The Peter Attia Drive - #274 - Performance-enhancing drugs and hormones: risks, rewards, and broader implications for the public | Derek: More Plates, More Dates
Episode Date: October 9, 2023View the Show Notes Page for This Episode Become a Member to Receive Exclusive Content Sign Up to Receive Peter’s Weekly Newsletter We discuss: Derek’s interest in weightlifting and experiment...ation with anabolic steroids at a young age [3:15]; Derek’s experience acquiring steroids from underground labs and the potential long-term fertility concerns early in his bodybuilding career [12:00]; The backstory on More Plates, More Dates and Derek’s unique ability to blend scientific knowledge with personal observation [17:00]; Growth hormone – from extreme use-cases to the more typical – and the misconception that it’s the “elixir of life” [21:30]; Growth hormone 101: definition, where it comes from, and the challenges of measuring it [28:45]; Does exogenous growth hormone compromise one’s ability to make endogenous growth hormone? [40:00]; The use of growth hormone in restoration of tissue during periods of healing [42:00]; Growth hormone-releasing peptides to increase endogenous GH: various peptides, risks, benefits, and comparison to exogenous growth hormone [48:45]; The role of growth hormone in building muscle and burning fat, as well as its effects on sleep and daytime lethargy [1:02:30]; The evolution of drug use in the sport of bodybuilding [1:10:30]; What explains the protruding abdomens on some bodybuilders and athletes? [1:20:30]; Death of bodybuilders [1:26:00]; The complex interplay of hormones, and the conversion of testosterone into metabolites like DHT and estrogen [1:33:45]; Post-finasteride syndrome and how Derek successfully treated his hair loss [1:43:15]; Testosterone replacement therapy: compelling use-cases, side effects, and optimal dosing schedules [1:57:15]; Aromatase inhibitors to suppress estrogen, and the misconceptions around estrogen in men [2:16:00]; Other hormones beyond testosterone for male sex hormone replacement [2:21:00]; The history of anabolic compounds, and the differing effects of various anabolic testosterone derivatives and related drugs [2:24:30]; Use of SARMs by bodybuilders [2:29:45]; Anabolic steroid and testosterone regimens of professional bodybuilders and the downstream consequences [2:36:15]; The challenge of accurate hormone testing in the presence of anabolic steroids and supplements [2:44:45]; The use of Clomid, hCG, and enclomiphene [2:47:15]; Concerns about fertility: comparing the use of testosterone and hCG [3:00:30]; The use of BPC-157 peptide for healing injuries [3:12:00]; and More. Connect With Peter on Twitter, Instagram, Facebook and YouTube
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Hey everyone, welcome to the Drive Podcast. I'm your host Peter Atia. This podcast, my
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My guess this week is Derek from More Plates More Dates. Derek is a fitness educator and entrepreneur
behind the More Plates More Dates YouTube channel podcast and companion website. I've been following
Derek now for a couple of years and I have always found him to be very thorough in his analysis and assessment of areas that are very difficult to get insight
into from the mainstream channels by which we would go about searching for insights, for example,
using published literature. Derek in particular has a lot of expertise around molecules and the
types of molecules that are both used and abused by bodybuilders and athletes.
And a lot of our discussion today focuses on that.
By way of background, Derek himself is heavily into bodybuilding, fitness, and talks very openly about his past use with performance enhancing drugs,
and his real interest in understanding the science around these things.
So we really cover these things in great detail.
And you might be asking, well, why is this relevant to a general audience?
I think it's because not a day goes by when I don't get at least one patient asking me
a question about one of these compounds.
And the compounds I'm referring to, of course, include things like growth hormone, testosterone,
HCG, androgens, other hormones, charms, serms, peptides.
Oh my God, don't get me started on peptides, clomid estrogen, and much more.
So throughout this conversation, we look a lot at how bodybuilders are using these compounds
because bodybuilders use them in the highest amounts.
They also talk very openly about these things.
And then we ask the question, what can we learn about this for
the general population? Are these things all bad carte blanche? Or is there some nuance
to this that we can understand? This interview with Derek really is a part one because we
just don't get through most of what I want to cover. So we'll likely be doing this and
there'll be a part two, hopefully, in the not too distant future. So without further
delay, please enjoy my conversation with Derek.
Derek, awesome to have you here.
Thank you for swinging by Austin.
I know it's a little bit out of the way for you.
And great to meet you in person.
We've had a lot of communications over email and text, but that you as well, thanks for having
me.
Let's give people a little bit of background on you and maybe how you've come to know a lot about
stuff that's awfully technical actually. So I don't know much about you or I'm going to pretend I
don't know much about you, other than that we share the same nationality and that you're a fellow
connect. So tell me about yourself growing up. Yes, so I am from the west coast of Canada, born and raised Vancouver, British Columbia.
How do you summarize?
I get childhood.
How far do you want me to go?
First of all, when did you get interested in lifting weights, nutrition?
When did the topics that you now have pretty significant expertise and start to become
a passion of yours?
Probably grade 11.
I don't know if in the US, there's
a, we call it 11th grade or junior year, but yes, continue that one. I can translate
between the two. So I was a rail, probably 130, I think 138 pounds at my same height
and basketball player, a lot of my friends were getting into working out, putting on muscle, and I was the last one to get into it.
And they were heavily encouraging me. I was the only one who was left out if I didn't start.
So I thought, okay, well, I might as well join and I have nothing to lose by putting on some weight because I was pretty damn skinny at the time.
Got in the gym and a lot of people can relate to being bit
by the iron bug where you start to get the newbie gains
and the quick progress becomes quite a dick thing.
