guy needs a little squirt of insulin now or a little squirt of glucagon if your
glucose levels are low those signals come back down some of them in the vagus nerve which is
is the parasympathetic part of your autonomic nervous system.
And some of the signals come down, your sympathetic nerves, which is the other part of the
autonomic. So the autonomic has sympathetic and parasympathetic, but they work together.
Got it. Okay. I need to go back to science class. You know, biology and science.
It's not that bad. I know. If you put it in the context of this stuff, you're interested in.
Exactly. It's fascinating to me. Now, as someone who's done over a thousand,
brain and spinal surgeries, I guess of the ones that weren't through some type of force or
impact where you had to repair something like a car crash or some type of injury in that way,
more of just, oh, there's a tumor or there's something off at the spine, how much of those in
your either scientific research or personal opinion, how much of that is caused by someone's
lifestyle, someone's thinking, someone's mindset of those tumors, spinal issues occurring?
There's no evidence that brain tumors or cancer are caused by mindset. There's no evidence of that.
But in your personal opinion, do you feel like there could be? I don't think so. No, I don't
chance. It's just like, oh, there's something off in the system and it's just, oh, that just... Well, I think
there's a lot of evidence that cancer originates from, um,
genetic mutations in DNA of replicating cells that now just keep growing when they're not
supposed to grow and where do those where does that come from is that it can come from a it can come from
a beam of ionizing radiation from outer space that hitch in the head really absolutely it can
come from some exposure to something in the environment when you were two years old they can come
there's there's a there's a there's a it's a whole it's a it's a whole field of its own
and I'm not an expert in that field.
However, it's pretty clear that the origin of cancer has a basis in genetic change.
Interesting.
And that doesn't mean inherited.
It can be, but it doesn't mean it is.
So it's not, there's no evidence it's from the activity of the nervous system.
What's really interesting is that there are some new therapies that are used to now treat brain cancer,
that are treating the cancer by putting in modulating electric fields
that actually slow the replication of the cancer cells.
And so there you have another example of bio-electronic medicine,
which is what we call putting the chip on the vagus nerve in the neck
because we're using electronics to treat the nervous system.
Here you see this as possible in some patients with brain cancer.
Interesting.
How influential is the nervous system versus the immune system within the body?
They're the same thing.
It's the same thing.
The nervous system and the immune system is the same thing.
They talk to each other.
They use the same molecules.
So for years, I joke about this a lot, but back when I went to medical school and in several decades since, when the immunology professor was giving a lecture, she would tell.
the neuroscience students, they could take the day off.
And when the neuroscience professor was giving a lecture, vice versa,
he would tell the immunology students they could go home.
Why is that?
Because there's a blood-brain barrier,
which separates and filters things
that can travel through the bloodstream to get into the brain.
And it's like a firewall.
Now, the immune system for centuries was thought of as white blood cells,
which float around and are not attached to nerves.
And the nervous system, of course, is about nerves.
So, okay, two separate things, nothing to do you.
Well, it turns out that white blood cells in the spleen, in the liver,
and many other organs come in contact on a regular basis with nerve endings.
Right.
What happens there?
Well, white blood cells, it turns out, have receptors,
meaning they can respond to neurotransmitters, which are made by nerves.
Okay.
Oh, by the way, it turns out nerves can make molecules like,
like cytokines, like cytokines storm from COVID,
things like TNF and I-O-1 and I-L-6,
those were thought to be only made by immune cells.
So they're using the same molecules to send signals back and forth,
nerve to nerve, nerve to white blood cell,
white blood cell to white blood cell, white blood cell, the nerve.
You tell me where to draw the line in two separate systems.
Right.
By the way, the nervous system makes memories.
So does the immune system.
Those are those, you know, you talk about muscle memory
when you train and train and train and train
and you can do something like without thinking about it,
that's actually in your nervous system.
The nervous system makes memories.
You get exposed to a virus or an infection.
The first time and chaos breaks loose
in the defense, you have massive amounts of inflammation.
The second time, the immune system,
not so much because it's made a memory of that attack.
So that's the hottest area of science, I think.
In all your years, Kevin, of science, of surgery, of research, you know, you're an inventor,
you have all these patents.
You're one of the most cited scientists in the world right now.
With all your success, what would you say has been the key to your success?
from a researcher, a doctor, an entrepreneur, an author.
What has helped you create abundance in your life?
What would you say of those factors?
Having a strong personal philosophy.
What's that philosophy?
