The Diary Of A CEO with Steven Bartlett - Vitamin D Expert: The Fastest Way To Dementia & The Dangerous Lie You've Been Told About Sunlight!
Episode Date: July 17, 2025Is your daily routine ruining your health? Is THIS habit silently triggering dementia? Vitamin D Expert Dr. Roger Seheult reveals how sunlight exposure, caffeine intake, and sleep can impact cancer... risk, accelerate dementia, and fry your dopamine brain! Dr. Roger Seheult is a world-leading doctor in internal medicine, lung health, critical care, and sleep medicine. As co-founder of MedCram, he’s helped millions understand how vitamin D, sunlight, mitochondria, and circadian rhythms impact disease, brain health, and longevity. In this powerful interview, he explains: ◻️How just 2 minutes of morning sunlight can boost dopamine by 250%. ◻️The daily habit increasing your cancer risk (and how to fix it). ◻️What caffeine does to your sleep, hormones, and mental clarity. ◻️How red and infrared light boost your mitochondria. ◻️How sleep, light, and nutrition create a blueprint for longevity. 00:00 Intro 02:27 What Is Roger Aiming to Accomplish? 03:28 The 8 Pillars of Health 09:13 Story of Henry: A Fungal Lung Disease Patient 20:40 Why Our Mitochondria Need Sunlight 27:46 Sunlight and Viruses: Impact on COVID-19 30:00 Vitamin D and Lower Risk in COVID Patients 33:55 Benefits of Using Infrared Light Devices 47:50 Could More Sunlight Help You Live Longer? 51:20 Does the Sun Really Cause Melanoma? 54:37 Are Humans Meant to Live Outside? 57:31 Is It Worth Wearing an Infrared Light Mask? 59:31 How to Get Infrared Light on a Cloudy Day 01:08:14 Optimal Time of Day to Get Sunlight 01:09:34 Circadian Rhythm and Light Exposure 01:11:28 Benefits of SAD Light Therapy 01:13:02 Can Looking Through a Window Help Circadian Rhythm? 01:15:11 Why Should We Avoid Bright Screens at Night? 01:17:31 Should the Bedroom Be Completely Dark at Night? 01:19:23 Do Vitamin D Supplements Work? 01:21:14 Possible Consequences of Vitamin D Overdose 01:22:02 The Role of Vitamin D in the Body 01:24:00 Do Cravings Signal Nutrient Deficiencies? 01:25:35 Water’s Role in the Body 01:27:20 Interferons and the Innate Immune System 01:32:52 Importance of Hydration for Fighting Infections 01:34:35 Should We Use Hot and Cold Therapy Together? 01:36:10 Impact of Tree Aromas on Immunity 01:38:44 Do Indoor CO₂ Levels Matter? 01:39:30 How Can We Optimize Indoor Air Quality? 01:40:37 Faith as a Way to Deal With Stress and Anxiety 01:42:42 Conditional vs. Unconditional Forgiveness and Stress 01:45:55 Are People Who Believe in God Generally Healthier? 01:47:34 Roger’s Experience Witnessing Death 01:49:14 A Miraculous Story: Anoxic Brain Injury Recovery 01:59:17 Should Hospital Patients Be Taken Outside? 01:59:57 Are Melatonin Supplements Good for Sleep? 02:00:45 Side Effects of Melatonin Supplements Follow Dr Roger: Youtube - https://bit.ly/452IbrP X - https://bit.ly/3Udq5NA Instagram - https://bit.ly/3UgDLaA 📃 Research document: https://bit.ly/44Kh1pL 💡You can find out more about the light therapy lamp mentioned, here: https://amzn.to/4lXsUyc 💡You can find out more about the Aranet4 CO₂ meter mentioned, here: https://bit.ly/4lIvRmk The Diary Of A CEO: ⬜️Join DOAC circle here - https://doaccircle.com/ ⬜️Buy The Diary Of A CEO book here - https://smarturl.it/DOACbook ⬜️The 1% Diary is back - limited time only: https://bit.ly/3YFbJbt ⬜️The Diary Of A CEO Conversation Cards (Second Edition): https://g2ul0.app.link/f31dsUttKKb ⬜️Get email updates - https://bit.ly/diary-of-a-ceo-yt ⬜️Follow Steven - https://g2ul0.app.link/gnGqL4IsKKb Sponsors: Linkedin Jobs - https://www.linkedin.com/doac KetoneIQ - Visit https://ketone.com/STEVEN for 30% off your subscription order Stan Store - https://stevenbartlett.stan.store/ Learn more about your ad choices. Visit megaphone.fm/adchoices
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He was literally two days away from dying.
So this is a story where a 15-year-old boy
was diagnosed with blood cancer,
but he developed a flesh-eating infection in his lung.
He wasn't gonna make it.
So he has one request.
He wants to go outside, and that's exactly what they do.
And this was actually mind-blowing to me.
After the second day, the infection is probably 60, 70% gone.
And it became clear to me that sunlight
has so many important benefits.
For instance, if you're the bed closer to the window,
you get discharged from the hospital faster.
So I want you to give me any information you have
as it relates to light health.
For example, do you recommend these kinds of things?
Dr. Roger Seeholt is a board-certified
critical care physician who breaks down complex science
into clear, life-saving advice. I see people at the very end of their lives so I know what
prevents them from getting this ill and how to extend life. So let's distill it
down into eight pillars. The first thing that exercise, it reduces stroke, it
reduces depression. Next, sunlight. Did you know that infrared light from the
Sun is able to penetrate up to about eight millimeters and stimulate and
upregulate melatonins which prevent a lot of diseases like dementia, cardiovascular
disease, diabetes.
What if you live in a cloudy country?
There's some very actionable things that you can do and we'll talk about that.
Next one, water.
For instance, people who use sauna are more likely to have less death from cardiovascular
disease.
Next, air.
There are studies that show that just going out one day a week can elevate our immune system and make us more relaxed. And then
there's ****. But finally, trust. This is something that can't be ignored because studies
have shown that people who have a good faith and trust in a God are good.
Quick one before we get back to this episode. just give me 30 seconds of your time. Two
things I wanted to say. The first thing is a huge thank you for listening and tuning
into the show week after week. It means the world to all of us and this really is a dream
that we absolutely never had and couldn't have imagined getting to this place. But secondly,
it's a dream where we feel like we're only just getting started. And if you enjoy what
we do here, please join the 24% of people that listen
to this podcast regularly and follow us on this app. Here's a promise I'm going to make
to you. I'm going to do everything in my power to make this show as good as I can now and
into the future. We're going to deliver the guests that you want me to speak to and we're
going to continue to keep doing all of the things you love about the show. Thank you.
all of the things you love about this show. Thank you.
Dr. Roger Schwelt, with the work that you do,
what is it that you're aiming to accomplish?
Outside of my clinical duties, it may be even part of that,
I would like to clearly explain
very easily graspable tools that can be implemented to make people live
their best life and it's specifically in terms of their health and their well-being.
And as we dig down into health and well-being because that's quite a broad
basket, what is it within health and well-being that you've spent your career
your life focusing on? So I'm a board-certified internal medicine specialist
then I did an extra three years of training here in the United States on pulmonary and
critical care.
So I deal with all of the issues that are related to the lungs and the critical care
aspects.
So if you are admitted to hospital and you're critically ill, you go to the intensive care
unit, I'm the doctor that you see.
So I'm putting in the lines, putting on vasopressors, intubating them.
I worked in the clinic this morning.
And what are some of the unappreciated things
that most people don't think of?
Because we think of, you know,
don't eat processed food and exercise.
But is there things outside of that
that you don't think the average person appreciates enough?
Yes, absolutely.
What are those things?
So if we look at those things that extend life and are beneficial, we could put them
into what I call eight pillars of health.
If you can imagine your life is a chain with a bunch of links, okay?
And I'm talking medically.
Each one of those links is an organ system.
So your heart is a link, your lungs are a link,
your liver is a link, your kidneys, et cetera, et cetera.
As you go through life, imagine those links
starting to erode so that at some point in your life,
you're gonna get some sort of a disease or a diagnosis
that focuses on one organ system of your life.
For many here in the United States and in the UK,
it's the heart.
And as that link gets more eroded,
we can see very clearly that this is gonna be the link
that's gonna break first,
and therefore attention is paid to that link.
For many, that diagnosis comes with medications.
So here is one of the first truisms
that I would say going forward.
All medications have side effects.
And what the aim is to do in modern medicine
is to utilize the knowledge of those medicines
and their effect on the human body
so that we leverage the other links
to protect that weakest link.
So I can go through a bunch of medications
that I give all the time to patients
in the intensive care unit where I'm focused on saving their life because I can clearly see which
link is the weakest, but I'm doing it knowing that there are side effects because I'm trying
to save that link to save that life and I'm leveraging those other things.
For instance, somebody comes in with a stroke and they've lost weakness
on the right side of their body or on the left side,
whichever side.
I can give them a medication immediately
that will break up all of the clots in their body.
It's called TPA or TNK and it will restore
blood flow to the brain and it will reverse
many of their symptoms.
If they come in soon enough, we can do this.
to the brain and it will reverse many of their symptoms. If they come in soon enough, we can do this.
What's amazing is that that medication has an effect
that can do that, but it also has a pretty significant
side effect in that it could break up clots somewhere else
and cause bleeding.
So we have to be careful about what it is that we're doing.
Clearly there, what we're doing is we're saving one link
at the expense of other links, but that's what you have to do in an emergency situation.
But if after that, I simply send that patient home without telling them why they had that
stroke and what they need to do to prevent themselves from getting that stroke again,
and what are the lifestyle factors that cause that to happen, I haven't done my job.
So what are the interventions that we can do,
hopefully early on in life,
so that we don't have those links eroding,
so that all of the links are strong,
and as we get older, we can continue
to strengthen all of the links.
Here are the eight.
So nutrition, that's nutrition.
Basically, we know there are studies that have done
that show that depending on what we put into our bodies as food
can have a dramatic impact in terms of our wellbeing.
So that's nutrition.
Exercise.
As I was saying, exercise not only,
I mean drugs and things have side effects,
exercise have side benefits.
So exercise obviously is gonna make you more fit,
it's gonna make you have better endurance,
but did you know that it reduces stroke? Did you know that it improves well-being? It reduces depression? There's
so many benefits. So all of these links are actually improving. There's no leveraging
here. Exercise is incredible. Water. So this may sound obvious, right? Like you drink because
you're thirsty. Where I would like to go today is to talk a little bit about what the effect of water externally on your
body can do.
And you're talking there about like hot and cold usage in terms of showers or cold plunges,
saunas, that kind of thing?
Exactly. And we'll get into the actual evidence for this.
We'll get into it later, but what is this?
This affects your immune system.
Which changes your probability of diseases and stuff like that?
Correct. Absolutely. Especially in the acute setting. So not only in the acute setting,
but we also have pretty good data from Finland where they have more saunas than almost than
people where they've actually done the research and shown with dose response curves that this
is actually very beneficial. We won't get into too much of that, but what I want to
focus a little bit more on because of my job in the intensive care unit
and what we're seeing right now with viruses and mutations
in the innate immune system,
why something like this may actually be very important
as we look forward.
Interestingly, as we look forward to future things,
pandemics, we can look backward
and see what we had done in the past.
And we've got some really actually
really good information on that.
Let's go to sunlight.
This is something that I've really become more and more involved with because of
some of the benefits that this can do.
A very big misconception that people have is that sunlight equals vitamin D.
And therefore, if you take a vitamin D supplement,
you don't need to go in the sun.
This is really something that's now being debunked.
Sunlight has far more benefits than just vitamin D.
Not saying that vitamin D is not something
that you want to supplement with.
I supplement with vitamin D.
I think there's a benefit to supplementing with vitamin D,
no question.
But sunlight has so many important things,
and I really would like to spend the bulk
or the lion's share of the time talking about this,
because this is really important.
This is amazing.
And it really made me think about sunlight.
So this is a story by a lady by the name of Amy Hahnmeier. Her 15-year-old boy
was diagnosed with lymphoblastic leukemia, went into the hospital, actually started chemotherapy
for it. Which is blood cancer. It's a blood cancer, yeah. And so the treatment for blood
cancer is chemotherapy, which he started. The side effect of chemotherapy is suppressing the immune system.
And unfortunately, he didn't realize it, but he developed a fungus flesh-eating infection
in his lung.
And went into the hospital in June of 2024.
This was in Minnesota, tertiary care hospital. And he got worse and got worse
and got worse to the point where the only way that they could control this infection
was to actually remove his left lung, which they did. So this is a 15-year-old boy. He
is without his left lung. He only has a right lung. And he starts to decline even after that.