Then you get on a full blown routine thereafter
and I was kind of skewed away from actual sports
like basketball because my three-pointer
and some of the muscle memory stuff
really got thrown off when you start to gain
30 pounds and a matter of months all of a sudden your mechanics don't feel exactly the same anymore
So I got pretty into working out and lifting weights and as you get into lifting weights
It's kind of hard to avoid some of the discussion around
Annabelle steroids drug use and body building,
how are these insane bronchosaurus physics
you see on stage achieved and what goes into them
because you often heard it was, you know,
dead-dare cell tech or some other supplement
on the front of a cover or an supplement source
sold by somebody and then as I dug into it more
started to learn about hormones, pharmacology. I actually had hair loss caused
by Andergins when I was experimenting with them as a recreational bodybuilder. And then
from there, I started to dig heavily into anti-Andergins, five alpha reductase inhibitors,
and had this weird broad spectrum, pharma knowledge on weird niche stuff,
but it was all overlapping with the basis
of androgen therapy, synthetic derivatives.
Just for sort of a time scale here,
are you in college now,
or are you still in high school
when you're developing this level of interest?
My initial interest peaked in 12th grade.
That grade, I developed my interest, when I get interested in something
I just go hard. I just completely bury myself in reading whatever I can find. And back then
it was a lot of underground forums with Jim Burrows going back and forth, talking about
their experience with fill in the blank compound or this is what I did. And this is what I hear
person X is doing. And a lot of it was just anecdotal,
not that there's a lot of good literature anyways, but I mean, just going on the forums, learning,
digging into whatever science I could understand and conceptualizing, getting a framework of
understanding about how hormones impact physiology, muscle growth potential, I don't know, genetic
variability in response to that. And as I got into university in my first second potential, I don't know, genetic variability and response to that.
And as I got into university in my first second year, I got pretty hard core into the body
building, got up to 260 plus pounds of my biggest.
And that's when I actually discovered I had sleep apnea that was severely exacerbated
by getting that heavy that quickly.
Sort of gave me my first taste of side effects
and what the potential downsides are of bodybuilding.
It's a lot of times when you're that young,
it's like 2021 years old,
you just think you're invincible,
and you just think you can blast compounds.
And at 260 pounds, how lean were you at that stage
or were you relatively unleaning?
Relatively unleaning, I would say.
And you were using lots of antibiotic steroids or just exogenous testosterone and calling it a day.
We'll go into more detail about the nuances of this, but just for reference.
By our standards, a lot.
But by bodybuilder standards, not really that much.
Probably at peak exposure, a combined weekly dosage of 1,500 milligrams to two grams or something.
So just for reference for the listener, when we prescribe testosterone, when a physician
is prescribing testosterone to a patient for replacement, we're really only using testosterone,
we're not using Nandralone, Xandralone, these are things which we will talk about. But from a dose
perspective, I don't think I've ever prescribed more than 150
milligrams in a week of testosterone-cipionate for physiologic TRT. So you're already talking
10 to 12, 13 times more than that, more than what we would consider a physiologic level.
Yeah, and to conceptualize that, it does not equate to 12 to 13x, the results.
That is something you learn pretty quick.
There's a severe diminishing returns as you escalate for sure.
And you can even see this in the most response studies there is.
All but it's still pretty significant.
There is slightly less, each increment you go up proportionally.
So that was my first foray into extreme bodybuilding,
I would say.
And also my first taste of side effects
and really kind of led me down the rabbit hole
of learning about what are the actual implications
of using this stuff, getting diagnosed with sleep apnea,
getting a CPAP machine, correcting my sleep apnea,
but then also realizing that it's kind of a bandaid
to the problem too.
He should probably not be 260 plus pounds
and taking all this shit.
So the other question I have for you at this point in time
is how sophisticated is your understanding
of managing the side effects of these hormones?
Because obviously, and again,
we're gonna talk about these in detail,
but I think it's a great intro to the story
of you're learning this the hard way sometimes.
But for example, like the estrogen effects,
the DHT effects, you've already alluded to them
a little bit with hair loss.
What is your degree of sophistication around those
in your early 20s when you're taking these doses?
Quite minimal.
So back then you were told you take X amount of drug has to be a base of testosterone
at this dosage relative to your other synthetic androgens that you're using alongside it based on
what exactly arbitrary bro rules that are passed down the great find essentially. It's like
your ratio of test to Ducca must be two to one or else you get DECA DIC things like that.
I haven't even heard DECA DIC, back then, they thought it was too little test
compared to deca, because if you had
deca-dron being a synthetic corp.
Yeah, so Nandrolon is a progestin
that is derived from testosterone,
but it is quite different than how it behaves.
And interestingly enough, is the base for some
of these synthetic progestins that women use
for oral contraception.
That compound is riddled with
certain side effects for people who are prone to more of the progesterone receptor interaction
and it's unique effects on cognitive health especially too and even sleep quality.
But back then anyway, you were told random things that were just passed on the grapevine
and based on no real science.
It was just anecdote.
I tried it and this is how I felt.
My penis worked or it didn't work.
Now it's working so this must be the correct way to do this.
Stuff like that.
And then also predetermined dosages of aromatase inhibitors.
You have to be on a milligram of rymidex every day
or every other day because you're on 500 test
or more per week.
Stuff like that was seen as acceptable and smart.
Taking preventative health measures
by doing things like that is what we thought back then.
Minor attention is paid to blood pressure.
If you have a bloody nose in the squat rack,
it's probably a sign that you should either lower the deball
or think about something, but not much talk about
angiotensin receptor blockers or even how to choose
a compound more intelligently.
It was often you must have estrogen side effects
or something.
By the way, what was your monthly cost of drugs
at that point in time?
When it comes to anabolic, it's actually not that expensive.
Vial of test is probably 60 to 70 bucks.
So Violet testosterone is 2000 milligrams, right?
It's two grams is a vial.
Usually underground labs dose it at 250 per milliliter.
I don't know why.
It's kind of interesting because in format, you're used to the 200 increments, but in UGL,
underground lab, it's almost always 250 if it's test E testosterone and Nantate
or testosterone Scipionate, almost always 250.
Underground labs, tell me about that.
Obviously, you're not walking to the pharmacy
and getting branded deep-o testosterone,
which is the FDA-approved version of testosterone.
Does that mean these are compounding pharmacies
that are doing this or how does this work?
No, no.
It's literally just some guy who orders raw from China Does that mean these are compounding pharmacies that are doing this or how does this work? No, no.
It's literally just some guy who orders
laws from China and then makes them
in what you hope to be a sterile
and professional environment.