That I wanted from a very young age to spend my life working on things through science,
making discoveries that would help people.
And you're right, I've had the good fortune, the privilege of,
working on lots of different things but as you know when you do that sometimes
things get hard sometimes things don't work out sometimes it takes a hundred
experiments to have one that works sometimes you have to write 20 drafts of a
book to get one that's published in those times if you don't have a powerful
personal philosophy a guidepost a mission an objective and a plan to get
there no matter what, then I don't know how people do it without a strong personal philosophy. And I talk
about this with sincerity with you because I worry that young people today, you talk about how
much anxiety there is. I think a lot of that stems from the fact that young people today are not
spending enough time developing a strong personal philosophy. What does life mean to them?
What do they want to accomplish in the time that we have here on this earth?
Who do they want to help and benefit and why?
And without that, it's just, I can't imagine getting through it.
With that, you can do anything.
Without a purpose or a vision or a mission or a game plan, even for the next six months,
you're kind of asking yourself, what am I doing every day?
Why is this happening to me?
Why am I not getting what I want?
When you're not clear what you want, it's hard to go create what you want.
What would you say then is one of the hardest things you've ever personally been through in life?
Two deaths.
Really?
Yeah.
I mean, the death of my mother.
What you talk about in the book, yeah.
Yeah, when I was five, she died unexpectedly, very suddenly of a brain tumor.
She was 29, I think, or in her late 20s?
Late 20s.
And my father had me and my brother and sister, Tim, was three and a half, and my sister Sharon, was an infant.
Wow.
And you were five?
When I was five.
Wow.
My grandfather, my mother's father, I was a professor of pediatrics at Yale, medical school.
And I remember sitting on his lap and saying, you know, why didn't the surgeon take the tumor out?
And he said, well, because it was great.
growing in her brain and it had almost had like legs that were stuck in different parts of the brain.
And if I had pulled the tumor out, it would have damaged multiple areas.
I said, well, grandpa, somebody should do something about that.
And he said, maybe you will.
Wow.
And I remember that like it was yesterday.
And then the second death that influenced my career was a little girl named Janice when I was training to be a neurosurgeon at the New York hospital.
in the Upper East Side of New York.
And Janice had been crawling across the kitchen floor
when her grandmother was cooking dinner.
And just as grandma turned to drain a pot of boiling water
in the sink, she tripped and spilled all the boiling water
on Janus.
And it was horrible.
It was absolutely horrible.
Her face wasn't burned.
She had this angelic, beautiful face.
Well, the rest of her body, her back was burned.
Her whole body, 90%.
Oh, 11-month-old.
11 months. So her chances statistically of surviving. We knew when we met her were almost zero. But we started calling her our miracle baby because after almost a month in the hospital, she kept battling back. She was incredibly resilient. And I won't go into all the details. But we got to thinking about sending her. Maybe we'll get to send her home. We'd be a miracle. I was standing in the doorway to her room. And she was rocking.
in the arms of a nurse who was giving her a baby bottle at lunchtime and Janice's eyes rolled
up in her head. I ran in the room. I put her in the crook of my arm. Her heart had stopped.
I gave CPR. I gave her mouth to mouth. And called the cardiac arrest. The whole hospital was
there in minutes. And the code went on for, it felt like hours. But everything was perfect in the code.
was gone. So I had to tell her mother. And it was horrible. It was absolutely horrible. I didn't know why she died. Did not know why she died. Couldn't explain it. We all thought she, there was no reason she should have died. She was improving it looked like, right? She was improving and there was no evidence of infection, but the, you know, I had to write on the, on the death certificate cause of death septic shock, which means some unseen infection had caused her heart to stop. And, uh, so.
So pretty much then and there, I decided I'd go in the laboratory and try to understand the inflammation that led to Janice's shock.
And that's what I've been doing since 1985.
Wow.
Still working on it.
Still working on it.
Really?
Because there's no, I mean, if someone's getting better from something like that, but I guess septic shock can still kill someone, like, in a moment?
Septic shock can kill very quickly.
