Change Your Brain Every Day - The Surprising Breakthrough in Stem Cell Therapy, with Dr. Todd Ovokaitys
Episode Date: August 3, 2020Many of the cutting edge innovations in biological research involve the use of stem cells. However, one of the biggest challenges with this type of therapy is getting the new cells to thrive once impl...anted. In this episode of The Brain Warrior’s Way Podcast, Dr. Daniel and Tana Amen are joined by stem cell authority Dr. Todd Ovokaitys to discuss the theory that led to his revolutionary “a-ha” moment and a breakthrough for stem cell technology. For more on Dr. Todd Ovokaitys, visit his page at: http://drtoddo.com/
Transcript
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Welcome to the Brain Warriors Way podcast. I'm Dr. Daniel Amen.
And I'm Tana Amen. In our podcast, we provide you with the tools you need to become a warrior
for the health of your brain and body. The Brain Warriors Way podcast is brought to you
by Amen Clinics, where we have been transforming lives for 30 years using tools like brain spec imaging to personalize treatment to your brain.
For more information, visit amenclinics.com.
The Brain Warriors Way podcast is also brought to you by BrainMD, where we produce the highest quality nutraceuticals to support the health of your brain and body.
To learn more, go to BrainMd.com. Welcome, everyone. We're very excited this week to talk
about one of the newer treatments in medicine that you probably have heard about and have a lot of questions about. So this is going to be stem cell week.
And with us is a national expert, Dr. Todd Ovokitis,
who was first in his class in high school
and won the coveted Bosch and Lomb Scientific
and Bucky Pioneer Awards.
He's also first in his class at Northwestern University
with the highest possible grade point average. And after two years was one of 26 people accepted
into an accelerated undergraduate medical training program at Johns Hopkins University
in medical school, then completed specialty training in internal medicine and
subspecialty training in pulmonary and intensive care medicine at Georgetown University Hospital.
He was assessed by a faculty committee as one of the best residents across the board.
I was that way. He was inspired to move to California to understand energy medicine. And shortly after
the journey, had a vision of communicating with the pure consciousness of DNA. This has resulted
in co-inventing a laser-based interdimensional platform, which has numerous U.S. and international patents granted in the areas of
nutraceuticals, agriculture, including cannabis, and especially stem cell biology. He is also the
composer and at times co-conductor of Lumerian choirs that create patterns of tones and information that can accelerate
expansion of consciousness. Wow. I told you you were going to like it. That was smart,
but really interesting. So Dr. Todd, thank you so much for being on the Brain Warriors Way
podcast. And before we get to Dr. Todd, whatever you learn, and we have to, of
course, talk about the hippocampus because it makes stem cells every day. What is the one thing
you'll learn from this podcast? And we would love for you to write it down and then take a picture
of it and post it on any of your social media sites, but you're going to learn a
lot. Super excited about this. I have so many questions about stem cells. It's one of those
things that I think a lot of us, if you've got injuries or illnesses, we think about doing,
but then there's so many myths and is it ready? And we have all these ideas about it. So I'm
really excited about
this and i want to get some of those questions answered i'm sure you guys do too so don't just
post you know what you've learned we want to know your questions as well so we love answering those
questions and hopefully we will get some of those answers today great so dr todd tell us more about
why you have just been so excited about this field?
Well, my great interests really, I would say,
are health, wellness, and longevity,
especially as it relates to the human potential.
And since I was in the eighth grade,
I had this passion for DNA and understanding it in every aspect of it and had this inner knowing that if we understood everything about DNA, that we'd be able to figure out how to eradicate any illness as well as to rescript our biological program how long we can live and how
youthful and healthful that we can be at it it's so interesting so most eighth grade boys are want
to know everything they can know about girls and you were already focused on dna like that that
just says you're very different right there probably sadly really but it's true that's kind of wild that you were already focused that far ahead into the future
and didn't you you told me you did some work at NIH as well was that in stem cells
yes that is actually where the stem cell story began. And the context was we had just created
a new type of laser technology.
And we can talk a little bit about that.
It kind of helps to be able to show the diagrams
to understand the geometric relationships.
But fundamentally what we invented was a way
to recombine laser waves in a profoundly different way.
So normally laser waves are in phase.
That's how you get a so-called amplified wave.