But you have no idea if it's bathtub or what.
So his only motivation to do this financial?
Well, also is, if I screw this up,
people aren't going to come back to me by the drug.
Correct. Wow.
So when we talk about GMP, good manufacturing process, which is what ensures sterility for injectable
compounds, that's not the case.
Recently, I did an AMA on compounding pharmacies and the problems associated with them because
they're not subjected to the same GMP requirements, especially the community-based compounding
pharmacies.
They've had a number of these awful incidents, including one where literally hundreds of
people died from compounded solumedrol because it was injected.
These were being manufactured without proper sterile technique, sent to hospitals.
This was all being done legally.
Then the hospitals were using these to do fissette blocks and things like that for people with back pain.
And literally in one outbreak, more than 100 people died of meningitis, a fungal meningitis
due to this.
So the stakes are very high when you're talking about injectable compounds, not being done
sterile.
So I guess we ought to come back to visiting the topic of what the underground market looks
like for these compounds.
Yeah, I guess what they bank on is the fact that with synthetic anabolic, you don't
have acute health issues.
It's more chronic over a span of decades of abuse.
So even worst case scenario, if you get a badly compounded version of whatever, if you
can even call it that, you would have a elevated CRP from the carrier oils or solvents, but
most people weren't even checking blood work,
let alone, and if you had a side effect,
you assumed it's the copious amounts of anabolic neuron,
not necessarily anything related to the manufacturing
or anything, as long as the reputation of the lab
was maintained across the forums and the bros were happy,
that meant this is high quality.
So some people would actually send it for third party testing.
There were certain people who would come out with access to university
labs and whatnot and they would kind of under the table. You would send a
milliliter of your stuff in like a perfume atomizer and they would test it for
you and send you HPLC results and you would find out if the UGL underground lab
has good stuff relative to what it says in the label. But that was essentially it as far as quality control.
How many of the guys that you were training with in yourself understood, for example,
the impact on fertility and long-term effects vis-a-vis gonadal function at that age?
Very few people ever brought concern to it because we were always told, when you come off, you will restore fertility in due time,
once Aster's cleared, et cetera.
As long as you had good baseline function,
you weren't primary hypo-genital to begin with,
you're gonna be good.
You just have to get the compound out of your system
was what we were told back then.
No attention was paid to maintaining
to stick your volume, lighting cell stimulation to maintain
things.
Nothing.
It was just come off your stuff.
And the PCT regimens, post-cycle therapy to restore fertility were just made no sense
when you look back on it.
Back then, it made sense.
But now, in hindsight, the rule of thumb was literally stop your drugs, wait two weeks,
start a PCT of Novodex plus
clone it for four weeks, you recover fully, you just assume, you don't actually
check your blood work. And then after that, as long as you are healthy, the
responsible thing is wait time on equals time off. And then you go time back on.
But often it was just come off two weeks, PCT, and then get back on or wait and tell some arbitrary
amount of time has passed regardless of health markers
and then get back on.
What dose of clomid were you guys taking in the PCT?
It was like 50 milligrams, once or twice a day.
25 to 50 twice a day, depending.
And it wasn't like based on anything scientific,
it was just you just choose.
Amazing doses, again again just so high compared to what we would use clinically in traditional TRT.
We have time we can come back and talk about some of the risks associated with clomed use period from a lipid perspective that is so you're in college university to be sensitive to the Canadians. You're obviously studying, are you in biology, biochem, what are you studying?
Business.
So for me, I was pursuing a undergrad
in the business faculty at Simon Fraser University,
and that was to lead me to a job as an accountant
or something of that nature to be determined.
And I was working as a bouncer downtown
while I was getting my degree. And then I kind
of just transitioned into posting online and then realized I could replace my income doing
that on a computer rather than having to bounce, which is not like a sustainable job. I
know, it was like I always felt like I should not be an accountant. This isn't something I find
exciting. It's not really where my interest lies. I'm okay with numbers, but it was kind of just from high school thinking, oh, what's a good business job.
Go downtown Vancouver, get a job. It's an accountant that a big company and you're good. That was the
dream back then, not that it was, but it was, you know, the end goal in mind of getting your degree.
Didn't end up doing that, fortunately, and started making online content
on a WordPress blog. It wasn't actually on YouTube for a couple of months, but sort of writing
about, you know, dieting, how to bulk, with not getting fat, how to cut basic stuff about,
you know, diet principles, bodybuilding, sort of talked about dating, social circle dynamics,
stuff have a super interested in the time,
and then it kind of transitioned from there into discussion
about my foray into anabolic side effect management,
anything I could think of that was of use
that I thought I could impart on the viewer,
hey, don't screw yourself up.
I've gone through this and learned the hard way,
potentially.
So let's go back to kind of your journey through that. So you're in your
early 20s and you're kind of at peak antibiotic steroid use are using growth hormone as well. I did
try it periodically. I didn't notice a ton from it. It seems to be variable in how people respond.
I think a lot of it is conflated with the effects on fluid dynamics.
So a lot of people that get a lot of edema, water retention that they perceive to be enhanced
muscle.
And then they say, oh, my genetic ceiling is higher now because of all the satellite cell
proliferation and hyper pleasure that's happening.
So I'm going to keep using it.
Or it makes me never get fat, which is something I would hear quite often, which is not true.
But I did try it up to, I think the most I use at a time is like, I might have tried six, I use six to eight, I use acutely.
Meaning six to eight, I use daily.
Yeah, which is quite a bit. That's a huge dose.
But it was for a span of like weeks essentially and didn't really notice a lot
from it.
So decided it wasn't worthwhile to continue because it's super cost prohibitive.
Like, that's the thing that drives cost mostly for bodybuilders.
It's not the anabolic, it's the growth hormone typically or health screening.
Because a lot of people don't want to pay for that.
So they got to have their budget for the anabolic and the food, but blood work out the window. I mean, I think this probably for folks paints a picture
of your empirical curiosity in the topic.