They do a CT scan and it shows that now the infection
has moved to his remaining right lung.
They have a family conference.
And as Amy is telling me this story,
I could hear her choking up.
She's telling me this on the phone.
She's saying that he's 15, he's completely awake,
he's completely alert.
He knows everything that's going on around him. awake, he's completely alert, he knows everything
that's going on around him.
He's on a ventilator, like a machine that they use for sleep apnea, it's like a BiPAP
machine that's breathing for him.
It's not intubation, but it's on his mouth.
And the doctors have done everything they possibly can and they say, look, he's getting
worse.
We can't take, obviously we can't take the right lung out. We can't put him on a heart-lung machine because there's no sort of destination look, he's getting worse. Obviously, we can't take the right lung out.
We can't put him on a heart-lung machine
because there's no sort of destination to where he's going.
We recommend not intubating him and making him
what they call DNR, do not resuscitate.
So they're like, wow.
They were not expecting this coming.
So they have a big conference.
They call in help to like, how do you explain to a 15 year old boy that you're dying?
And how is that going to feel?
So they ask the doctors, how much time does he have? They say two days.
So in this situation,
they ask this boy,
okay, you're gonna die. What do you want to do with your life in the next two days?
What do you want to do? And surprisingly, he says, I want to go outside. I just want
to go outside. This guy grew up probably on a farm or something and he spent his time
outside so he wants to go outside. So you know how, I mean, I don't know if you know
this, but like if you're a nurse or you're a doctor
and you've done everything you can
and you're just completely horrified
at the fact that this 15 year old is gonna die
and he has one request, you're going to move heaven and earth
to fulfill that one request.
And that's exactly what they do.
They get this boy, the hospital bed, outside, he's on a
BiPAP machine the respiratory therapists have put together. So this guy is outside
and they're not putting him outside to get better. He's just, this is his dying
wish. They also use this thing called a firefly. It's like a light device that
they were using. I, to be honest, I don't know which did it. The firefly, what's that?
It's a light device that gives off light at different wavelengths.
And they would use that for about three times a day for five minutes.
This guy does not die. After the first day, his white count starts to come down.
That's like a measure of the infection that's going on in the lung.
And by the way, they do a CT scan of his lung before this all starts and it's just
the remaining lung on the right is just filled with infection. It's horrible.
By the second day, the white count comes down even more. And by the way, they haven't changed
any of the other treatment. By this point, he's been in for six weeks. He has not seen the light of day.
And he's still getting the powerful antifungal medication, Amphitarrus and B and Posseconazole.
All of these things are really high-powered drugs that just completely fight fungus, but
it's not working.
He's getting worse.
But now he's out for the second day.
The white count's coming down, which is good.
That's a good sign.
His oxygen requirement is coming down. That's a good sign. His oxygen requirement is coming down.
That's a good sign.
He's requiring less and less oxygen.
By the time he gets to day five, okay, we're already past two days, he's off the BiPAP.
He's on regular just nasal cannula oxygen that you see people wearing on their nose.
The doctors are scratching their head.
They're like, we should get a CT scan to see what's going on.
So Amy tells me that they get a CT scan of this guy, and
they're in the room.
And some even swear under their breath.
They're completely amazed.
Because on the CT scan, obviously the left lung is
still gone.
But the right lung, the disease is probably 60, 70%
gone. And he's still alive. He goes home. There's no sign of the disease after
treatment. And she just communicated with me to tell me that
he just got his make-a-wish thing for his cancer. He's continuing treatment and she just can't believe that he was literally two days away from dying.
They changed nothing. They changed none of his treatments.
The only thing that they did was they took him outside and they were using this Firefly before inside,
but they were using it more consistently when he got outside.
Maybe hospitals should be outside.
This is exactly what...
Okay, so if you wanted to know what my drive was,
what it is, my purpose that I'm doing right now,
I'm working at three different hospitals.
And I'm trying to work in each of those three different hospitals
to try to get patients outside.
The biggest barrier that we have is staff taking those patients outside.
That's the thing that's the hardest.
But this is what we used to do, Steven.
This is what we used to,
when we built hospitals at the turn of the century,
we had hospital rooms where beds could be taken out
onto the veranda and people could get sunlight.
I would love to see a time where we could go back
to that type of effect.
There are studies that have been done.
People in a two-bed room,
if you're the bed closer to the window,
you get discharged from the hospital faster, on average.
Really?
Yes.
I need to swap sides of the bed with my girlfriend.
She's on the sunny side.
There's so much evidence for this.
People who are in hospitals that have bigger windows,
they give better surveys.
And hospitals reimbursement is tied to the surveys
that they get from patients.
So it's literally a win-win-win.
If hospitals started to, I believe, get patients outside,
and they're already doing this.
I don't want to say that this isn't happening.
There are hospitals that have programs
to get patients outside.
I think we just ought to be doing it a lot more.
Temperance.
Temperance, what does that mean?
It's an old term, isn't it?
It really means moderation.
And I would say in this sense,
temperance really means to avoid toxins in the body.
As somebody who is a pulmonologist, who is...
What's a pulmonologist?
A pulmonologist is someone who takes care of the lungs.
And so as a result of that, I see a lot of issues with lung cancer related to smoking.
I see in the intensive care unit people with liver failure as a result of alcohol abuse.
I also see people on amphetamines here in Southern California where I reside and where I work.
We have quite a bit of that.
Temperance. If you want to live a long and wholesome life, there are some toxins that you want to avoid and
understanding that is really important.
So this is something that if you stop some of those things that we're talking about,
all of those links are going to be improved.
Air seems kind of obvious.
Early on, I used to think that what this meant was getting pure air with absolutely nothing
in it except for just nitrogen
and oxygen. That's not true anymore. We now understand that for you to have the
best type of air, it actually has to come with some things in it. Just like our
gut has a microflora that you may have heard about, so too does the air that we
breathe also must have that. And the best type of air that you can have is actually outside
rest
This is really interesting because we just mentioned that exercise was a pillar
But rest also is how can rest and exercise at the same time be pillars of health and it really comes down to
Knowing when to do what?
of health and it really comes down to knowing when to do what. Sleep, which is also part of rest.
So we're not just talking about a daily rest when you go to sleep and as a sleep physician I can tell you quite a bit we have lots of information about how long we should sleep, the quality of
sleep, some of the diseases that prevent us from sleeping. Sleep is so important. I couldn't overexpress it enough. Not just a daily rest,
but I would also say, and Ventura, we can talk more about this, a weekly rest.
A weekly rest?
A weekly rest.
What do you mean, a weekend?
Yeah, yeah, absolutely. How many times do we, even on the weekend, do we put down our
phone?
Never.
Or we stop reading emails,
and we take the time out to do things
that we would never be able to do.
Finally, trust.
So this is something that really just can't be ignored,
and I'll say this upfront,
that in the world of research and science,
there is a silo of science, and there is a silo of faith.
But what we can't ignore is the growing body of evidence from the scientific world that's peeking over and looking at faith.
That people who have faith and people who have faith in God, whether that is their God in that particular denomination,
are better apt and able to deal with stress
and depression and anxiety.
So this is something scientifically that has been shown.
Now, you may have noticed that I did these
in a particular order.
And if you go through them, you've got nutrition,
you've got exercise, you've got water,
you've got sunlight, you've got temperance,
you have air, you have rest, and finally you have trust.
You put that together and it spells out new start.
So interestingly, these particular topics
are not copyrighted, but there is a university in
Northern California called Weymour University that has actually put these together in that
very pattern, and it's called New Start.
They actually have a New Start program.
And so this is something that is actually being used internationally.
So of these subjects that you just went through there for this new start framework, where
do you want to start?
I think actually sunlight is one of those things where I'm excited about all of those,
but I think sunlight is really where we have, let's put it this way, it's the lowest hanging
fruit.
Okay.
Explain to me why sunlight is the place where your focus is at the moment.
It's a long trip that has gotten me to that. And I think part of it has to go through right
through COVID. So as a critical care intensivist, when I heard that there was this virus that
was coming, they all told us that it was going to be people with respiratory illnesses, which I was certainly
comfortable with, but that's not what it turned out to be.
We certainly saw people with respiratory illnesses, but what we saw in the intensive care unit,
the people that were dying around me were people with obesity, people with heart disease,
people with kidney disease, people with dementia, people with chronic diseases, and it made
me think why was that the case?
All of those things have one thing in common and many other things too.
But specifically, they're rooted in something called mitochondrial dysfunction.
So let me unpack that for you.
And this has to do with longevity.
This has to do with aging.
This is a huge topic that is now just emerging.
And we're now finding more about this.
So when I was in high school biology,
when I was in college, we all learned about
this little organelle in all of our cells
except for red blood cells called the mitochondria.
And I have to say it, what is the mitochondria?
It's the powerhouse of the cell, right?
So it's the thing that makes energy.
What we didn't know at the time is that as we get older,
the output from these batteries in our cells
drops by about 70%.
Can you imagine running your house on 70% less energy?
How fundamentally that would change
what happens in your house?
You could not run the laundry the same way.
You could not run the microwave
and the laundry at the same time.
And what does that look like in terms of symptoms?
Excellent question, because what it looks like
is depending on the cell type that we're talking about,
that's gonna have the issue.
So if we're talking about the liver,
the liver is gonna get more fatty.
If we're talking about the heart,
the heart is gonna become more congested.
If we're talking about the brain,
it's gonna have more dementia.
And so what's happening here is that as we get older, the batteries in our cells are
not working the same way as they used to. Metabolism is slowing down. And so these are
huge issues. And all of these diseases that I just talked about, all the ones that we
saw in COVID, if you look in a lot of these diseases, they are rooted in mitochondrial dysfunction.
So the question is, why is that the case,
and what can we do about it?
So there was a paper that came out in 2019 that fundamentally
changed the way I saw this.
It was written by Russell Ryder, who
is the executive editor of Melatonin Research.
He's out of University of Texas,
and Scott Zimmerman, who's a light engineer.
And what they set forth was to show that basically
sunlight is made up of so many different types of wavelengths.
You've got ultraviolet on one end,
which of course makes vitamin D, and it's very beneficial.
It's the type of light from the sun that is very shortwave
and but cannot penetrate very deeply.
Now let me back up a little bit and explain.
You pull up to a stop sign and somebody pulls up next to you
and they're playing the latest hip hop music.
How does that sound to you in your car?
It's very boom, boom, right?
Yeah, muffled.
It muffled. And the reason why is because low wave frequency has the ability to travel
very far. Go to the Grand Canyon and there's a thunderstorm at the other end of it. What
do you hear? It's like a rumbling. And then as it gets closer, you hear the higher pitch
sounds. This is a fundamental physics principle. And so when the sun is shining, there's very short wavelengths,
ultraviolet B, involved in vitamin D,
but at the other end there's this infrared light,
which we'll talk about, or red light.
It's very long wavelength,
and it can penetrate very, very deeply.
That's very important because what we're talking about
is the human body, and if the sun is gonna have an effect
on the human body,
it's gotta be more than just the skin.
So that's exactly what this paper showed,
is that basically, infrared lights from the sun
is able to penetrate probably up to about eight centimeters,
according to Scott Zimmerman in this article.
And it fundamentally interacts with, specifically, the mitochondria. And it fundamentally interacts with specifically the mitochondria.
And what does it do to the mitochondria?
So let's back up and talk about the mitochondria because this is central.
The mitochondria to the cell is like the engine in your car.
The engine produces locomotion that causes the wheels to spin.
But in the process of doing it, it causes heat to surround the engine.
And if you don't deal with that heat,
it will shut down the engine.
It will make it more inefficient
and eventually it will shut it down.
So what do all internal combustion engines have?
They have a cooling system, they have a radiator,
they have an oil pan, they have a water pump.
And that's exactly what the cell has to have
for the mitochondria.
It's not heat in the mitochondria.
It's called oxidative stress.
And it's specifically oxidative stress that causes destruction and yeah, destruction of
the mitochondria and leads to these types of diseases.
So oxidative stress causes the mitochondria not to work well.
This leads to diabetes.
Oxidative stress makes the mitochondria not work so well. This leads to diabetes. Oxidative stress makes the mitochondria not work so well,
this leads to dementia.
So this has already been laid out,
this is not that controversial.
The controversial part is what do we do about it?
So what these guys in this paper showed was that,
and not just them, but reviewing the literature,
is that the mitochondria makes its own cooling system,
and that cooling system is melatonin.