Really?
it's less septic shock can kill very quickly it's less lethal now than it was in
1985 we have better ways of treating it but there's still no clear understanding of
who it will affect and when what we know today are the molecules that some of the
same molecules actually that cause inflammation and rheumatoid arthritis are the
molecules that in large amounts massive amounts cause septic shock but it
can come on so quickly, we can't always, always prevent it. In Janice's case, I'm not sure
even today we could prevent it, but I'm pretty sure that the molecule that killed Janus is
called TNF, and that's the molecule, one of the molecules now that is the target of the
biologic drugs that are used to treat rheumatoid arthritis, which is also stopped by
vagus nerve stimulation. Wow. Dr. Tracy, I want to acknowledge you for your
personal philosophy and your mission and your purpose over the last, you know, three, four decades of
getting into the field of medicine, neuroscience, uh, and trying to understand how to heal the body
and the minds and all these things, how they're all connected, which is a symphony of, of nerves
and cells that we still don't really understand a lot of it sounds like, but you've committed
your personal philosophy and your mission and your purpose to figuring these things out and
bringing healing, hope, inspiration, and tools to provide better lives for people.
So I want to acknowledge you for everything that you've created up until now, your new book,
The Great Nerve, the new science of the Vegas nerve and how to harness its healing reflexes
is out. People can pick up a copy. I'm curious, what is your personal philosophy now after
all the success you've had, the impact you've had, what is your personal philosophy now
after this book in the next decade or two
that you're working on.
Collaborate don't compete.
That's number one.
I counted recently, I have more than 1,100 co-authors.
Wow.
And co-inventors.
That's pretty cool.
It's a blessing to be able to work with brilliant people
and collaborate with brilliant people around the world.
There's no, this is not I and me in this story
that you just summarized.
This is us.
It's huge numbers of people who, like me, have committed their lives to science and to medicine and to helping other people.
And when you work with people like that, you can do anything.
And the second group that has to be acknowledged are the thousands of patients, millions who are suffering,
and the thousands who step up to come to, and the thousands who step up to participate in clinical trials.
and in clinical research because, first of all, you know, you acknowledge my colleagues and me
with this praise and these kind words and thank you. However, they're the ones that need
help and they're the ones that need the acknowledgement and they're the ones to take the risk.
I get to try to do things with my brain and my colleagues and my lab and clinical trials.
I enjoy it.
Yeah.
It's my passion.
It's my life's work.
I love it.
They suffer.
And they participate and they volunteer and they step up anyway.
So if anyone deserves credit in this, it's the teams that do the work and the patients that step up and participate and then advocate.
Yeah, it's a big risk for them.
They don't know what's going to happen.
We don't know and they don't know.
I mean, Albert Einstein said it best.
If we knew what it was we were doing, it wouldn't be called research.
wouldn't be called research, wouldn't it?
Yeah.
So patients step into this into a research trial
and we honestly say, this is what we think,
this is what we hope, this is what we want,
but we don't know and they say, I'm in.
Wow, that's scary.
But you have to come from a desperate place
essentially to say I'm in
because the pain is so great that you're like,
anything that could potentially help this is worth the risk.
And some people who are arguably not quote unquote
suffering that much they step in because they want to help other people wow man that's powerful what
would you say is the biggest personal challenge you're faced with at this season of life
i think we're entering an era of of anti-science which is um which is there's going to be a challenge
um the idea somehow that you can do science quickly and for free
is on the rise.
There's an idea of cutting this and cutting that
because we've solved all the problems.
I just think you can look back for a minute at the 1920s.
The world was coming out of a pandemic
that killed tens of millions of people.
Really?
Wow.
Tens of millions.
Look at the numbers versus the last pandemic.
It's orders of magnitude, more deaths worldwide.
we were on the heels of a massive disinformation campaign in the media
because during World War I,
news of the pandemic was suppressed by the countries that were fighting in the war
because they didn't want the enemy to know that the young, healthy men were dying
and cutting into troop supplies.
They didn't want the troop numbers known.
There was a rise in the United States of eugenics
and the sterilization of tens of thousands of women and some children,
mostly because of either low IQ, poverty, or the color of their skin, disproportionately women.
This was sanctioned by the Supreme Court.
And this all culminated in a trial, which became known as the Scopes Monkey Trial,
in which a teacher in Tennessee was arrested for teaching evolution.
The judge at that trial testified that scientists could not testify because it wasn't a scientific question.
Interesting.
Dozens of other states adopted those laws.
banning the teaching of evolution in school.
This lasted for 10 years.
This anti-science, anti-intellectual period lasted for 10 years
on the heels of the pandemic.
What brought us out of it?
Why am I realistically optimistic that we'll come out?
1932, the discovery of sulfonylamide,
the first antibiotic that was widely available
was given to Winston Churchill,
who was critically ill,
perhaps dying of pneumonia.
He survived, obviously,
and led the Great Britain through World War II.
Soon after that, penicillin,
blood banking came on board in the 1930s.