Whenever we have patients in our practice
ask us questions about growth hormone,
and we have our research team go and look at answers,
a lot of the times what we say both to the patients
and what I have to remind the research
team is, look, you're going to get very limited, very narrow information from the literature.
This is not like researching the question of what are the effects of physiologic hormone replacement,
you know, testosterone, estrogen, predestine, things like that. For that, we can turn to the
literature and we can get a lot of information. But when you're trying to ask the question, hey, what happens when you take growth hormone
outside of its medically intended purpose, such as low levels of growth hormone or things like that?
I said, look, it's not an appealing answer, but you're going to have to kind of go into bodybuilding
forums. It sounds like the most unscientific thing, but a bodybuilder with a good head on his shoulders or
good head on her shoulders will probably have more relevant observations about the good,
the bad and the ugly with these compounds.
What I find so interesting about your work, Derek, is that you've, in my mind, taken
the best of both worlds.
So, I think you've learned a lot through your own experience with these compounds, coupled with obviously observing, you're being, you're surrounded by a lot of bros,
who maybe don't have your observational skills. And then you've coupled that with your
own obsession of going down the rabbit hole, and that's why I think if anybody can extract
meaning from some of this stuff, it's you maybe we'll start with going a little deeper on
growth hormones. And so I think in many ways, that's the one for which we have, I believe, the least
insight outside of that very narrow application, which is people who have growth hormone deficiencies,
where clearly replacing growth hormone is a good thing to do.
Let's start with one application of growth hormone.
Now, I will admit this is a question that has literally been asked of me more than once.
And the first time it was asked of me, I was shocked and I don't say that to past judgment, but
it never occurred to me that one would do this.
But it's been asked enough times that I have to believe it's a real thing.
So a person approached me, a person I know and said, look, my son is
12.
He's a very good athlete.
He's an exceptional tennis player.
But I'm five foot nine.
My wife is five foot five.
He's not gonna be an inch above five, 10.
He's never gonna go anywhere in tennis
despite his remarkable athleticism.
Can we give him growth hormone
to get him to be a 6162 kid?
So he really has a chance to be a pro tennis player.
So when you hear that, do you think
I can't believe someone would ask that?
Or are you like, yeah dude, welcome to the world.
Yeah, I'm not surprised somebody would ask that.
To be honest, I've heard much worse,
but it's not something that I believe you could look
to any literature and find, oh, you're going to completely surpass your otherwise pre-determined
genetic ceiling. Some of the literature and idiopathic shortstats are as interesting because they
actually have prescription protocols that are even higher than GH deficiency. So you have an unexplained lack of height velocity
as you're growing up, but not necessarily,
you know, IGF-1 deficiency or anything you can point to
in the blood work that looks odd,
and they are prescribed upper and range even higher
than GH-deficient patients, which seems kind of odd to me.
But for individuals who don't have,
they're not lagging behind significantly, there's
no indication for it.
It's kind of hard to justify.
I imagine, especially as a doctor who's hearing that, I don't think this person was asking
me to do anything about it.
I think he wanted to bounce the idea off me.
I mean, I think he clearly knew I would never have anything to do with this.
And I wanted to sort of not get preachy, which I don't think I did, but what I said was, look, it strikes me as a bad idea because you just don't know what the risk associated
with this is. And I'm not even talking about like, oh, what if your kid has cancer and you make
the cancer worse, which at that age, pretty small risk, we can talk about the risks of cancer
and growth hormone in terms of propagation. But I said, look, if you were asking me to come up
with a risk I would be worried about,
I would be worried about bone health, for example.
And I'm making this up, but I'm saying, look,
how do we know if these new elongated bones
that your son is gonna develop
that take him from being his natural
or genetically predetermined five foot 10 to six foot two,
how do we know if those bones are of the same caliber?
And how do we know if we're not setting him up for osteopenia when he's 50 instead of
a normal life?
I said, look, given all the unknowns, you just have to ask yourself the question, like,
is it worth that risk?
Have you seen some of the recent surgeries to enhance height in adults?
It's crazy.
They put screws in their knees
and then they basically increase their height
by a millimeter every day
and they crank it until they've got upwards of half a foot
and extra height.
And then that area just fills in with new bone.
They have to learn to function with these new mechanics.
Both the femur and the apparently you pick
if you wanna do both or if you do one or the other
But you put screws in and if you want to max out your height you can
Basically crank upwards of half a foot and extra height and there are people doing this and paying for surgery and going to these facilities
where you basically get
manually
stretch and then
Bone forms in the space and then you have to learn to move
with those new mechanics. And this is becoming a more, it's not a trend, I would say, but there's
a lot of viral content surrounding it right now and certain people that are showcasing before
and after as marketing material too. It's pretty crazy. How do you accommodate that from a muscle-intending perspective? That's the question. Proponents for it seem to assert that you eventually adjust to it with
very intensive exercise routines, rehabilitation stuff, and you try and basically learn all your
motor patterns again, and eventually everything adapts. I would assume that your athletic capacity
would be inhabited pretty dramatically,
permanently, potentially.
And there's huge risk there,
but it's just, just showcases how extreme
some people are willing to go.
All right, so if that's the most extreme story I've heard
about either the use of growth hormone
or even surgical technique,
let's talk about a far more typical story.
So my patients,
and probably most people listening to this are not bodybuilders, but I think there is a belief
that growth hormone is the elixir of life. And there are no shortage of longevity doctors out there,
which is why I bristle at the term when I'm looped into that group, longevity clinics out there,
term when I'm looped into that group, longevity clinics out there, who's basically sole intervention is giving you growth hormone.
It's like, here's a bunch of supplements that are proprietary and whatever, and growth
hormone.
There are two responses to that.
So if you look at the traditional medicine approach to that, the, what I call Med 2.0,
what you might call just sort of the evidence-based medicine guidelines. That group, which is the majority of medicine, would look at people doing that
and say that's the most dangerous, careless, unethical thing you could ever do. Those people
are not doctors. Shame on them. At the other one to the spectrum, you have the people that
embrace that point of view, which is like the other people are idiots. This is modern medicine.
This is the future. We should all be on growth hormone once we reach a certain age. And I find myself
on neither side of that because I simply can't come up with an evidence-based point of view.