Now, you might be thinking, wait a minute, melatonin,
isn't that the stuff that we take
that our brain makes right before we go to sleep?
Yeah, it's absolutely correct, that's what happens.
The problem is, is that this is not melatonin
that's made in the brain.
This is not melatonin that goes through the blood supply
and goes through our blood
and tells us it's time to go to sleep.
This is melatonin that's made in the cell,
in the mitochondria, and it's a powerful antioxidant
that basically prevents the oxidative stress from occurring.
What Scott Zermin and Russell Reiter showed
and proposed in this was that basically
the infrared radiation that's coming in to the body is able to stimulate and upregulate melatonin and a number of other
factors that keep the mitochondria cool and can actually improve the energy output of
the mitochondria.
So this was actually mind blowing to me.
And I'll tell you why I resonated with this as a critical care physician.
Because there was two things that bothered me the most.
Number one, SARS-CoV-2 virus.
When it comes into the body,
it interacts with something called the ACE2 receptor.
You may have heard about the ACE2 receptor.
Okay, this is where the virus actually latches on
to the cell and gets internalized.
So what is this ACE2 receptor? Was this there for all of humanity actually latches on to the cell and gets internalized.
So what is this ACE2 receptor?
Was this there for all of humanity just to be a receptor,
or does it actually have a role?
It turns out it actually has a role,
and mind-blowingly, the ACE2 receptor is involved
in mitigating oxidative stress.
So in other words, it's another part
of the cell's cooling system for the mitochondria.
What's happening is that the virus, when it attaches to the cell, is basically eliminating
that action.
And so, imagine you have a bunch of people with various different engines running at
different temperatures, in other words.
You've got some people with chronic disease,
and we know their engines are running hot.
We have other people who are completely healthy,
and they're doing quite well.
Their engines are nice and cool.
They have no problems at all.
Now imagine COVID comes,
and SARS-CoV-2 is infecting everybody.
What that tendency is to do
is because it's knocking out everybody's ACE2 receptor,
which has the ability to cool down the engine, in other words,
it's causing everybody's engine to run hot.
Right?
So, but in somebody, so in other words, picture is this way,
you're driving along in your car and your thermometer is there,
and all of a sudden there's this big hill that you have to climb called COVID-19.
Who's going to make it over that hill and who's not going to make it over that hill?
The people that make it over the hill are those with great cooling engines whose temperatures are
running great. The ones that don't make it over that hill are the ones that have the thermometer
on their engine running hot. Those are the ones that poop out at the top and can't make it. And
they're the ones pulled over to the side of the road with the hood up and the steam coming out of
the engine. Do you understand what I'm saying?
Of course, yeah.
So this makes perfect sense to me why I wasn't seeing
what they were predicting, which these respiratory patients
coming into the ICU.
Who was I seeing in the ICU?
I was seeing people with dementia, as we talked about.
Diabetes, kidney disease.
These are the ones that were sick.
The other thing that really hit me and resonated with this
was, and this was not even controversial,
we knew early on in the pandemic that people who came into the hospital and had higher levels of
vitamin D did really well. They didn't die. They didn't have the same chances of dying.
People who had low vitamin D levels, they had much same chances of dying. People who had low vitamin D levels,
they had much higher levels, chances of dying.
So we would check these vitamin D levels.
And so think about this.
You're there at ground zero,
and you're taking care of these patients,
and you see this data over and over and over again
that vitamin D is very predictive of who's gonna die.
Obviously, what are you gonna do?
Even though this is an associative study,
that association doesn't mean causation,
you're gonna be giving people vitamin D
and try to get those levels up.
The problem is, is that we gave vitamin D
and it really didn't have much of an effect.
You gave it in supplement type of a form.
Yeah, where people would come into the hospital.
Like this.
Exactly, exactly, just like that. into the hospital. Like this. Exactly.
Exactly, just like that.
In fact, I was supplementing myself.
I mean, what have you got to lose, right?
I already took my vitamin D tablet this morning.
That's very hard to overdose, but it's possible.
So you noticed that it was hard to treat people with vitamin D
by giving them a tablet didn't really do much.
That's correct.
Why?
Well, this is what I believe is the fact,
is we saw that people with high levels of vitamin D
or normal levels of vitamin D
did better than those that had low levels.
I believe that that was a marker of something else.
In other words, people who had higher levels of vitamin D
meant that they were out in the sun more,
they were outside more than those,
the people that had very low vitamin D levels.
The people with low vitamin D levels were telling me,
these are people that were not getting outside into the sun.
And so what's the real factor here?
What's doing the heavy lifting?
And I would propose,
and Scott Zimmerman and Russell Rider would propose, and I can tell you
a number of other scientists that would agree with me on this,
is that infrared radiation from the sun
is causing an effect at the mitochondrial level
in terms of oxidative stress.
And that vitamin D was just the marker of who
was getting the infrared light and who was not.
Who was going outside and who was not going outside.
So when the sun is shining, for the most part, you're getting infrared light, you're getting
the entire biological spectrum from the sun.
We can go to the longest wavelength, which is far infrared, all the way to the shortest
wavelength, which is ultraviolet B, okay, which makes vitamin D.
So in other words, when you are outside
in a natural environment,
you're getting a very broad spectrum of light.
And so because of that, if you're getting infrared light,
you're also gonna be making vitamin D.
You're getting both.
Now that can change because in the winter time, when the sun is lower in the sky, especially
in England, this is a special issue at that latitude, when the sun is low in the sky,
the light has to penetrate through obliquely through the atmosphere.
And because of that, shortwave radiation from the sun, like ultraviolet B, does not make it very well.
So there's times of the year
where you're not getting enough ultraviolet B,
or maybe even no ultraviolet B from the sun.
Which makes the vitamin D.
Which makes the vitamin D.
That you're gonna be deficient, you need to supplement.
However, during that same period of time,
when you're not getting enough vitamin D
because there's no ultraviolet B radiation, that sun is low, but it's still enough to allow that long wavelength penetrating
infrared light to still come through.
So is the long wave infrared light the type of thing that we see these gadgets doing?
Absolutely. And I would say just to be specific,
is because you can see that as red light there,
that's not infrared light, because you can see it.
So infrared light technically is completely invisible.
But these do give out infrared light, but you just can't see it.
Exactly.
So it's toward that red end of the spectrum.
And people like Glenn Jeffrey out of UCL
is actually doing research at 670 nanometers
of red light and has shown in randomized controlled trials that that type of light right there
at 670, the type that you can even see, actually does improve mitochondrial efficiency.
He's shown this in a number of randomized controlled trials.
It improves eyesight and you have to realize that the retina at the back of your eye is
very rich in mitochondria.
He's shown this in terms of managing glucose and output from mitochondria.
And the reason why these things work so well is because what's going on here is as you
get older, your skin starts to become more saggy because the fibroblasts or the cells
in your skin, they're designed to make collagen
and collagen is the skeleton that makes your skin
soft and subtle, yeah.
Don't mind me, please carry on.
No, no, so this is exactly, my wife uses the same thing.
This is a fun charge one.
So what's going on right now is that red light,
which can penetrate very deeply down,
is going into
the skin and it is activating the mitochondria in your fibroblast to produce more energy,
which those cells need to deposit collagen. And so when you deposit collagen, that's going
to give the skin a more tight feel because as you get older, that collagen deposition
is going to get less and less and less.
So this is going to help keep me looking young? That's the whole point of it.
And you're saying that the light in these penetrates what, six or seven centimeters?
The infrared does about eight centimeters.
This red light would be a little bit less because this light, obviously you can see it,
so it is a little bit shorter wavelength.
But yes, this light, the red light, can penetrate deeper than, for instance, yellow light or blue light.
And it's this light particularly that interacts with, can penetrate deeper than, for instance, yellow light or blue light.
And it's this light particularly that interacts with the mitochondria to increase that.
So should we be putting this all over our body?
Because it's good for my skin, but if it's penetrating deeper, presumably there's other
parts of my body that would benefit from that, another mitochondria.
It's interesting you say that.
The study that I'm referring to with Glenn Jeffrey out of University College London, he took
young people in this study. He gave them a bunch of glucose and
everybody who gets a bunch of glucose should have a spike in their blood sugar.
And he randomized them on their backs
to see what would happen when he shined red lights on their backs. And the people that got the red light had lower spikes.
In other words, it seemed as though the mitochondria
were metabolizing faster, which caused less of a spike
of the glucose in their blood.
The way he confirmed that is looking for the byproducts
of the mitochondrial metabolism, which is carbon dioxide.
So when we breathe, when we metabolize,
we're breathing out carbon dioxide,
which is the result of a mitochondrial metabolism.
And in fact, in those people that had the light on,
it showed a higher level of carbon dioxide
in the exhaled breath.
The whole point of that is to get back to your question
is whether we should putting this all over your body.
He was able to get that effect systemically
with just putting
the light on the back.
That was a systemic ability.
We don't understand everything about the mitochondria, but what we do seem to understand is that
they can communicate with each other and that you don't need to have this all over the body
to have systemic effects.
In this particular case though, if you want to have the skin here to be more, you know,
younger looking, then it makes sense that this is where you need to have it.
If you want to have a particular other part of your body to look younger, then perhaps
that's where the light needs to go.
So interesting.
How long did it take in those studies to see the effect of red light therapy like this?
Well, that's a very good question.
If you talk to Glenn Jeffrey, which I have, he noticed an improvement in 15 minutes.
15 minutes.
15 minutes.
What did he notice in 15 minutes?
He said he has studied the mitochondria in fruit flies, in mosquitoes, in bees, and in
human beings, and it's the same every time.
He says after about 15 to 20 minutes of this type of light in that type of setting, there
is a switch that turns on and you don't need further stimulation.
Further stimulation doesn't do anything more.
It's a very bizarre thing.
You would think that the more light that you gave, the more the effect would be.
It's not.
After about 15 minutes, there's something that changes in the mitochondria.
There are certain theories about where this might be.
This might be in the electron transport chain, complex IV.
These are very technical things.
There's a lot of studies that are actually,
there's a number of groups that are actually looking at this.
There's a whole area of science called photobiomodulation,
which is looking at this.
But 15 minutes is really what it takes.
So we're not talking about a long period of time.
This is really interesting.
So getting back to my experience
in the intensive care unit,
the vitamin D wasn't working.
These patients were dying,
and it became clear to me that COVID
was a metabolic issue for these patients.
By the time I had realized this, the pandemic arguably is still going on because people are still becoming infected,
but the rush to come into the hospital and the number of bodies that we were seeing circulating through the intensive care unit had dropped dramatically. And at that point, I was able to see that potentially
infrared lights may be very beneficial in these patients
with COVID-19.
Now, there was a study in Brazil.
They took COVID patients that were sick enough
to be admitted to the hospital, but not too sick
to be intubated in an intensive care unit. And they did something tremendous. They actually
manufactured a jacket that they could put on patients. And on the inside of this jacket
were these LED bulbs that gave off infrared radiation at exactly 940 nanometers. They put the jackets on and they randomly randomized the sign which jacket was turned
on and which jacket was turned off.
It was blinded because the light coming from this jacket could not be seen by the human
eye.
It wasn't even enough to produce enough heat.
And so they did this on 30 subjects and they randomized them.
15 did it, all 15 or all 30 had the jackets on, 15 had it turned on, 15 did not have it turned on and they randomized them. 15 did it. All 15 or all 30 had the jackets on.
15 had it turned on.
15 did not have it turned on.
And they watched them.
What happens to these patients?
Every single endpoint that they looked at
was statistically significant.
And what does that mean?
It means that the differences between these two groups
could not have been from chance.
There was a real difference. The group that had
the jacket turned on had improvement in their oxygen saturation, could take breaths in more
deeply and stronger, had improvements in their white blood cells, and not only that, had
improvements in their heart rate, their respiratory rate, all of these statistically significant.
But the most important and mind-blowing statistic was the length of stay in the hospital.
So they had these jackets on for 15 minutes once a day for seven days.
In the group that did not have the jacket turned on, their average length of stay was
12 days in the hospital.
For those that had the jacket turned on, it was eight days.
That was four day difference.
That's tremendous when you realize
that it costs thousands of dollars to hospitalized
patients.
It's a huge amount when you think about the fact
that there are certain drugs that get FDA approved
for influenza, for instance,
by just cutting short the symptoms for 24 hours.
This is not just 24 hours,
people were discharged from the hospital four days faster.
When I saw that study,
that was enough for me to convince me.
I mean, obviously it was 30 subjects, right?
We should do a bigger study.