And what we did was create an optical invention where you could recombine the waves to be exactly out of phase. So when
they're out of phase and you add them together, you actually get a sum zero of the electric and
magnetic fields. And with no net so-called E or B field, then the beam can go much more deeply
through a medium. For example, we work with red for our stem cell
therapy. And the red wavelengths typically only go about five millimeters through tissue,
which is not very far, maybe a quarter inch. And when we recombine the waves in this manner,
at least in theory, that wave pattern can go all the way through the body from one side to the other. So it's a vibrational signal. In a sense, we convert transverse waves of electromagnetic
energy, which are photons, into longitudinal waves that are more sound-like. So it's literally
called photoacoustics, or delivering a sound wave sound wavelength vector through a medium.
And yeah, the NIH connection comes in where we built our first device and we built it in red
because it was cost effective to work at that wavelength. And the question was, will that
waveform interact with anything and do anything? It might go a thousand times
more deeply to a medium, but because of its structure, there might not be an effect. So
the question was, will it do anything? And I had a colleague at the NIH whose specialty was bone
marrow transplantation, and she allowed us to do an experiment. And we had a technology transfer agreement with the NIH for this
and we passed the beam through a flask of stem cell-like cells technically called KG1A cells
and we did it in a typical experiment for five minutes and 15 30 and 60 minutes. And the question was, will it do anything?
So we were more than astounded.
It was our eureka, OMG moment,
when one day later, after having removed the lasers,
that in every single flask from five minutes to 60 minutes,
we saw visibly with the naked eye a line of cells where the beam had been. So the
profundity of that was that we had stumbled upon an architecture of
vibration a homing signal that strongly attracted stem cell like cells to be
where the beam had been and for the cells to adhere to each other, which of course
is critically important for a stem cell to get the information or instructions of what it's
supposed to do or become in tissue. So that was the observation. And if I understand it right,
what's different about your approach with stem cells is that you basically use laser guided technology
to get the stem cells to aggregate and go where you want them to, which is very different. And I
was actually, when I was talking to my team about having you on, I got this crazy idea that if I take a laser and shine it on the wall, I can drive my cat anywhere I want the cat to go.
Because the cat will just follow the laser.
And I'm thinking, I wonder if that's similar, that you're not really making the cat crazy what you're doing.
And I'd never heard about this before with stem cells.
And I'd had stem cells for my shoulder.
They didn't work.
But my mom had them.
And this is why your pulmonary experience was important to me. She had pneumonia
every year that almost killed her for like eight straight years. And then she inhaled stem cells.
And really this has not been a big health issue. She survived COVID.
And so you have a question. No, I'm just curious because of the laser guided stem cells,
because one of the things I have heard in the past is that when they just inject them,
many of them die. So the stems, I'm wondering if the laser guided therapy helps to preserve more
of them. It could, because they're going into one location or a very
specific location. Does it help in some way from that standpoint? It can, yes. And whether the
cells live or don't live is another set of questions about the type of cells being used.
Ah, that's okay. Yeah. And the biggest issue there is the distinction of whether the cells come from the same person, which is described as auto or autologous, or if it comes from a different person, which is called allo or allogeneic.
And in general, allogeneic stem cells, unless they are literally a perfect tissue match, will only last for a relatively short while in tissue.
That makes sense.
Yeah.
So, for example, cord blood is being used relatively regularly in the U.S.,
and it's actually somewhat contrary to the regulations around it,
but that's a different set of questions we might talk about. And the basic utility is that the cells not being a good match, unless they just
coincidentally happen to be a close enough tissue match, that in general, those cells will only last
at most for a few weeks in tissue. They will provide cytokines, chemicals that are growth,
regeneration, and repair factors and they
can get benefits from that but as far as those cells actually incorporating in tissue as new cells
that generally does not happen so our work is almost exclusively now with autologous cells, cells derived from that same person, prepared in a way that the
cells have high viability.
And we use a class of cells that is very unique that we can describe their features that are
incredibly powerful, that are a perfect match for that person, that are small enough to
get to the lung when you inject them, and also small enough to cross the bloodstream very specially
when given a photoacoustic homing signal
to increase the probability that they go where you want them to go.
And that's what we want to talk about.
When we come back, we're going to give you sort of a primer on the science of stem cells and what you need to know.
And if you learn something, hopefully you did, write it down, take a picture of it,
post it, hashtag BrainWarriorsWayPodcast. You can go to BrainWarriorswaypodcast.com, leave us a comment, question, or a review.
Dr. Todd, we're just so grateful. How can people find more about your work?
So there's a site that gives general information, which is drtoddo.com.
Dr. T-O-D-D-otto.com.
drtoddo.com.
That's so much easier.
I love that.
All right.
Stay with us.
We'll be right back.
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