And during the Coconut Grove fire, a disaster in Boston,
the availability of a blood bank saved dozens of lives.
This spawned the regionalization of blood banks,
eventually worldwide.
That enabled transplant surgery.
So why did we come out of it?
because everybody is going to need a new cure someday.
Everybody, you know, the person who's healthy has 10,000 problems.
And the person who's sick has one problem.
You have a politician's son or daughter or spouse or grandparent or best friend
gets a critical illness and we don't have a therapy.
All of a sudden, science and research are going to look pretty darn important again.
Yeah. We're in a cultural person.
period now where all the forces seem to be aligned against that. There's a major pushback
against doing science that takes years to make the cures that we're using today, never mind
the ones that we're going to use in a couple years. The cures we're using today were invented
10, 20, 30, 40 years ago. We take them for granted. We're going to have diseases that continue
to injure and disable and kill people. And at some point, the pendulum will swim back. And when that
happens. Hopefully, hopefully the United States and the global medical science research infrastructure
will have survived this period and come out even stronger. That's powerful. As a neurosurgeon
who's done over a thousand brain and spinal surgeries, what is the number one skill you wish
every human being could learn to master to help them improve the quality of their life?
uh i think be in the present and listen to the person you're talking to the person you're talking to
will always tell you how you can help them if you listen carefully enough
you think a lot of people are not living in the present i think most people are not living in
the present do you i think they're living in stress or overwhelm or like but that's not the
present exactly yeah yeah i know they're like living in like some type of fire or fly
or stress or like thinking about the future what they need to do or remembering some terrible
thing from the past that's not the present yeah i mean yeah no it's it's not easy
you know i i don't think i don't think uh you can go on a on a website and get a quick fix
i i think it requires once again a a commitment to a personal philosophy to decide what it is
you want to do and why you want to do it and pursue that um are you someone
that practices meditation or prayer or what are some of the therapies that you practice that are
non-surgical or non-medical related, I guess, to support you staying in the present?
I think the advice that grandma gave you and hopefully your primary care physician, you know,
eat a balanced diet, get enough rest, exercise regularly, be engaged in your family,
community, friend groups, have a hobby, read, these are all critical things, I think, to
having balanced homeostasis in your life. I mean, if the vagus nerve is anything, it's a symbol
of homeostasis imbalance. In addition, I think you can supplement those things with meditation.
I do try to meditate every day once or twice, just five or ten minutes. I do. I do
mindfulness meditation or breathing meditation.
I try to take a cold immersion several times a week, not because it's relaxing,
but because it's a massive stimulus to fight or flight, which is anti-inflammatory.
I mean, when you fall in the cold water or switch the shower to full cold and you feel that
I got to get out of here, and this hurts, and I don't want to do this, that's fight or flight.
And that's a good thing.
High levels of fight or flight, as long as your doctor says you don't have a heart condition, high levels of fight or flight are anti-inflammatory.
And then I'm fascinated by the process, because if you stay there, you've done this.
Of course.
I did yesterday.
Yeah, yeah.
It's cold.
What happens?
It's like everything slows down.
Yeah.
And you feel almost like you're watching somebody else do it.
It still hurts.
Right?
Painful.
It is.
It doesn't stop being painful.
But it's a weird place watching that's parasympathetic.
That's vagus nerve.
That's when your heart rate slows down.
That's anti-inflammatory.
Yeah.
And you told me before that you were one of the scientists
that studied Wim Hof, who drew his blood at some point
when he was meditating or doing breathwork.
Is that right?
Like 15 years ago?
Yeah.
Before he was Wim Hof, before anyone know who he was.
Back a long time ago, like 2010, he visited the last
lab, I had met with His Holiness the Dalai Lama up at Phoenicia, New York. He has a property there
on top of a mountain. And it was a meeting that the Dalai Lama had hosted of scientists and
researchers. And so through the Dalai Lama's network at Menla House in New York, they
introduced me to, they said, we really want you to meet this guy Whim Hop. I said, fine,
bring him to the lab. So he came and the lab I run with my colleague, Sangeeta Chavan,
Sengita and I run the lab together and we said, well, you know, what are we going to do?
We had to get an IRB protocol, which is institutional, institutional review board, a human subjects
protocol. They did that for us on an emergency basis. And we decided we would study,
Wimhoff's immune response
after he did his
whatever
breathing techniques.
Well, we didn't know.
Yeah, you're like, all we knew, it's like
he says he can control his immune system.
That's all we knew.