We should do a couple hundred, right? That would be ideal to do. But the, obviously it was 30 subjects, right? We should do a bigger study. We should do a couple hundred, right?
That would be ideal to do.
But the fact that with just 30 patients,
they could show statistical significance,
that was enough for me to say every patient
from now on that I see that comes in with COVID-19
that's hospitalized, that they're asking me
to go intubate, to bring to my ICU,
these patients are gonna get outside.
I don't have that jacket that they made in Brazil.
I don't even know how I would make that jacket.
They made it for the study.
And it's not commercially available.
There's no 940 nanometer lights,
which is what they did in the study.
But I do know this, I do know that sunlight
has 940 nanometers in it.
And if I could just take these patients outside,
maybe they could improve. So I had,
I got my wish. I had a patient on the floor. He was on 35 liters a minute, 100% oxygen through
his high flow. Through his nose. Through his nose. Barely, barely saturating because he had COVID-19.
And I was asked to go see him because he was potentially
needing to be intubated or brought
to the intensive care unit.
I could not believe it because I had not seen one of these
in months.
So I went down, walked into the room, opened the door.
It was in isolation.
I had a mask on, the whole nine yards.
The room was completely dark.
The blind was closed.
His daughter was there.
And the first words out of his mouth to me was, Doc,
how much time have I got?
I mean, it was a catastrophe.
Like, there was no light, no circadian rhythm.
This guy was depressed.
I immediately called my respiratory therapist,
immediately called the charge nurse.
We got everybody together and I said, we need to get this guy outside.
It was a bright and sunny day.
How are we going to get this guy outside?
35 liters, 100%. My respiratory therapist, Kim, managed to put a couple of oxygen tanks together,
and we were able to get this guy into a wheelchair. And we wheeled him outside. And he told me
this weeks later, but he says, you know, that first day that you got me outside in the sun,
because we did this for like seven days in a row.
He said that felt so good.
He, after just one day, dropped down from 35 liters
to 15 liters.
15 liters of?
Of oxygen, and then down to 12,
and then down to eight the next day,
and then down to five.
Five days.
The amount of oxygen he was inhaling to keep him alive.
Correct, correct.
So in other words, we were titrating down
the amount of oxygen that we had to give him
to maintain a saturation in the 90s.
In five days, he was discharged home without oxygen.
Now obviously that's an anecdote, right?
That's not a study.
But I'm looking at the risks of getting people out in the sun for 15, 20 minutes.
There's not a lot of risk to that.
And if there's a benefit, I thought it was worthwhile doing.
We need to have larger randomized control trials,
but it got me down the road to looking to see
what was it about sunlight that was affecting this change?
And you know what, there's ample data.
There was a study actually that was done in Europe
where they said, okay, here's COVID,
COVID's going up.
When does COVID go up?
Is it because of temperature that changes?
Is it because of humidity?
And the answers to both of those were no.
Do you know what predicted when countries were to have their first surge in the autumn
of 2020?
There was a study that was actually done on this.
It was latitude.
It started in Finland and then went down the entire continent.
The last country in the in the autumn of 2020 to have a COVID surge was Greece. So as the sun is
literally pulling down into the southern hemisphere, as the shadow starts to go over Europe,
that's when we start to see COVID surges one by one by one. Is that because COVID and the sun aren't friends?
So if I, it makes it harder to spread because, you know, if I put COVID on this table and
then I put sunlight on the table, the COVID is going to die.
Yeah, it's possible.
Although we now know that COVID probably doesn't spread too much through contact.
It's more of an airborne thing.
So there was a study that was done
at the University of Edinburgh.
And they looked at this very question
that we had talked about earlier about vitamin D.
They looked at the United States in the wintertime.
So, and they eliminated the southern part
of the United States because in the southern part
of the United States, you can actually get
some vitamin D in the wintertime.
So they just looked at the sort of the northern portion of the United States and they were
able to show that the more sun lights there was in particular areas, the lower the mortality
from COVID-19.
So they said, this is interesting.
What about in England?
So they did the exact same study in England and sure enough, of course, they didn't have
to eliminate any part of England
because the whole country doesn't get any vitamin D in the wintertime.
What they showed was that, again, certain parts of the country in England, as you know,
get more sunlight than other parts.
Well, those areas that got more sunlight had lower mortality from COVID-19.
Then they took the same, they predicated the same study and they looked in Italy.
Exactly the same finding. And they published this.
And they said in their study,
and this is what really amazed me, they said,
the fact, if this is causal, they say,
they said that this might actually show
a possible public health intervention.
The fact that it is completely independent of vitamin D means that there's something else going on.
There was a study in 2011 in Sweden.
Yes.
Is that linked to this?
No, this is a completely different study, but that's also a very important study.
So the Swedish study is groundbreaking. This was a study where they asked 20,000, 20 to 30,000 Swedish women about their habits
in sunlight.
And they divided these women into three categories, those women that did not get a lot of sun,
those that got a moderate amount of sun, and those that got a lot of sun.
And they followed them for 20 years.
And they kept the track of each one that died
and what they died of.
And when they were done with that, they were astonished.
Because what they found was that the women who had spent
the large amount of their time outside,
or spent the most amount of time outside,
had the least amount of mortality from cancer,
from cardiovascular disease, and non-cardiovascular disease.
And those that spent the least amount of time outside
had the highest levels of that.
The magnitude difference between those two was so much
that they were able to show that women who, in Sweden,
who spent the most amount of time outside and smoked
had the same mortality as those women that did not spend as much time outside and did not smoke.
They were equal.
They were equal.
In other words, being in that category of not spending much time outside in the sun
was the same risk factor for death as smoking.
How do they know it wasn't linked to exercise?
How are they able to establish causation?
Because that's an excellent question.
So the difference here as you go up is this is an association study.
So the question is, how can you get causation from association?
You can't.
But if you look at the Bradford Hill criteria,
there is a way that you can potentially make
a strong argument for causation
if there's something called a dose-response curve.
In other words, if you can show,
you're not just comparing two things,
but you're comparing three or more,
if you can show that as you increase the variable that there is a change
in the outputs, that is strongly suggestive of potentially causation.
By the way, this is exactly what we did to show that smoking causes lung cancer.
Obviously, we can't do a randomized controlled trial.
Here, you get to smoke, you don't get to smoke.
We'll follow up in 20 years to see who has lung cancer.
This is exactly what we did.
We showed that there was such a strong association
with cancer risk with smoking that we were able to say
through association that smoking causes lung cancer.
By the way, Richard Weller, who's a dermatologist
in England, did just last year a very similar study
as to the Swedish study, except it was 10 times bigger
and he did it with both men and women,
he found the same results.
It was a UK biobank study.
What did he discover?
He discovered that either from solariums or from being outside using solar radiation data,
he was able to show both on their questionnaire and also where they lived
that the more light that they had, the lower their risk of mortality and cancer mortality.
So the question was, does it increase melanoma?
What's melanoma?
Melanoma is a skin cancer.
So that's the big risk. That's the big risk that everybody's concerned about.
You go out into the sun,
you're gonna get skin cancer.
And he was able to show in that study,
this was like three, 400,000 people in this study,
UK Biobank study, Richard Weller.
He was able to show that there was no increased,
there's no statistical increased risk of melanoma incidence,
but there was a reduction in non-skin cancer mortality.
Okay, so here's the trade-off.
If you want to go out into the sun in England, okay,
the benefits are you're going to have a reduction in non-skin cancer mortality.
So everything other than skin cancer.
Correct.
On the other hand, there's no increase in melanoma incidence.
So that caused him to write an op-ed and publish it.
And actually, you can look up this op-ed.
It's a great op-ed published in the Journal of Investigative
Dermatology called Sunlight, Time for a Rethink, where
he goes through the arguments.
And he's actually shown, and there's been a number of changes that people are making
around the globe.
So public health organizations that are saying now, you know, before we have said that, you
know, the sun is a deadly laser and you should avoid it at all costs.
We may need to rethink that.
So are you telling me that essentially
15 minutes in the sun every day
turns on a switch in my body
that improves my mitochondrial function,
which is going to impact a variety
of different parts of my health?
Is that essentially what you're saying?
Essentially, yes.
And we're looking, and this is in an environment where we are spending less and less and less time.
To give you, to put in perspective, if we were on a British ship 300 years ago,
and I came to you and I said, do you see this little yellow fruit?
Just by eating a little bit of this yellow fruit,
all of this disease that you're seeing around you with your fellow shipmates is going to go away.
That would seem almost incredulous, right? But that's exactly the case. of this yellow fruit, all of this disease that you're seeing around you with your fellowship mates is gonna go away.
That would seem almost incredulous, right?
But that's exactly the case.
The scurvy of the 21st century is the lack of sunlight.
Everything is inside.
We avoid the outside, we avoid discomfort,
we avoid high temperatures, we avoid low temperatures.
We used to go out and play sports, we now are playing virtual sports on pads.
We have windows that are specifically designed,
especially here in Southern California,
to eliminate infrared lights, because why?
Infrared lights comes in and it heats up.
One of the interesting things,
we didn't mention this about infrared light,
is the way that we interact with infrared light,
you can tell this on your own.
You go outside and close your eyes.
You can tell which side of your body the sun is on.
And the reason is, is because that infrared light
not only can penetrate through your body,
it's also penetrating through clothes, very easily.
And you can feel that.
That heat that you're feeling is the infrared light
going through the clothes, going through the skin,
and interacting with your heat receptors
that are well below the surface.
So all of this.
All right guys, we're gonna go get Steve.
The guest is here.
Ready?
Come in.
Oh my god, Steve!
What?
What are you doing?
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It's red light. Have you not used it before? No.
You haven't tried this before. It's really, really good. It shines red light on your face,
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Seeing her wearing it, she terrified me a couple of nights in a row. I thought it was to scare people with but actually it's
really really good for your skin so they are a sponsor of the podcast and I've been using
it every day for about a year and a half now. Wow Steve you're glowing aren't you?
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How long does the average American spend indoors? The average Brit spend indoors?
Good question. They're almost identical. I think the Brits spend a little bit more time
outside than Americans. The last number for Americans was 93% and Brits is 92%.
Were we born to be outside?
I think so.
You think our ancestors probably spent a huge amount of time outside.
Yeah and if you think about when I say outside, that also brings into play a number of other
of the New Start letters that we haven't talked about.
Exercise, you're much more likely to do good exercise outside.
You're much more likely to get air.
That's the right type of air outside.
The other aspect about infrared light, briefly, is that trees are highly reflective of infrared
light.
In other words, if you're in an environment where there are trees are present, you're
going to get much more of this beneficial infrared light than if you're in a concrete
jungle.
So plants like this, in fact, the way that we measure the forestation of the Amazon is through satellite imaging that looks at infrared light because it reflects infrared light back.
So the best situation to be in is to be outside on a green,
on a day where there's lots of green trees.
We've known for decades that people who live in green spaces
do much better in terms of diabetes,
do much better in terms of hypertension,
mortality, all of these things.
Depression.
Depression, all of these things, yeah.
And when you think about this,
you bring up a point in terms of correlation.
How do we know it's not depression?
We used to say, well, people who live in green spaces
have more money.
The people, they have more access to things.
Maybe that's what we're seeing.
I just have to tell you this study.
There was something called the Green Heart Study
in South Louisville, Kentucky.
They did an amazing thing.
They took this four square mile area
in South Louisville, Kentucky, urbanized area,
and they measured everybody's HSCRP.
What is HSCRP?
Highly sensitive C reactive protein.
It's a marker of inflammation,
and it's been correlated to bad things
like stroke and heart attack.
So if you have high levels of CRP, that's not good. inflammation and it's been correlated to bad things like stroke and heart attack.
So if you have high levels of CRP, that's not good.
So they measured about 700 people.
And then they did something extraordinary.
They purchased 8,000 mature trees, dug holes, and planted 8,000 trees into four square
mile area. And these are trees with leaves on them.
Two years later, they come back and they measure all 700 people in their study,
repeat the HRCRP, dropped by 13 to 20 percent,
which correlated to about a 10 to 15 percent reduction in strokes.
These people didn't change their socioeconomic status.
They didn't institute an exercise program.
And so really it kind of shoots in the heart,
the idea that the advantage that we see with green spaces
has to do with something else that we're not measuring.
I actually believe that, we'll talk about fresh air too,
that things like these plants, but much bigger,
this is kind of like a bonsai plant, But trees outside, they actually have a benefit and what they represent,
again, is
these things that
don't leverage the other parts of your body in terms of the chains
that make all of the chains bigger because they're having a benefit.