So my very naive point of view, which our acknowledge is naive, is given how many people are taking
growth hormone, and it is quite ubiquitous, especially in sports, which I think we'll talk about.
If there are really serious consequences to its use, even chronically, I feel like epidemiology would give us that answer.
So it's possible that no one's looking.
It's possible that there is a signal there, but it's not large.
It's possible that not enough people take it for long enough.
There's so many explanations for why this isn't happening, but there isn't a clear signal.
Conversely, I think that there are probably a lot of reasons why growth hormone chronically
given exogenously, especially if it's kind of super physiological, could be problematic.
For example, if you have a tumor that is growth hormone or sensitive to growth hormone
and it's already initiated, are you propagating it?
So that would be kind of both sides of that.
So let's go back to
tell people about what growth hormone is,
where it comes from, what are the challenges of measuring it?
Let's just do kind of a growth hormone 101.
Yes, a growth hormone is,
most people know it is like the primary hormone responsible for
determining height as you grow and adolescents
Androgens are more sexual differentiation
maturation, but growth hormone and the subsequent growth factor production IGF1 will
be a fairly significant determinant on if you grow to I guess like target, whatever you could become, and it's pretty, during puberty,
especially, pretty important for the proper development of your infrastructure, bone,
et cetera, connective tissue.
As you get into adulthood, it becomes one of those things where it drops significantly
first off as you reach adulthood, and as you you get older it drops precipitously as well
That kind of begs the question is this one of those things that you should be replacing to optimize function fat loss
Vitality what have you and it's tough because a lot of the proponents that assert such things
Have financial incentive and it's kind of hard to wade through the nonsense and kind of figure out what is the truth here
And it is often framed out to be like this fountain of youth elixir HGH.
So it's so cost prohibitive.
It's what all the pro athletes are using.
This is the thing you need to be on to prevent any age related decline in, you know,
own strength, your ability to burn fat as you get older is going to go down.
So you need to be on a growth hormone, et cetera, et cetera. And at a bird's eye view, it's kind of
responsible for the growth, broad spectrum growth of tissues as you grow up and
then as you get into adulthood, it's not irrelevant, but it's far less
important because you're not trying to push a human from childhood into adulthood
essentially. And even when you have this push
of exogenous growth hormone to manually manipulate your levels,
after it's called epipheasial plate closure,
there does not seem to be any benefit to be gained from enhancing
like the length of bones, for example.
Like you could still enhance bone mineral density
to some extent and it seems to be, you know, you could enhance connective tissue integrity, it kind of depends
on what your situation is and how IGF1 deficient or lack that are of you are, but it's not
going to impact your height and adulthood.
It's not going to really do anything other than regulate light, politic action.
How does it do that, by the way?
Liberates free fatty acids into circulation,
so it's kind of seen as the opposing hormone to insulin.
Does it do that through like, a protein light paste?
Is it actually acting on a substrate
with, on the adipocyte?
It seems to be driven through different baseline states
that you're in, like, if you have
Garell and receptor agonism from being fasted, for example,
a lot of people point to the literature on if you're deprived of calories or girl hormone goes up.
There are different situations in which it'll go up, deep sleep, obviously, super impactful on
if you're going to have a release or not as well. But the main actions that I'm aware of at least
in a state of girl hormone pulsation is kind of the underpinnings are you were trying to liberate free fatty acids for utilization as substrate for energy or anti-catabolic action.
So the actual like mechanism enzymatically and whatnot is a bit fuzzy.
What's the relationship then between GH and IGF and the liver? How does this all work? Because we don't really measure GH in people, right?
Because it's pulsatile.
So what are we stuck with as a proxy?
Yeah, even if you inject GH, a large dose of it,
you will only see a spike in serum
for a transient period of time.
And people who are trying to assess the quality
of their growth hormone with the underground stuff,
they would be trying to time it very specifically down to the minute to assess the quality of their growth hormone with the underground stuff. They would be trying to time it very specifically down to the minute to assess the quality of
their stuff, but the best proxy for GH production endogenously seems to be widely accepted as
IGF-1, which is after you produce growth hormone from the pituitary, there is action in the liver, but also paracran and autocrane
action on muscle, especially if you are exercising or resistance training, but a lot of the serum
IGF1 is driven through liver production and has its own implications in terms of its effects that
seem to be more intelligent in itself, to some extent. Which is kind of counterintuitive, right?
Because if IGF1 has intelligent properties
which are promoting a fat storage and GH is promoting like policies,
don't those act that odds with each other?
And how does one become more dominant?
Yeah, it's this weird orchestrated feedback loop.
And these feedback loops are present in the body
in multiple different hormone substrates
will reduce in multiple different metabolites
that then have negative feedback through different systems.
And this seems to be no different
if you have GH at a certain level,
and it results in a certain amount of IGF1,
you will have negative feedback
that will then lower your production of HGH
while the IGF one is elevated.
And as it declines, you have this decrease in inhibitory feedback that then tells your
body, okay, now the IGF one is not present in significant quantities.
It's okay to release GH again.
So it's this finely tuned balancing act in your body where your body has counteracting
things.
It's not counteracting, but it's like the balance between anabolic or anti-catabolic. Frankly, I don't even know how to elicit
in like a super clear way that is completely accurate, but it seems to be when one is high,
the other one would be low and conversely in order to kind of maintain, not necessarily at the same time, but to maintain like a balancing act in the body.
We have a real sense of how to dose, for example, testosterone or estradiol in the case of HRT
for women, because we know what physiologic normal levels are during various periods of
a person's life.
And so, if we're replacing testosterone to the level that we think is normal, either for your age
or for some earlier age, we can measure the hormone,
we administer it and we can do the calculation.
Hey, this person has a lot of sex,
someone buying a globulin or they don't
or whatever the case might be.
When people are administering growth hormone,
and again, let's just talk about this
through the lens of the context you're talking about it now,
which is rejuvenation or longevity, the waist-basket term.
How do they know, because typically they're using about one to two units per day, isn't
that the typical dose?