This is 15 years ago.
This is not now.
Not when everybody was.
Yeah, yeah, yeah, yeah.
So he went and
we brought him into our
clinical facility and
we drew his blood.
And then we shut the door.
He said, okay, do your thing.
And we went and got a cup of coffee.
And we came back like,
two or three hours later, and drew his blood again.
And he said, what happened?
I said, we have to analyze your blood, come back in a week.
He's like, tell me now.
Yeah, he's crazy.
Tell me now.
So he comes back in a week, and he goes, and we said,
what did you do when we left you?
He said, I breathe like a motherfucker.
Yeah, it sounds like him.
He said, why?
And I said, because you lowered your,
your inflammatory response,
which we measured through a very specialized assay in our lab,
you lowered your inflammatory response by like 75%.
He goes, are you going to publish me?
I said, I'd love to, but I can't publish you.
He said, why?
I said, I can't publish you're an N of one.
I have to do a, St. Guedon, I have to do a proper study.
With like 100 people at least or something or maybe you're.
We said 20.
We said get 20 people, teach 10 of 10.
them your breathing method and then 10 of them not and then switch the groups and do all the tests
and see what happens and um did you guys do that so he said what would that cost and i said oh probably
you know three quarters a million dollars something like that it's expensive to do these things
and he said well i said can he was there with with a group of businessman i said you know
and they said we'll get back to well they didn't get back to me but that's okay because a couple
years later, I was reading the scientific journals, and I saw an article from my colleague
in Amsterdam, Peter Pickers, who runs a big research lab. He did it. He did the study.
In Amsterdam, there you go. Not Amsterdam in Holland, but in a different city. I forget
which city. And he did the exact study with 10 people, and the 10 people that breathed
lowered their inflammatory response. What's that mean? They lowered their inflammatory response. What's that
mean they lower their inflammatory response so what we did was we took the white blood cells
from from from from we took the whole tube of blood that has white blood cells and we added a
an activator that makes the white blood cells inflamed to make lots of cytokine cytokine storm in a test
tube tnf i.m1 aisle 6 so you almost inject it with like the tube the blood yeah yeah the tube so we
we didn't have to inject sure sure him we just injected his white blood cells with like a like a
A toxin, a virus, a toxin.
A bacterial toxin called endotoxin, lipopolysac.
And the results were remarkable in the subjects that breathed.
They lowered their cytokine release in the blood by 75%.
Meaning they were more resistant to getting an infection or...
They were more resistant to having a damaging amount of inflammation.
So inflammation in small amounts for the right period of time is good for you.
Yeah, you sprain an ankle, you want to have a little inflammation.
You need inflammation to heal the ankle sprain.
You need inflammation to fight off the infection in your finger or your arm.
You need some inflammation.
People with no inflammation because they're immunosuppressed, they can have serious complications.
You want inflammation.
Inflammation is not all bad.
It's all bad when it's excessive.
So the Wimhop breathing gave a reduction of inflammation.
Why?
That's the next question.
Well, it turns out in Peter Picker's study where they injected the endotoxin into the people, not into the...
Oh, my gosh.
So the people that got injected got fairly sick.
The people that breathed first got much less sick, much less headache, much less nausea, much less fever.
and Peter measured hormones in the blood of those people and found that there was a massive
fight or flight response. So breathing in the Wimhoff method, it's breath holding. It's like a,
is it called tantronic? Yeah, it's like a system that's like you try to do it for like a minute
or two deep breaths in and out intensely. And then you breathe all the way out and you hold
at the end. And I've done this many times where I've held for two, two, two and a half, three minutes
a couple of times with no breath in my lungs.
So I guess you're oxygenating the blood and you're...
What you're doing is I've done it too
and I've gotten up to three and a half minutes also.
But what's weird is the three and a half minutes
and you're still not really sure you really need to breathe.
Yeah, you're just sitting there and you're vibrating.
Your whole body's vibrating.
You're just no air in your lungs.
But what you do have at that point
is you have very high carbon dioxide levels.
What does that do?
To the nervous system or to the Vegas nerve?
Well, the carbon dioxide, the rising carbon dioxide
is what's screaming at your brain to breathe.
It's not the fall in oxygen.
It's the rising carbon dioxide.
And as carbon dioxide rises,
it also increases the ability of your hemoglobin
to carry oxygen more efficiently.
But that wasn't the main effect on the immune system.
It was, in fact, the fight-or-flight response.