But you can't get the benefit of this
if you're inside a house.
So what should we do about this in terms of how,
what changes should I make in my life
to capitalize on this?
This brand here is called Bond Charge.
They do these red light devices,
they do like red light saunas, blankets, masks.
They're actually a sponsor of mine,
because I started wearing this,
and I think they found out. I started wearing it because of my girlfriend.
She was wearing it every day and I got curious.
And so as I always do, I'm always super skeptical.
So I went online and started looking at some of the research
and I was shocked.
It made no intuitive sense to me that a red light mask
or any red light device could have a profound,
what I see as a profound impact on my health.
Like I didn't believe it to start with.
It was like woo-woo stuff to me. But I couldn't believe it. a red light mask or any like red light device could have a profound like what I see as a profound impact on my health like
I didn't believe it. Yes to start with. Yes. It was like woo-woo stuff to me
I couldn't disprove it right all the studies many of which you've referenced
Supported that it was having a profound impact and as I've said on this podcast before my girlfriend's always right
She's like always ahead of the club and always right so I started wearing her mask and now I have my own from bond charge
Yeah, do you recommend these kinds of things?
I think it's reasonable to do, I will say this.
If you are getting enough infrared light from the sun,
what we find in studies, not particularly with the mask,
but we find in other things is that these other areas
don't have as much efficacy.
It's almost to say, if you're on a ship
with a bunch of people with scurvy
and you already have a diet that's rich
in vegetables and fruits, eating an extra lemon
is not gonna be that beneficial.
So what do you do?
Like a lot of doctors do, we have shifts
that go from 7 a.m. to 7 p.m.
So you're in the hospital, you're not gonna get outside.
So at lunch, I try to get outside as much as I possibly can
into the sun for my 15 minutes.
What if you live in a cloudy country?
So that's a good point.
Clouds, because they are water molecules,
will absorb a lot of the infrared light.
And the problem is, is that that's exactly the type of light
that you want to get.
However, even on a cloudy day, being outside,
you're going to get more infrared light
than if you were inside.
Okay, so I still get the light I need when it's cloudy,
but I just don't get a lot.
Yes, exactly.
Is there anything I can do to get, even if it's super cloudy,
and I know I'm going to be indoors, what do I do then?
Yeah, so the type of lights that we have inside.
Like these ones?
Like these. And actually, I think the UK and the United States
are very similar in this regard, is that we really
can't get the old incandescent bulbs on LED or fluorescent.
And if you think about what they've
done in terms of these bulbs, the old incandescent bulbs
used to give you a very broad spectrum.
So all the way from just near blue all the way down into the infrared.
The way that they've made the bulbs more efficient, they said, hey, let's stop using energy to
give off this light that we can't see and give a very narrow spectrum of light that
we can see.
So think about what they've done.
They have for the first time in the history of humanity, they are now, we are now being
exposed to light in a very narrow spectrum without anything else.
Whatever in the history of humankind, when we light a candle, when we would go outside
into the sunlight, when we would have a kerosene
lamp, we were getting full spectrum.
In other words, we were never getting blue lights without red lights.
Now we're starting to get blue light without red light.
So do I change my bulbs?
It's difficult to do that because you can't pick up these incandescent bulbs, which brings
me to, I mean, at least in the United States,
we have laws now that outlaw the regular selling
of incandescent bulbs because of energy efficiency.
Oh yeah.
I'm on Google now and I've typed in incandescent bulb.
So there's something called a general service lamp,
which is what the type of bulbs that you can plug in.
But if you decide that you want to get a bulb
that you put into your microwave, or a bulb that you would do into a
Type of chandelier. That's a special type of chandelier. Those are still available. You can still get incandescent bulbs for those
What about these kinds of bulbs? Is that an incandescent bulb? That's a
That is a that is an incandescent bulb again for these special type of lights
But I'm talking about the light like like the good old fashioned A90,
I think it's called, or light bulb that you just screw in.
Those are the 120 watts,
those are getting more difficult.
It's harder to find.
You can't go down to your home depot and find them there.
So Glenn Jeffery, and this is a pre-print that he's done,
he actually took people that were working in this environment
with LED bulbs.
He's actually, it's not peer reviewed,
it's not published yet, but it's a preprint.
It's available on the internet, so I'm not speaking out of class.
And what he did with 22 people is he switched out these LED
bulbs and put in incandescent bulbs.
And there was a 25% improvement in color differentiation in his study.
What does that mean?
They were able to distinguish colors 25% better than they were when they were exposed to LED.
When I say LED bulbs, these are the bulbs that are high on the blue end.
So why would that be?
The retina, which is the back of your eye, wherein the light is coming in, They're high on the blue end. So why would that be?
The retina, which is the back of your eye, wherein the light is coming in, there's these
cones that are tremendously metabolically active.
They're constantly updating, sending signals to the brain.
And it's the one tissue in your body with the most amount of mitochondria.
And it's because they have to supply a lot of energy.
As somebody gets older, that mitochondria is not producing the same amount of energy.
And so the ability of the energy that those cones have to draw on to do their work is
less and so they're not going to do the job as well.
If you can perhaps increase the amount of output of energy from those mitochondria,
you could improve the ability to visually perceive.
And Glenn Jeffries has done this study already where he, for just three minutes, 670 nanometer
light very similar to that mask in the eye, only in the morning, improved those people's ability to visualize
and actually see.
And what does that mean for the broader picture of eye health?
They would be able to distinguish colors better and actually improve their vision.
That's basically what it means.
And so the question goes back to the first question that you had at the very beginning
of the podcast, which is, what is the effect question that you had at the very beginning of the podcast,
which is what is the effect of low energy output
from the mitochondria?
Well, it depends on what tissue the mitochondria is in.
And so if it's in the eye,
then it's gonna be a better visual perception.
If it's in the brain, it's dementia.
If it's, you see what I'm saying?
So what we start to see is we start to see
that a myriad of different diseases are affected by the sun.
I challenge anyone to do this.
If you look at a publication in the United States,
I've seen it, where they map out the amount of deaths
in a calendar day, cardiac disease, respiratory disease,
kidney disease, respiratory disease,
kidney disease, pneumonia, all sorts of diseases, infectious diseases, non-infectious diseases.
You will see a very clear pattern.
The maximum amount of deaths every year
occurs within a month after the shortest day of the year.
So we're talking December, January.
after the shortest day of the year.
So we're talking December, January.
We see the most amount of influenza deaths at that time.
We see the most amount of cardiac deaths at that time. We see the most amount of kidney deaths at that time.
So you might ask, well that that's because
that's because people get together at Christmas time and they spread the germs around more and we have Thanksgiving in late November here in the United States And and and that's what's going on
The problem is is if you look at Australia
Which is on the other end. So when is their longest day of the year?
their longest day of the year is in December and
That's when they have the least amount of deaths despite the fact that they're all getting together for Christmas in December so that doesn't
fly. It's exactly the opposite. The most amount of deaths occur in Australia in
the southern hemisphere in June to July. That's their winter and so what you see
is deaths are correlated to the length of the day. This is the reason why
whenever they have to,
whenever they show you deaths in the year,
they always have to seasonally adjust it.
And the length of the day is a proxy for the amount of sunlight.
Absolutely.
You're much more likely to get sunlight
on the longest day of the year,
than the shortest day of the year,
especially when, and this is well known,
there are some months, especially in people who are doing shift work, like 7am to 7pm, there's literally
like December and January, you will not see the sun because you are going off to work
before the sun gets up and you're coming home after the sun is long set.
So you're not able to see the sun.
And so you could go literally weeks without seeing the sun at all.
Is there an optimal time of day to get sunlight?
Yes.
So optimal time of day to get sunlight would be for those that are concerned about getting
damage from ultraviolet radiation.
As we talked about, when the sun is low in the sky, that's going to be beneficial because the ultraviolet cannot
penetrate obliquely through the atmosphere,
as well as long wavelength radiation.
So when the sun is coming up.
So in the mornings.
In the mornings.
And when the sun is going down in the evenings.
That's going to be the time where
you're going to get proportionally more infrared
light and the least amount of ultraviolet light.
Now, when the sun is directly overhead at noon, you're going to be getting the most amount of infrared light at the least amount of ultraviolet light. Now, when the sun is directly overhead at noon,
you're gonna be getting the most amount of infrared light
at that time, but you're also gonna be getting
a lot of ultraviolet radiation.
And so, if you're not someone that's gone out
into the sun a lot, you may wanna avoid this period of time.
Or, as we talked about, put on a broad-rimmed hat.
Put on clothes.
I mean, more clothes.
Because, as we said, ultraviolet light
does not penetrate through clothes very well.
But infrared light can.
Does it matter where the sun is hitting on my body?
Shouldn't.
So if I go outside and I'm wearing a big hat,
it's obviously gonna cover my eyes, my face.
Yes.
But it'll be hitting my legs.
For the purposes that we're talking about
with the mitochondria, it will not matter.
However, if we're talking about circadian rhythm, if we're talking about with the mitochondria, it will not matter. However, if we're talking about circadian rhythm,
if we're talking about getting the circadian rhythm,
that pathway is through the eyes.
So you wanna maximize light through the eyes.
Yeah, so this type of a light is called a sad light.
So your question has to do with what part of the body
does it need to touch or need to be touching.
So for the effect of the mitochondria
and the metabolic effects, it should not matter, okay?
For this type of a light though,
what we're looking at is circadian rhythm.
And that's a completely different system
that we're talking about.
That's not mitochondrial.
That has to do with the internal clock
that's in your brain that is regulating
when all of these things in your body happens.
And this light is about 10,000 lux.
Lux is a way of measuring the brightness of light.
And what studies have shown is that when you shine
this type of a light into your eyes,
it's the way of adjusting your circadian rhythm.
You know if you have a clock
and it's not set to the right time,
there's a little thing at the back that you can pull out
and you can change the time.
That pulling out and changing the time about when things happen in your body is affected
most by light.
And light can actually shift it one way or the other depending on when you're shining
that light.
If you're shining the light in the morning time, and this is what a lot of people do,
is they'll use these, what they call SAD lights.
SAD stands for seasonal affective disorder
these lights especially in the morning have a way of of not only
Setting your circadian rhythm and making sure it's on track, but also reducing depression
There's a there's a portion in your brain that receives light information. It's called the peri-hebemular nucleus
It's a long name, but it's information, it's called the perihabenular nucleus.
It's a long name, but it's back there.
And if it doesn't get stimulated, it can cause depression.
And so for people who live at high latitudes,
further away, closer to the poles,
where the sun is getting up very late in the morning,
they're already off at work inside,
this can actually be very beneficial.
So what I would recommend doing,
you can pick these up pretty cheaply on Amazon
for about 20 bucks, but they should generally be about
11 to 16 inches from your face.
And what people should be getting is about 3,000 lux hours.
And what I mean by lux hours is you multiply the lux
times the amount of hours that you're wearing it.
So 3,000 is where you ought to be. Because this is 10,000 lux, you only have to look at it for about a
third of an hour or 20 minutes, and that should be enough.
So is this a replacement for going outside?
It's a replacement for going outside because of the fact that you're living at a very high
latitude and the Sun is not up. And because of the job that you have, it's
going to have that effect.
But realize that this will not replace the effect that the sun has on your mitochondria.
This is only to affect the effect that lack of sunlight has on depression.
Okay, so what if I'm looking at the sun out of a window?
It depends on the window.
So you're not still the window is going to be reducing the amount of luck.
So I would not recommend if you can I would not recommend
I would not say that staying inside looking out the window is the same as going outside
That's number one. The other thing that you have to understand is a lot of these windows, especially if they're modern windows
Will be specifically designed to reduce infrared light
I want you to give some any information you have as it relates to light health
Yeah, that will
improve my life.
Things that I can actionably do tomorrow.
Obviously one of them is that I'm going to go outside and make sure I get some sunlight,
ideally in the morning.
We talked about this sand lamp for people especially that live in certain countries
which have less sunlight to set their circadian rhythm and to help with things like mental
health.
Is there anything else I should be thinking about or can do or change?
Yes. So just like we had in our mnemonic of New Start, rest and exercise,
both at the same time and yet they're sort of like opposite of each other.
It's important to have darkness.
It's important to have darkness. And this is a real issue.
This is one of the biggest issues is the fact there was a study that was published recently and
the title was dark days and bright nights and
that correlated with
increased mortality
That's how most of us live. That's the problem
We have dark days and we have bright nights and what we really should be having is bright days and dark nights
So just as important as it is to have bright
sunlight and getting outside in the middle of the day, we also need to start
working on getting darker nights as well. And how do we do that? Turning things off.