Yeah, it depends largely on liver function too, so some people with compromised function
or type one diabetics, for example, they could have super high GH production,
but very low IGF-1 from seemingly lack of insologenic signaling because it also has a positive
relationship with IGF-1 production. But it can be difficult because you could have a person
on a ketogenic calorie-deprived diet model who has an IGF-1 that is on the low end of the
reference range be manually administering growth hormone and be using a higher dose than would otherwise
be necessary to get to high normal optimal function, put in quotation marks.
That's the best proxy we have as far as I'm aware, is that serum biomarker IGF-1, but
there's not really a cut and dry way. So people would use the Z score, presumably
of their IGF one, as the output for determining how much GH to image.
Yeah, my understanding is that regardless of its idiopathic short stature, GH deficiency,
they would use IGF one as a metric to kind of dial in the dose. So if your IGF one is higher
than the target, then you would dial the dose back
accordingly, or if it's not high enough, then you would increase it accordingly. What did they target?
A z score of 1 to 2, meaning 1 to 2 standard deviations above the mean is therapeutic, or just being
above zero, for example, which means you're above the 50th percentile. The target, I think it's
mainly just correcting, but as far as what is correct, I guess the
reference range, if it's in the middle or the hind of normal, I don't recall off the
top of my head, but it's something in the neighborhood of middle of a standard lab
corp reference range as far as I know, could be off on that.
Okay, so let's talk about the physiology of this.
So you give GH, there's a feedback signal because GH comes from the
pituitary, but it's spoken to by the hypothalamus. So we're going to talk about this again when
we talk about testosterone, of course, because that's a really obvious issue. What happens
upstream of the pituitary, i.e. what happens to the signal from the hypothalamus to the
pituitary to make endogenous, to make your own growth hormone when you take it from the hypothalamus to the pituitary to make endogenous, to make your own growth hormone
when you take it from the outside.
Does that get shut off as well?
Yeah, the negative feedback that I spoke about briefly when you have elevated IGF-1, it
will give negative feedback and there is an elevation, something called somato-statin,
basically tells your body, don't make as much GH essentially.
And there is different receptors, which gets a bit confusing
as to how you produce the growth hormone upstream.
There's the gerellin receptor, which super confusingly is also
called the GH receptor, I believe it's also called.
And then you have the GHRH receptor
and the production of GHRH indoginously, as well as the
agonism of gerellin receptors can both stimulate growth hormone and the way by which they achieve your end output can be different.
That's why there's different drugs that target different receptors for actual elevation typically. typically GHRH drugs are coupled with GHRPs to get like a 1 plus 1 equals 3 effective
sorts. But this is why also when you are fasted or malnourished, you could have significantly
more output via the Grelan receptor agonism. And this is the same Grelan hormone that plays
an important role in management of hunger.
Yeah, so for people who don't know, Grelan is like, I don't know if it's the primary,
but I think it's probably pretty accepted
that leptin and Garellin are kind of like the signals
that you're full-verse hungry.
So Garellin and Garellin receptor agonism
is what would tell your brain you're hungry.
So for example, if you gave somebody a,
really potent Garellin receptor agonist like Ibu to Moran
is a commonly orally bioavailable GHRP, you use that, even if you're not hungry, you
want to eat your pantry, like it's insane.
So that compound plus a GHRH will seemingly have a downward pressure on some matastatin
activity and simultaneously increase the output from the pituitary to produce
more GH.
You can kind of like max out your endogenous production through these peptides, essentially.
But those are the primary mechanisms involved, like those three things is the Grelan receptor,
GHRH, and then also somatostatin as a negative feedback.
So if someone is just taking exogenous growth hormone, how long would they need to take it before
they would start to compromise their own ability to make endogenous growth hormone once they came off?
I think it's pretty quick. IGF1 elevations are not instant in the serum you would see GH spikes
in a matter of minutes.
Like it's very transient in your system, very short half life, but the downstream IGF
one conversion can increase over days and then stay elevated for days.
And this is why IGF one is a biomarker has been asserted to be a potential way to catch
people doping further out than the HGH isoform differential aminoase, which is the current accepted gold
standard test that they use, says IGF on the state elevated for a relatively long period of time.
Let's just say a person's on GH for two years, and then they stop it. Does the pituitary go back
to making GH? Yes, seemingly. It seems pretty flexible in that.
In that sense, it's different than LH and FSH and the TESTY's making testosterone.
Yeah, and the reason for that, I can't help but think there's, because there's multiple
actions of the pituitary.
It's not going to atrophy in the same way I would think, and this is just speculative.
But for example, people always want to know if I take anabolic
sort of testosterone replacement for years, but I don't take HCG or I don't take these fertility drugs,
will I be able to restore fertility in short order and it seems to be like I use it or lose it kind of thing where
not necessarily, but it's more difficult to restore fertility in somebody with like
thing where not necessarily, but it's more difficult to restore fertility in somebody with like severely atrophied organs that has not had stimulation directly for years versus
the pituitary does multiple different things.
So I can only imagine that the maintenance of output of other hormones and things are at
least maintaining its flexibility to some extent, but super speculative. Let's talk a little bit about the use of GH in restoration of tissue during periods of
healing.
So, I think there's some accepted medical use for GH in burn victims, for example, right?
So, if a person sustains a significant enough burn, the body surface area is burnt.
I mean, that's one of the most catabolic activities the human can sustain and therefore the reversal of that is one of the most
anabolic demands that a human can sustain as an adult. What about during orthopedic injuries?
So you look at a person who's having either elective or emergent surgery for an injury.
So we've had patients who have had injuries, so like a torn bicep. We've looked at the literature found, I would say, at best modest, evidence suggesting
maybe for that person an eight-week course of antibiotics, steroids, and growth hormone
can aid in recuperation.
The few times we've done this, we've seen great outcomes, but that means nothing.
So anecdotal, we'd have no
contrapositive or opposite view there. What would happen otherwise? So do you have any insight
either from literature or from just the underground world as to what the use of modest amounts of
growth hormone would look like in periods of rehabilitation? Yeah, it's more anecdotal because like
you said, you could find very,
there's just no counterfactuals to any of these stories.