So with the massive urge to breathe,
with the accumulation of carbon dioxide,
that horrible feeling you get, the shaking,
that's catechola beings.
That's epinephrine and norapherin from fight or flight.
That massive amounts, we talked about it before,
massive amounts of fight or flight turn off inflammation.
That's one of, that experiment in Wimhoff breathing people
was one of the proofs of it.
Another one, my colleagues and I in New York years ago,
we infused those hormones in volunteers in sailors and marines on shore leave and we infused them with
those hormones epinephrine noropenephrine and even cortisol and then we injected them with endotoxin to make
them sick and the ones that got infused first were less sick interesting yeah wow so so i think
whim-hop breathing which by the way you did it on a couch i saw your uh-huh yeah that's
or your YouTube. I did it. I do it. Not every week, but every few weeks I do it after a workout.
I lie on my gym floor. You shouldn't do it in a pool. You shouldn't do it driving a car. You shouldn't
do it up doing anything dangerous. And if you have any condition, you should check with your doctor
and do it with a colleague. Or do it minimal. You know, you don't have to push yourself that far.
So you still do it today every now and then. Oh, absolutely. Yeah. And you see the benefits.
You know the benefits. I don't know the benefits. I like the way it makes me feel.
I mean, Mr. Hoff says it's a great time after you do that to do an extra 10 or 20 push-ups.
Yeah, I've done it.
I have two.
It's weird.
Yeah, yeah, it's crazy.
Yeah, yeah, it's crazy.
It is very scary.
He had me do push-ups first and then do the breathing and then do push-ups after with no air in my lungs.
You could do more.
Do more.
Yeah.
It's interesting.
Yeah, it's very interesting.
So you could breathe and do as many as you can, then stop, then do the breathwork for three minutes, and then do blow all.
all the air out of your lungs, hold it, and then do push-ups.
You can do more.
I mean, you talk about a personal philosophy and a guy who's compassionate and really wants
the world to be better.
That's him.
Yeah, he's great.
You know, he, I remember after I told him I couldn't publish him, he said, what should, and
I said, I did say, if you do this experiment with the 10 or 20 people and publish it, you'll
make the world a better place.
And he's repeated that story on several other podcasts around.
And it makes me feel good.
That's good.
It is good.
That's amazing.
Dr. Tracy, I appreciate you being here.
I have two final questions for you.
This is called the three truths.
So imagine it's your last day on earth many years away.
You get to live as long as you want.
But for whatever reason, all of your written work, your publication, your scientific research,
for whatever reason, we don't have access to it anymore.
But on your last day, you get to leave behind three things you know to be true,
whether it's from your personal experience in life,
your personal philosophy, your lessons,
anything you can think of,
what would be those three lessons you would share with the world?
Yeah, you find love and true meaning and joy in your family every day.
that would be number one well number two is um a single person working diligently for a lifetime
can can change the world and we all have the opportunity to do that that that would be
that's that that's a second truism um and number three is probably related to that but
human beings people don't have um any problem accomplishing their goals they have problems but any
goal can be accomplished the hardest thing for a person to do is is to pick the goal
if everybody knew that and spent more time picking their goals the world would be a better place
Dr. Kevin Tracy, the Great Nerve,
make sure you guys get a copy of this book
if you want to learn how to optimize your health
and learn how to harness its healing reflexes
of the Vegas nerve.
Final question for you,
what's your definition of greatness?
Leaving the world better than you found it.
Kevin, thanks for being here.
Thanks for having me.
I really appreciate being here.
Amazing.
I have a brand new book called Make Money Easy.
And if you're looking to create more financial freedom in your life, you want abundance in your life,
and you want to stop making money hard in your life, but you want to make it easier.
You want to make it flow.
You want to feel abundant.
Then make sure to go to Make Money Easybook.com right now and get yourself a copy.
I really think this is going to help you transform your relationship with money this moment moving forward.
I hope you enjoyed today's episode and it inspired you on your journey towards greatness.
Make sure to check out the show notes in the description for a full rundown of today's episode
with all the important links.
And if you want weekly exclusive bonus episodes with me personally, as well as ad-free listening,
then make sure to subscribe to our greatness plus channel exclusively on Apple Podcasts.
Share this with a friend on social media and leave us a review on Apple Podcast as well.
Let me know what you enjoyed about this.
episode in that review. I really love hearing feedback from you and it helps us figure out how we can
support and serve you moving forward. And I want to remind you if no one has told you lately
that you are loved, you are worthy, and you matter. And now it's time to go out there and do
something great.