Getting these screens away from our eyes. These are really important because the
screens have a lot of light and the light, what's going on here, this is the
reason why it's important, there's two reasons actually, and the light what's going on here this the reason why it's important There's two reasons actually is the light that's going into our eyes is
Is doing two things at night number one
It is shutting down melatonin production from the pineal gland and as we just talked about melatonin is a very powerful antioxidant
That's very beneficial
The second thing that it's doing is it's confusing your circadian rhythm
You see your circadian rhythm. You see, your circadian rhythm
is designed to see light as day.
If your eyes are seeing light,
your brain thinks it's the day.
So if it's 10 o'clock at night
and your eyes are seeing light,
your circadian rhythm is saying,
I must have made a mistake.
I thought it was 10 o'clock.
It must not be 10 o'clock because look, there is light.
And so what it's going to do is it's going to adjust itself and
Delay everything because it's saying well, it can't be 10 o'clock at night
It must be 6 o'clock and so therefore when you would normally feel
tired and sleepy at 10 o'clock at night
After a number of days of doing this you're not to feel sleepy until one o'clock in the morning.
These devices we have, they spit out a lot of blue light, right?
Yes.
Is there a way to like turn that off?
Yeah, well actually a lot of these come with tied to the clock where after a certain time of night it will shift its spectrum to a more red spectrum.
So it's giving you less blue light.
The problem is, is that while the sensor in your eyes
are tuned more to blue light, it's not just blue light.
So really the solution,
the best solution is to turn off the light.
The next best solution is to have more of a red shift
where you don't put these glasses on at night.
So these are blue blockers, they're trying to eliminate blue, but I'm still getting light
in and that's enough light to shut down melatonin production.
Even with those on?
Yeah, absolutely.
But you're telling me these help?
They're better than not turning off the light.
And you're saying I still get light in because there's light coming over the top?
Even that light there is still going to bleed and it's gonna bleed into that part of the spectrum and cause melatonin to be shut down.
Yeah.
So it's just the eyes are the sort of the debrometer for what time of day it is.
Correct. And the problem is is that even when you close your lids, light can still get through the lids.
What do you think of these sleep masks? I think they're great in terms of the fact
that we now know that closing your eyelids
still can allow some light to go in.
So if you're sleeping in an environment
where light is out of your control,
if you're living in the city and you can close your blinds
but there's still light that's coming in,
these things could actually be very beneficial.
I don't recommend night lights in bedrooms.
You don't recommend them?
I do not.
Even clock radios or air conditioners with LED displays on them.
That's just like total light pollution to your bedroom.
Your bedroom should be as dark as possible.
What if I have those lamps that don't have blue light in them?
Because I think my girlfriend's put some of those by the bed.
Yeah.
Do they, are they still not great?
Again, the best thing is no light.
The second best thing is light with no blue light in it.
And then the worst is, you know, blue light.
What about candlelight?
That's interesting.
There was a study that was done where they compared someone reading at night with a book with a light bulb shining on it versus the LED, you know, like a Kindle or whatever.
Okay. What they found was that there was a lot more light coming out of the Kindle than there was just reading the book with the lamp. And it delayed sleep onset.
Which delayed sleep onset.
Which delayed sleep onset?
The Kindle.
The Kindle.
Yeah, it delayed sleep onset.
Enough to actually delay the circadian rhythm and shut down melatonin production.
So the answer to your question is, is candlelight's great.
The only thing I'd be concerned about is just the fire risk.
Yeah, because you fall asleep with that thing.
Exactly.
So the adjacent topic there was vitamin D, which we touched on a little bit.
Do vitamin D supplements work?
Oh yeah, certainly.
They do work.
They've tested them.
Yeah.
There's a number of studies that have come out.
Martino actually published in the British Medical Journal.
This was back before 2020.
It was a meta-analysis of randomized controlled trials showed that people who supplement every
day with vitamin D had lower risks of acute chest syndrome.
The other one, there was a recent study that came out that showed that people who
supplemented with 2,000 international units a daily of vitamin D had a lower risk of all-cause autoimmune conditions.
We're talking rheumatoid arthritis,
Crohn's disease, ulcerative colitis, you name it.
That was a study that came out that we actually reviewed that on our MedCram channel.
Because I've heard before in the past that a lot of vitamin supplements we take don't even get into our bloodstream and into our bodies.
Yeah, so vitamin D is very interesting.
It is a supplement and it is a vitamin, but it's also a hormone.
It actually manipulates It is a supplement and it is a vitamin, but it's also a hormone.
It actually manipulates DNA production.
So it is quite interesting.
But these are well-described randomized controlled trials.
So if you're looking at the autoimmune condition,
this was actually a study that was designed looking at cardiac disease.
They actually had two arms, one with omega fatty acids and vitamin D,
and they showed that in the vitamin D group, there was a statistically reduction,
statistically significant reduction in autoimmune conditions.
I supplement with vitamin D. Here's the concern I have,
is if you are going to supplement with vitamin D, make sure that
you get your levels checked.
Why?
The reason is because it is a fat soluble vitamin and it is possible to take too much.
What happens if you take too much?
It can affect calcium metabolism and you can have issues with calcium, too high levels
of calcium.
It's very rare, but it can happen.
And I don't mean to say that in a sense
that I would dissuade people from supplementing
because I think supplementation can be good,
but at some point you wanna get a level check
to see where you are.
The other reason is because based on your body habitus,
based on your skin color, because people with darker skin,
it's harder for them to make their own vitamin D
They need to be more time outside, especially if they're at high latitudes
So like me living in the UK exactly I need to be outside more
It's gonna be harder for you to make as much vitamin D as
Somebody who for instance if you were living at a lower latitude or if you had lighter skin. Yeah
What is vitamin D doing in my body? Oh good question
Lots of things so vitamin D if you were to look at the the structure of vitamin D actually I should did research on this
Interestingly in college used to make starting material for the graduate students
It's it's a lipid soluble molecule and because it's lipid soluble
it's able to go right through into the nucleus and actually go onto
the DNA and combine with proteins that actually affect the transcription of your DNA.
So in other words, depending on which cell type we're talking about, it can cause a lot
of interesting changes.
So it affects calcium metabolism.
There's vitamin D receptors on your immune system.
So it affects your immune system,
it affects calcium metabolism, a whole host of things.
My team did some research and found
that approximately one billion people globally
have a vitamin D deficiency.
Not surprising.
And about 50% of the global population
has insufficient levels of vitamin D.
Absolutely.
Yeah, yeah, so the issue is that as the world becomes more industrialized,
as the world becomes more well-off,
they're able to create dwellings,
and they're able to air-condition those dwellings.
And we, as human beings, tend to avoid extremes.
We don't like things too hot, we don't like things too cold.
Let's face it, in our cars we have something called climate control.
We can set the temperature and that's what the temperature is going to be.
There's other implications which we can talk about in terms of hydrotherapy perhaps if we get to that.
But the issue is we don't like those extremes, we don't like going out into the sun.
And when we don't do that, we suffer the consequences. Is there a way for me to get vitamin D without supplementation and without going into the sun. And when we don't do that, we suffer the consequences.
Is there a way for me to get vitamin D without supplementation and without going into the
sun?
Yes. It's in certain foods as well. Mushrooms, for instance, certain types of fish. They
have vitamin D in them as well.
This is a strange question. But do you think our body knows which foods we're deficient in?
And really what I'm saying there is, if I'm vitamin D deficient, do you think there's
a part of my body that knows that I need to eat mushrooms?
That's a good question.
And that makes me hungry for mushrooms?
I don't know about that particularly.
I can say this though.
In people who don't get enough sleep, we tend to have a predilection to eating more carbohydrate rich foods. That one we do know.
Okay.
And this is the reason why many scientists believe that people who don't get enough sleep
tend to have food choices that tend to put weight on.
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Of these cards that we have left in front of us from the new start framework,
which one are you compelled to talk about next?
Water.
Water.
Yeah.
Okay.
So tell me what you mean by water. Cause people will think, yeah, I drink enough water.
Well first of all, I don't think we do drink enough water, but everyone talks about the
internal use of water, and it makes sense.
But as I was talking about before, the external use of water can actually be very impressive.
And it has to do with body temperature, and it has to do with the immune system.
So we'll talk about water,
but let's sort of set the framework for that conversation.
Your immune system is broken up into two types.
There's the innate immune system and the adaptive.
We've become very familiar
with the adaptive immune system during COVID
because all of the talk was about antibodies and antigens,
and the fact that SARS-CoV-2 was mutating and would the vaccines that
made antibodies against them be still functional. All of that where we have
like where we literally have a key with a keyhole that it fits into and turns
the lock and these antibodies and they fit that's all the adaptive immune system.
It's very important but it completely eliminates or removes from discussion the innate
immune system. The innate immune system is really the body's first defense. And
what's happening there is there's these cells that are circulating, cells like
monocytes and natural killer cells and a number of other cells, which scour the body always looking for something
that looks foreign to it.
And it can tell based on the molecular patterns
of these invaders that they're not supposed to be there,
and they should be eaten up.
The major effector of this innate immune system
is something called interferon.
Interferon is a very important molecule in the body, and it is so effective at preventing
viral infections that just about every single viral infection that plagues the human body
today has a defense mechanism against interferon
It is it is a prerequisite
There's no self
Respecting virus that can think it's gonna infect the human body without dealing with the issue of interferon
Period think about interferon as the security guard at the bank.
And if you want to rob a bank,
you've gotta have a plan for how you're gonna deal
with the security guard.
Otherwise, you're not getting the money.
Does that make sense?
Yeah.
So there was actually an article that was published
a couple of years ago where they talked about
this battle between interferon and emerging viruses
and what viruses are doing to try to get around interferon.
You may recall that back in 2002,
we had an outbreak of something called SARS,
which especially was pretty bad in China,
but also in Canada.
The reason why we were able to secure that outbreak
was because that everybody who came down with SARS
developed a fever.
And so it was easy to tell who those people were, and we were able to hospitalize and
isolate them.
The issue with SARS-CoV-2, and indeed many infections like the common cold, is that you
don't necessarily get a fever.
And fever is really important.
And you're like, what does this have to do with water?
We're going to talk about this.
Interferon production goes up with temperature.
And in fact, the body's fever mechanism
is one of the ways that it tells the body
that it needs to increase interferon
to deal with the viral infection.
Is that why you feel hot?
You feel hot, you may actually feel cold.
And the reason why you might feel cold and even have chills
is because the way you feel is a product
of what your temperature is and what your thermostat
in your body is set to.
So if your body's thermostat is saying,
okay, here we are at 98.6,
or I guess in terms of Celsius, 37 degrees.
And you develop an infection.
The body's gonna say, whoa, we have an infection,
and we need to increase the body temperature.
We're going from 37 degrees, or 98.6,
up to 38 degrees, or 100.4.
Because your actual body temperature is below
where your body wants it to be, you're gonna feel cold,
you're gonna shiver to try to increase that temperature,
so you go up with that.
Now, once the fever is done and the infection is done,
and it comes down, you're gonna break a sweat.
So that's why when someone, oh, he's sweating,
that means the fever is breaking,
that means your temperature is coming down.
So typically you'll feel cold,
you'll feel like you're shivering,
you'll wanna get into bed and put the covers on, and that's when your temperature is coming down. So typically you'll feel cold, you'll feel like you're shivering,
you'll wanna get into bed and put the covers on,
and that's when your temperature goes up.
And that's for a reason,
because what happens when the temperature
goes up in your body is that creates an environment
where the virus can't replicate very well.
All viruses really cannot replicate very well
at high temperatures, including SARS-CoV-2.
It's also a signal to your body to produce more interferon.
So there was a study that was published last year
where they looked in mice,
which by the way have the same body temperature as we do,
and they found that there was like
five different regulatory proteins,
all of which led to one endpoint,
and that was to produce this thing called interferon. All of them jumped in production when
your body went from 37 degrees to 38 degrees. That's basically right below a
fever, right? So the take-home point that I got from all of that was that
we should not really be treating fevers
unless they're so high that there's other complications
that could occur like, you know,
racing heart rates or having seizures.
But we do this all the time.
We treat fevers because it makes us feel bad
and we think that by treating the fever we'll feel better,
but what we're actually doing is we're cutting the legs out from our immune system
because part of the immune system response
is to generate a fever and the fever generates interferon.
Now, I don't wanna overstate this,
but let's compare the innate immune system
to the adaptive immune system.
The adaptive immune system is pretty specific
for a particular variant of a virus.