Yeah, and oftentimes when I'm talking about this stuff,
I want to say it's not necessarily founded
in literature, unfortunately.
It's kind of a mix of extrapolations,
rodent studies, anecdotes and humans,
stuff like that, which is unfortunate.
I would love to be able to make hard-hitting
factual statements every time I say something on the stuff,
but with GH anecdotally, it seems to be quite effective
in rehabilitation.
I think that it is worthwhile and in a cute timeframe.
Like that's where the ROI makes sense, in my opinion.
So I do see people, but again, it's not like you have a control
of that same guy with the injury not taking it. So we can only go by what you discern to be a reasonable,
I don't know, recovery period. And then, oh, it seems like it's recovering quicker than
you would have expected. Good, probably good. I think I may have told you this, like,
year and a half ago, I had shoulder surgery. And really, this is an operation. I had been
postponing for 15 years until it got to the point where I, I guess, sort of had you this, like, year and a half ago, I had shoulder surgery and really this was an operation. I had been postponing for 15 years
until it got to the point where I sort of had to have it.
And I really was so hesitant to give up so much
because of the size of the tear in the labrum.
It was gonna be four months
before I could really do anything again
other than very light movements.
My plan was to take, I did a little bit of homework
and came to the conclusion that a certain cocktail
of Nandralone and Growth Hormone
was gonna be the best cocktail.
So I found that so interesting that you didn't use a base
of testosterone with the Nandralone
because you could effectively wipe out your estrogen
with that combination.
Interesting. Well, I ended up taking it
for a total of one week.
Yeah, I know this. Yeah. I saw that
you're a post on Facebook where you mentioned how you're I think you had a blood pressure elevation and also
blood glucose went up my blood pressure went up my temperature was up at night now in retrospect what I realized is I think I was sick
I think I actually got an infection so I don't need anything to do with the hormones, but I felt so bad on the hormones that I was like,
well, I'm definitely not doing this.
So I'm the counterfactual, I suppose,
for not having done anything,
which of course means I still know nothing.
I still have no insight into what this is,
but I do find this interesting.
And like you, I do find it frustrating
that this is a question that isn't studied.
Now, I understand that there isn't really
a financial incentive to study this,, of course, it's not something that
is a new drug. Recompetent GH has been around for over 40 years now, hasn't it?
Yeah. It was like cadaver derived in the 80s and then soon they went to Recompetent, I
think, late 80s or 90s. Yeah, so over 30 years, it is a shame because I've talked to many orthopedic surgeons and
to a person, they all said the same thing, which is I really wish we knew the answer to
this question.
It would really be wonderful to study this rigorously and know, could we make a difference in the outcomes
of patients by using these things in a very narrow opportunity?
And the other question I guess I'm wondering is, because I can't find a clear answer to
this in literature, do you have a sense of the use of growth hormone in osteophenia.
Yeah, one thing I can say circling back to the justifying if it makes sense or not, I think there's
certain things you can use to discern if it's a better idea, like baseline IGF1, or you somebody who
is in a ketogenic diet and you're trying to recover from an injury simultaneously or you somebody who is in a ketogenic diet and you're trying to recover from injury simultaneously
or you calorie deprived.
Like there are certain things
that could otherwise be significantly influencing
your recovery capacity from a growth factor standpoint
that you may be able to manually backfill
that for another person.
Some people naturally have IGFs that are like
top-end of their reference range,
or if you were acromegally,
had acromegally, you would not use GH obviously.
So it's definitely context dependent,
or if you had insulin resistance at baseline or something,
like there are certain things that may otherwise sway you
in the direction of the ROI makes sense first not.
I feel like that should at least be said
so people don't think it's a total blind role
the dice thing.
That's right, yeah, that's a good point.
And let's throw the same caveat in there.
So let's say we're talking about an individual
with osteophenia or osteoporosis.
Let's assume further,
you're gonna do all the normal stuff you would do.
So you're gonna do all the things you would do nutritionally
with respect to vitamin D, calcium, amino acids.
You're gonna increase load bearing activity,
particularly strength training.
If necessary, you're even going to bring on
phosamax and the type of drugs that may help in that regard.
But if in the context of all those things, an individual has a low IGF one, do you think, first of all, is there any evidence that in that setting,
GH administration will improve bone density?
Yes, I can say with almost near certainty
that that literature exists.
Even if it didn't, I would say almost without a shadow
of a doubt that it would be worthwhile,
especially in somebody with low IGF.
I'd have to circle back and make sure
that literature was not wrote in extrapolated,
but I'm pretty sure that anybody,
especially with lower IGF one,
you kind of get into the discussion of,
can you even sustain adequate bone integrity especially in I don't know old age where you might
have like you're probably most prone to that to begin with like it's almost certainly justified
I would say in that scenario. Yeah it's interesting I'd like to find that I mean we can include that
in the show notes I feel like the last time I looked I didn't find anything that suggested not
doing it but I didn't find anything that suggested not doing it,
but I didn't find something that was a slam dunk home run.
You mentioned a couple of peptides.
So let's talk about these peptides that are upstream.
So I can't even keep track of how many there are.
There's like CJC1295, Samorra Lynn,
what are the others?
On the GHRP side, the easiest way to segregate these
is by GHRP, GHRH.
So GHRP are the ones that act on grullen receptor,
GHRH are the ones that look very similar to GHRH
and act on that receptor.
So that's the easiest way to segregate them
in terms of categories.
And then from there, they are pretty different
in how they affect things.
For example, IPAMRL and is often used
in these anti-aging clinics and whatnot.
But sorry, the GHRP ones are also going to drive hyperfagia.
Depending on the compound,
this is the weird thing about it.
So even if you are stimulating the Grelan receptor,
the effects on appetite are quite different.
So for eye pameral and for example,
despite the fact that that's the receptor
it's working through and it is a Grelan receptor agonist,
it does not influence hunger to even any reasonable magnitude
within striking distance of MK677, Ibu to Moran.
That difference is literally like you eating 2,000 more calories a day, not by choice, but
you're just starving perpetuates.