And for a virus that mutates very rapidly, like SARS-CoV-2, the immunization may be very
good in terms of binding.
But if that virus mutates, that binding is going to be affected in some way.
It may not affect hospitalization, but maybe in terms of preventing infection.
You understand what I'm saying?
So the different variants, we had the alpha variant,
then we had the delta variant, then we had Omicron, et cetera.
Those are material changes for the adaptive immune system.
For the innate immune system, for interferon, it doesn't matter.
Interferon is just as effective against alpha as it was for delta as it would be for Omicron.
So let's set this up again.
Water.
We said that water has a very high specific heat,
which means that if I apply hot water onto the human body,
it's able to transfer heat.
This is why people can get burned with boiling water.
We don't obviously wanna burn anybody, but if we're able to put them into a sauna, if we're able to transfer heat. This is why people can get burned with boiling water.
We don't obviously want to burn anybody.
But if we're able to put them into a sauna, if we're able to put them into a spa, if we're
able to use hot towels and apply it to the human body to heat up their body to cause
a sweat, in other words, if we're able to induce artificial fevers in patients who have
these infections, there seems to be evidence that the interferon response will
be better.
There was a study that was done looking at lymphocytes and taking them out of the human
body and at different temperatures, once it hit about 38, 39 degrees, there was off the
charts tenfold increase in interferon, which is exactly what you would want to have.
Now how do I know that interferon levels are so important in things like COVID-19?
Well, there was a study that was done that showed that high levels of interferon
correlated with more mild SARS-CoV-2 infections, and that people that had low interferon levels
had very severe COVID-19 infections.
So you suggesting that we should be in the sauna more often?
Yes.
And it's based on data that has been well documented
in the Finnish sauna realm.
So people who use sauna four, five, six, seven times a week
are more likely to have less death from cardiovascular
disease than people who use sauna once a week.
And in Finland, once a week is kind of the standard.
And why do they say to do hot and cold therapy together?
So they would, I would argue that the reason why it has been argued to do this, and this
goes back to a number of papers that have been written back over 100 years ago, is what
you're doing when you're doing hot for a long period of time, let's say 20 minutes in the
sauna, and what you're doing is you're heating up the body, and the whole purpose of that
is to increase the body temperature.
What the cold at the end does is it does two things,
they believe.
The first thing that it does is it causes vasoconstriction.
So you put a brief amount of cold onto the body,
it's gonna cause vasoconstriction superficially
so that when you're done,
you're not gonna lose as much heat
through those blood vessels.
And so you're gonna keep the core body temperature higher
for long, which is exactly what you wanna to do the other thing that cold water does again is the vasoconstriction when you it's well known that
When you take a cold shower
Your blood vessels constrict and when when you look at a blood vessel on end in in a person who's living and circulating
There are a number of white blood cells that are latched on to the inside surface of that blood vessel. When that blood vessel contracts, a lot of
those white blood cells that were stuck get kicked off into circulation and they
go off and they do whatever is that they're gonna do. It's called demargination.
So two things for cold right at the end. Doesn't have to be very long, maybe just
a minute. It causes actually to keep your body temperature higher
for longer, ironically, and number two, demargination.
So that's water, which is the W.
Of these, which ones do you want to pick next?
Which ones do you find most compelling?
Let's talk about air real briefly.
So we said that air is not just the lack of toxins,
but actually benefits.
So first of all, we wanna have good oxygen.
We wanna get rid of carbon dioxide,
especially in buildings when there's no ventilation.
That's not good.
But there's been an actually number of studies
looking at plants and trees,
and the fact that they can give off things like phytoncides.
What's that?
These are aromatic compounds that the tree actually gives off.
And when we look to see the effect of these compounds on the human body,
they're actually very beneficial.
They interact with our immune system and elevate our immune system
and actually can make us more relaxed.
There's a lot of data in the Japanese literature on this in the, what
they call the, the Hanoi Cypress forests, where they looked at these CEOs. There's a
podcast about CEOs. There's these CEOs in Japan. And they took them from their jobs
and basically took them up into the mountains of the Hanoi Cypress and had them walk around,
took blood tests. And they found that the natural killer
cells, which are so important in terms of immunity,
were not only increased in number,
but they were also the enzymes within them
that break down diseases or viruses, were also increased.
So when they brought them back down to the city in Japan, they put them up
in hotels and they infused some of these chemicals, these naturally produced phytoncides, they're
called, and they had almost exactly the same effect in these subjects.
So you think plants and being out in nature could actually be giving us much more than just clean air.
It's giving us chemicals which help us fight disease.
Absolutely.
So again, here's this dichotomy.
Inside versus outside, what do you get when you're outside?
We've already talked about exercise.
We've already talked about sunlight.
And now we're adding to it fresh air, not just the fact
that you have low pollutants,
which is certainly very important, but the fact that when you're around green plants,
when you're around green trees, there could actually be a benefit.
By the way, the benefit that they found lasted for about seven days.
So just going out one day a week can actually have that benefit.
I think a lot about carbon dioxide,
obviously because I spent a lot of time
sat in the studio recording,
and this is our big LA studio,
but in the UK it started in a really small room,
and there wasn't air conditioning.
And obviously I sit here sometimes
for several hours with a guest,
and we're recycling CO2 at that point.
And then I read a couple of studies
that showed the impact that would have
on my cognitive performance.
Yes.
That's all true.
We actually had on our channel with MedCram, we had Dr. Joseph Allen out of the Harvard
Public School of Health.
And he showed us.
I mean, he literally had the CO2 meter and just by cracking the window, just a little
bit, allowed carbon dioxide to escape
and brought down those carbon dioxide levels. So very important, absolutely.
And for people that work in offices or travel in hotel rooms or are inside a lot,
what should they be thinking about and how can they go about making sure that the air quality is optimal?
Well, the surrogate for that is carbon dioxide, as we mentioned.
So is cracking open a window if they're able to,
if there's a door that they can open up safely
without compromising security.
These are all things that will be very beneficial.
Even rolling down the window in the car
and maybe making sure that we're taking
that recirculation button off when we're driving.
I've got friends that won't stay in certain hotel rooms
unless the window opens.
Because you know in a lot of hotel rooms, especially
that are high up, you can't open the windows.
And there's also a bunch of devices that we,
in our UK studio, which is smaller,
we found on Amazon for not super expensive
that we just sometimes put on the floor in the studio
just to see how we're doing.
I'll link some of that stuff on screen
if anyone's interested in seeing what the CO2 levels are
in whatever room you're working in.
Yeah.
What's next on your list then?
Well, we've talked about exercise, nutrition, temperance.
These are things that a lot of people talk about.
Not many people talk about trust.
When you say trust, you really mean religious faith and-
Religious faith, something that would give you
a way of dealing with stress and anxiety.
That's really where this comes down.
And there's been actually a number of studies that have looked at that.
So yeah, basically the Bible.
Or it doesn't have to be the Bible as well.
There's other faith denominations that look into this as well.
A number of studies that have looked at trust in God and how that relates
to
Anxiety so a number of studies have shown that people who have a good
Faith and trust in a God that is or in a religion that is supportive and not non supportive
Can they have less anxiety less depression have a faith community that they can?
engage with and be supportive.
And I think that the literature is, whereas you have the science behind that is not as
strict as it would be for like a randomized placebo controlled trial.
There's a lot of associations that you have to say here that it certainly is one of those
pillars that I believe helps with all of those links.
What do you think is going on there? So you're telling me that from what the literature is saying,
people who have a faith in a God are insulated from depression and anxiety in some interesting way.
Yeah, that's a question that a lot of people have tried to answer,
and they believe that it comes down to if you have a trust in a God that is looking out for you
and is there on your side,
then that type of relationship does lead,
is associate, let's say,
I shouldn't say does lead to,
because that implies causation.
Let's say it's associated with a reduction in depression,
a reduction in anxiety, particularly. There are some studies
that have been done particularly in Christianity where there was a study that was published,
this is Krauss and out of I believe University of Texas, where he did a survey and he asked people
how they forgive and he basically divided them to two different groups.
There were people that would forgive conditionally
and people that would forgive unconditionally.
Let me put it into practical terms.
Someone does something to you.
And you say, oh, that's okay, I forgive you.
The question is, would you forgive that?
There are some people that would only forgive
if that person came back and did some sort of act of contrition. Like, okay, I'll forgive if that person came back and did some sort
of act of contrition.
Like, okay, I'll forgive that person
that came back and apologized.
Or I'll forgive that person that came back
and they just, you know, whatever it is.
That would be considered conditional forgiveness.
The other type is unconditional forgiveness.
So in other words, someone does something to you,
you don't see them again.
Or they've never expressed any kind of, you know, being
apologetic for what they did. They still get forgiven. So that's unconditional forgiveness.
What they found in this study, when they divided that, is that the people
that forgave unconditionally had less depression, they had less feelings of inadequacy, they had less anxiety regarding end of life,
they had all of these, they had more,
the people that forgave conditionally
had more somatization of depression.
So these were real medical, you know,
things that they could actually diagnose with surveys
and tests that are well validated.
And what would decide between these two
was how they forgave.
So they were puzzled by this.
They said, well, then what determines whether or not
someone is gonna forgive conditionally
versus unconditionally?
So they looked at a bunch of factors,
and none of them stood out except for one.
And the odds ratio on this was like 2.5.
And it boiled down to this one question.
Do you believe that God has forgiven you?
That was the major thing.
If somebody believed that the God that they had faith in had forgiven them,
they were two and a half times more likely to forgive somebody unconditionally.
Which then meant?
Which then was associated with all of these other things being low, like less depression,
less anxiety.
So to me, that's fascinating that in their minds, this is what's actually happening.
And so there have been randomized controlled trials where they have, when people are doing therapy,
like you say, have you have anxiety,
there is cognitive behavioral therapy
that we can do for those people.
But what has been shown in a randomized placebo controlled
fashion is that if somebody is of a faith
and you inject into that cognitive behavioral therapy
aspects of that faith, the cognitive behavioral
therapy is even more effective.
So I guess I should preface this by saying I don't believe that any of this stuff should
be placed on people without their permission.
So I'm working, I work in a healthcare environment.
So do I go and pray for people who don't believe?
No, this is something that always has to be done,
has to be asked permission.
Do you think people who believe in God
are healthier generally?
All other factors?
It would seem the data would indicate
that people
who have a healthy relationship with their church,
who have a healthy relationship in God,
are associated with less disease.
Because from a causation point of view, you could say-
Causation, yeah.
So this is what we don't-
They probably have more friends, they probably have-
Yeah, so the question is whether or not people
who are healthier and have more friends are more likely
to be religious or is it the other way around? And sometimes it's difficult to tell those things.
I imagine there's a great calming force that comes from believing in a higher power.
Absolutely. And the other thing that's interesting about all of these like new start stuff is when you look at other particular religions, how a lot of these things are actually incorporated
in this.
Like for instance, the Hindus are very famous for getting up in the morning and welcoming
the sun.
We just talked about the benefits of sunlight.
We didn't talk too much about nutrition, but fasting is an important part of that.
And Muslims are obviously part
of their religion is actually doing fasting during Ramadan.
So religions have hot and cold practice as well, don't they?
Yes. And on the flip side of that, I would say that it's also shown that if you have
a unhealthy relationship, like if you believe in a God who is vindictive, or who's out to
get you or who's going to do something to you unless you do something else, that has also been shown to be negatively
impactful.
So it depends on the relationship that you've got.
What do you see in your practice?
Because you said something earlier that you're often there at the end of people's lives.
Yeah.
Unfortunately, sometimes I'm the last person they see.
You start to realize that death is inevitable, and all we do in medicine is delay the inevitable.
So what we try to do, and I have a colleague who's very philosophical about this, is we
try to make sure that when these things happen,
that they happen with dignity
and we celebrate the person's life
and making sure that it's done in the way
that they would want to have it done.
What do people say as they're about to die?
People become very, it's very different for different people,
but they can become very circumspect
and I've seen such contrasts.
People are ready to go.
People feel like they've done what they've come to do,
and they don't want anything further to do.
We're there to delay death.
We're there to put them on a ventilator
or to give them this medication.
And you would be surprised.
People who look relatively healthy and something would be surprised people who are look, you know, relatively healthy
But and something is happening that we could easily correct. They're like no, I I don't want that
I I choose not to have that and we have to respect obviously what they what they choose
Obviously, we have to educate them to make sure that they're making the right choice
But once once they're given all the information ultimately, they're the one that makes the decision. So you see people choose death
When we can intervene in artificial ways, they would rather not have that and they would choose death
Yes, are there any particular cases that changed you? Yeah
Yeah, there's there's there's a case that changed me but not in the way that we've just been talking about was horrible
This is this is actually a miracle
I've actually seen a miracle happen.
And for me, it happened early in my training.
So it made me think twice about being a prognosticating physician.
A prognosticating physician.
Yeah, saying, oh, you're never going to walk again,
or you've only got two years to live.
I must have missed that day in med school.
I just didn't show up that day.
This was a young guy. He had testicular cancer. And he went to the operation. The testicular
cancer surgery was a success. Unfortunately, during the operation, something happened.
He didn't get enough oxygen to the brain, and he came out of the operation with anoxic injury of the brain.
This guy must have been in his 20s.
And he had a young wife.
And I had come onto the rotation as a resident.
And we had attendings.
And you have to realize in medicine, you have attendings above you.
And what they say is just, you know, that's the word.
That's what happens.
And the ICU attendant, we were the ones
that were sort of taking care of the patient
because he was on a ventilator,
but there was the neurologist who looked at everything
and says, look, this guy is not waking up.
He has severe anoxic brain injury.
We've looked at the scans.
This is what's gonna happen.
And so, every day we'd round on this guy
and he was just a shaking mess. He was just there, he was just kind of shaking, his eyes were rolling, no response, nothing.
And every day his wife would come in, young wife, and she just didn't believe that this
guy was going to be like this for the rest of his life.
He was going to wake up eventually.
And so she would be at his bedside, like attending to him and making sure this, that,
and the other.
And even asking us to put some special concoction
that she made at home into his tube feeding
so that this could go and help him make him better.
And we would go along with her,
but I was looking into my attendings and they're like,
she doesn't understand what's going on.
She doesn't understand that he's never gonna wake up.
So this is what I'm seeing.
One day she came in and she just had this smile on her face.
She was just so at peace and a smile.
And they were Hispanic couples,
so we had to ask a translator what was going on.
And she told us, she said,
I had a dream last night.
I had a dream that he was gonna come home.
And she was convinced, just absolutely happy, beaming,
and we're like, man, this lady is crazy.
She doesn't understand what's going on.
Well, days went on, weeks went on,
and one day, and where I was rounding, it was in this round nursing,
the nursing station's in the middle,
and the doors to the rooms are all around in a periphery.
And we were going around the circle,
rounding on the patients.
And I could look in, and I saw him,
and he was kind of shaking,
but he was kind of opening his eyes.
And I said, he seems to be focusing a little bit,
his eyes seem to be focusing a little bit more
than they would be. And he kind of, I just said, he seems to be focusing a little bit, his eyes seem to be focusing a little bit more than they would be.
And he kind of, I just said, I just kind of put my hand up like this and I just kind of,
and sure enough, he put his hand up like this, shaking, and he put it back down again.
I'm like, what?
He waved at you.
Yeah.
What?
And I said, let's go check this out again.
Long story short, it took months, but that guy walked out of that hospital.
Six months later, he and his wife came back, walked onto the unit like there was nothing
wrong with the guy, and he gave us a big basket of flowers to thank that unit for what they
had done for him.
In my mind, I knew that for most of that staff, for most of that time, people were just going
through the motions, keeping him alive, because that's what she wanted.
Obviously, when there were signs that this guy was recovering, it was a complete shift.
People were amazed. And so what that did to me in my career
was it made me think twice.
Like, why did this guy get better?
Now, he was 22, he was young,
and typically if something like that is gonna happen,
it's gonna happen in someone who's very young,
whose mind is plastic,
who can survive that type of a situation.
But it really, it was a miracle.
I can't say anything else.
I mean, it's not something that we would know.
All of the experts said that this wasn't going to happen, but it happened.
What do you think happened?
I think he had a loving wife who believed in him.
And something happened outside of the physical and the mental, maybe the spiritual.
I don't know.
It happens, it's very rare, and when it does happen, it happens in young people.
That would be what the medical part of my brain would say.
But the other part of my brain says, you know what, I only know about 10%, maybe 5% of the
world's knowledge.
No, world's knowledge, 1% of the world's knowledge.
Maybe I have 5 to 10% of all of the medical knowledge in this world. And I would say probably
the explanation is somewhere in that other 80 to 90 percent that I just don't know.
I think what it taught me was that we have to be humble about what it is that we know.
There's things that we know, we know, and there's things that we don't know, that we
don't know.
We talked a little bit about this chemical earlier on melatonin.
I just wanted to close off because I had a question on it.
A lot of people take melatonin supplements at night time to help them sleep.
Yes.
Good, bad, and different.
I think it's good in certain situations.
So if you're having difficulty falling asleep, a little tiny dose of melatonin,
no more than five milligrams can be actually very beneficial. If you're wanting to shift
your circadian rhythm back instead of it being pushed back, but you want it to be advanced
forward, melatonin can be very beneficial. It's very beneficial for jet lag. It's also
beneficial for a few sleep diseases, but I would not recommend routinely for no other reason taking large doses of melatonin.
What's the trade? You said earlier in that everything has side effects, right?
Yeah. So taking high doses of melatonin can actually make you more irritable.
Irritable?
Irritable, yeah.
In what regard?
Just mentally irritable. Yeah.
What does that look like?
Things set you off more easily.
So like a mood disorder?
Yeah, absolutely.
Anything else with melatonin that you're aware of?
Not that we have studies for.
People have concerns that sometimes taking too much melatonin may actually affect the
melatonin secretion from the pineal gland itself.
I don't have evidence of that as yet to see if that's actually the case.
Dr. Roger, is there anything else that we haven't discussed
that we should have discussed?
We've discussed a lot.
I think putting it all together is, again, the links.
And if we have those links, medications have their place.
But the way that they work is by breaking down
other parts of the chain to strengthen the weak chain.
That can have an effect, especially at the end of life,
if you want to sustain life.
But if you're interested in longevity,
if you're interested in making and living the best life,
then you want to strengthen all of those chains.
And I believe the key to doing that
is something called New Start.
We have a closing tradition on this podcast where the last guest leaves a question for
the next guest not knowing who they're leaving it for. And the question that was left for
you is, what is the area of your focus that you are most dying to talk about, which you
are almost never asked about? This book, the Bible, which is my tradition,
evidence for science in the Bible.
What do you mean?
What we've been talking about is the body and the health in the body.
I like to put to the test some of the statements in the Bibles to see if they work scientifically.
Like turning water into wine?
No, well, potentially.
That's a miracle.
What I was referring to is this, and this is what I've actually done,
and it's actually quite interesting,
is Paul, who was one of the New Testament writers
in the Bible, wrote to the Corinthians,
don't you understand that your body
is the temple of the Holy Spirit?
I said, that's a really interesting statement.
How would he come to that conclusion?
What does that mean, the temple of the Holy Spirit?
The only temple at that time was the temple in Jerusalem where they would have the sacrifices
and things.
What I did was I went back, and this is answering the question, is I'm looking for evidence
of scientific truth,
probably unknowingly by some of the writers in the Bible
to see whether or not there is truth.
Does that make sense what I'm saying?
So if you look, and most of Exodus 25 through 30
is this painstakingly detailed description of the sanctuary
that Moses built in the wilderness
that he supposedly he got from God.
This is what he says.
So here's a great way to see whether or not
this all fleshes out.
Moses is saying, here's the description of the pattern
that I got for the temple.
And Paul is saying, your body is a temple.
So here's my hypothesis.
If we look at the pattern in the temple, should it match the human body that they had no understanding of
at the time that Paul wrote this?
We didn't know about cells until Van Leeuwenhoek in the 1600s.
We didn't know about the circulation of the heart
until the 1600s with William Harvey, okay?
Yet, if you look in the human body,
you have the blood system.
You have blood circulating around in the vascular system.
And then it goes into the interstitial fluid.
And then the interstitial fluid then goes to the cell,
which there's a plasma membrane on the cell
that you can't penetrate through,
but unless you actually have the proteins to go.
And then it goes into the cell, which is a compartment with two compartments within it,
right?
You've got the cell and the nucleus, right?
This is exactly the same structure that Moses was given in the wilderness.
And by the way, Hindu temples are actually similarly designed.
There's sort of this three-part situation. So you have this altar of sacrifice,
which is where the blood is.
That's the blood in the human body.
Next, you move to the laver,
which is this container full of water,
and that's the interstitial space.
After you go from the blood into the interstitial space,
any pharmacologist will know that this is the exactly the pattern that you move to
The next thing that comes is this structure that has a veil that you can't penetrate through unless you go through it
that's the cell because this the structure is the building and it's got a room within a room and
That's exactly what the cell is. The cell is this nucleus surrounded by the cytoplasm. Well, in this room that you go into at first, there's pieces of furniture in there that are
very similar to the types of organelles that you see in the cytoplasm. So, for instance,
there's this seven branch candlestick that's in there that's burning olive oil and producing
energy. That's like beta oxidation producing energy. That's exactly what you see in the mitochondria.
But the final thing is you move into the nucleus.
And this temple has something called the Most Holy Place
where there's this altar of,
where there's this Ark of the Covenant.
You've seen Indiana Jones, right?
Yeah.
And the first Raiders of the Lost Ark,
there's this ark and you open it up
and this is where the two tablets of stone, the Ten Commandments, rested.
So in that area, you have two tablets of stone written by the hand of God, the code of life,
and according to Jewish and Christian belief that this is the law, and if you break the law, that's how sin is,
and the consequences of sin is disease and death.
Well, when we get to the nucleus of the human body, you have two strands of DNA.
And on the strands of DNA is the code, the nucleotides, of which is the code of life if you manipulate that code that leads to mutations which leads to
disease and death
None of this was known until 1950 when they discovered DNA and yet we have Paul
Who's making this jump and saying your body is the temple of the Holy Spirit. I just I just find that fascinating
Nobody ever asked me about that. But that's what as soon as you ask that question is the temple of the Holy Spirit. I just find that fascinating.
Nobody ever asked me about that.
But as soon as you ask that question,
that's the first thing that pops up.
By the way, there's so many other places
in the scriptures where I see that alluded to.
It's fascinating.
Paul talks about the body of Christ
and how it's one body, but it's made up of parts.
There's the hand, the foot.
He didn't know about cells, but that's exactly what the human body is.
The human body is one body made up of many parts.
Van Leeuwenhoek didn't discover that until the 1600s.
We didn't have self-theory until the 1800s.
So it's interesting to me how statements are made in ancient texts which have scientific
relevance far below the surface. I just find
that interesting.
Thank you so much. And I hope to speak to you again very, very soon. And thank you for
all the work you're doing because you've made some of these difficult scientific subjects
so unbelievably accessible. You have a real art for simplifying. And simplifying in a
way that means that millions of people, you've got millions of subscribers on your YouTube channel, millions of people can access this information which is often confined within the walls of some academic study.
So thank you for the work you're doing because it's going to, I'm sure it's really had a profound impact on many, many millions of people's lives.
And I'm sure my audience are deeply appreciative. So thank you so much, Roger. I appreciate you.
Thank you, Stephen. Thank you for having me on and having this opportunity.
Thank you, Stephen. Thank you for having me on and having this opportunity.
Make sure you keep what I'm about to say to yourself.
I'm inviting 10,000 of you to come even deeper into the dire of a CEO.
Welcome to my inner circle.
This is a brand new private community that I'm launching to the world. We have so many incredible things that happen that you are never shown.
We have the briefs that are on my iPad when I'm recording the conversation.
We have clips we've never released. We have behind-the-scenes conversations with
the guests and also the episodes that we've never ever released and so much
more. In the circle you'll have direct access to me. You can tell us what you
want this show to be, who you want us to interview and the types of conversations
you would love us to have. But remember for now we're only inviting the first
10,000 people that join before it closes.
So if you wanna join our private closed community,
head to the link in the description below
or go to DOACcircle.com.
I will speak to you there.
Quick one before we get back to this episode,
just give me 30 seconds of your time.
Two things I wanted to say.
The first thing is a huge thank you for listening and tuning into the show week after week. It means the world to all of us and this really
is a dream that we absolutely never had and couldn't have imagined getting to this place.
But secondly, it's a dream where we feel like we're only just getting started. And if you
enjoy what we do here, please join the 24% of people that listen to this podcast regularly
and follow us on this app. Here's
a promise I'm going to make to you. I'm going to do everything in my power to make this
show as good as I can now and into the future. We're going to deliver the guests that you
want me to speak to and we're going to continue to keep doing all of the things you love about Thanks for watching!