So it's almost like it's inducing crater willy syndrome or something, which is a condition
where you have uncontrolled eating.
Yeah, like the will powered necessary to avoid overeating on MK677.
So what's the clinical use case for that?
Is that used in AIDS wasting, cancer wasting, and things like that?
Orally active, so adherence is much more reasonable to expect.
The application is not FDA approved, by the way, but it is for GH deficient children,
I believe.
And we've seen restoration of IGF to the top end of the reference range
when using it, so going from, I don't know, like a low end IGF to a 200 or 300 or something.
It's not going to push you into super physiologic territory because it's working through your
endogenous capacity, but you can kind of max out what your pituitary output potential is.
So similarly to a HCG or something, you can kind of manually
at least stimulate natural production to the upper threshold of your capacity.
It seems to be efficacious in that, but not going to have a high application among adults
who don't need an extra 2000 calories a day.
No, but it also depends because some people maybe have low appetite and you want to gain weight
or you're in a state of recovery and your appetite is suppressed from some other drug you're using because that's fairly common
Depends on the context. So what is the FDA approved indication for this drug?
It is for GH deficiency and adolescents, I believe
Even though it's prescribed among clinics and whatnot. It's not I don't even think it's prescribed among clinics and whatnot, it's not, I don't even think it's achieved FDA
approval yet, it's like in phase two or three.
So how is this oral?
How does this peptide survive the gastric environment?
That is a great question,
but it is the only one I know of that is often referred to
as a efficacious option in this laundry list of GHRPs
to restore IGF1 to high-end normal.
So how the actual pharmacokinetic profile looks, all I know is the half-life is like 24 to 36 hours.
And it must just be enterically coded.
It's not hepatotoxic from what I remember.
It's got to be something that it just survives through coding, like you said, or something of that nature.
Any other GHRPs that are worth discussing?
Yeah, I think IPemarellen is probably the one
most prescribed in clinics,
and that one seems to be probably more targeted
in the outcomes you'd wanna see out of,
like a growth hormone releasing peptide
in that you get enhancement of sleep doesn't make you hungry really even
though it operates for the same receptor pathway definitely increases IGF1 it is is FDA approved
I believe it might be for lipodistrophia it might be Tessa Moralyn but these are the two
eye pameralyn is the primary one that is prescribed and then there's a bunch like JHRP6
JHRP2 which significantly impactful and hunger JHRP6 is the primary one that is prescribed, and then there's a bunch like JHRP6, JHRP2, which significantly impactful and hunger.
JHRP6, probably the worst one,
that's what bodybuilders use when they reach a bottle neck
of food intake and they can't eat anymore.
They will, MK677 is around the clock with JHRP6,
after you inject it, it's like,
you can modulate acutely when you're hungry.
So if you had a eating contest to win,
or you were going out for an all-you-can-eat buffet or you're just a bodybuilder who can't eat your 5,000 calories a day,
that's when you would be, you'd see it's like disgusting as I'm saying it. No, I just, I mean it's, uh,
yeah. There's so much to unpack there. But IPemareline is the one that is prescribed most off
and the other one. And that's a daily injectable. Yeah.
And so is that used by athletes and bodybuilders?
Yeah, fairly often.
Is it cheaper than growth hormone?
Yes, yes.
Depending on if you get the growth hormone
under ground or not, through pharmacies, certainly,
but there are generic growth hormone preparations
that are pretty cheap now.
You could get 100 IUs of pretty high quality HGH from China for 150 bucks.
By comparison, what would that cost at a pharmacy?
I'm trying to think thousands.
Yeah, I mean, it's insane.
Yeah, especially if it's like a big brand name.
Like back in the day, people would go to AIDS patients and convince them to sell their
serostin.
That's what bodybuilders used to do.
Okay, so when the GHRH side, who are the big players?
Tessimorlin and Samorlin, but I would say Tessimorlin, probably more commonly, Samorlin
seems to just, people just don't really get the results they want out of it.
It's more anecdote than any kind of literature that points to it being sub-efficacious, but Tessimorland plus IPemreland is kind of the primary combo utilized in clinics,
especially nowadays. So they combine that they'll combine Tessimorland with IPemreland.
Yeah, typically. And there's also, there's like the CJC 1295 and there's with drug affinity complex, which is basically
extends the half-life significant length.
And CJC 1295 is which one of these?
GHRH receptor.
And then there's a shorter version of it.
It's like NodGRF 129.
These are not FDA-approved compounds.
These are literally the Wild West of compounds.
Samorralin and Tessamorra Lynn are FDA approved, I assume?
Yeah, some of them have, I know one of them in particular
is approved for lipodistrophy,
and there are some unique applications in which
some of them have FDA approval,
but most of them, the GHRP6, GHRP2, Hix,
are all in, I believe, and a couple of the GHRHs on that list
do not have FDA approval.
And MK677 as far as I know is like, off label prescribed.
It's kind of weird, because there's no company that makes a branded, you know, FDA approved
version of it, but then compounding pharmacies will still make it.
And there's a lot of questions as to, well, what are the standards that go into making
it then, and are you just ordering it from China similarly to an underground lab?
Yeah, there are no standards.
I mean, there are no standards.
That's the whole point of compounding, right,
is they can make anything.
I mean, at this point, the real question is,
where is the line between,
if something has a grasp designation as general
regarded as safe by the FDA, you can sell it on Amazon.
It's an over-the-counter.
What's the most potent,
grasping out there's probably DHEA?
In other countries, DHA is,
I think appropriately treated as a hormone.
I think it's like a schedule of one in Canada.
Is it really?
Really, wow, interesting.
Why? I don't know, because actual steroids are not,
as regulated.
That's amazing.
Yeah, but in the US DHA,
amazingly is over the counter.
So that means it has a grass designation.
I'm guessing that CJC 1295 does not have a grass designation.
So that means you cannot sell it without a prescription,
but yet it doesn't have an IND.
It's not an investigational new drug.
It hasn't gone down the pathway of an approval.
I think it's just sort of in this gray area.
Some of them are abandoned.
It'll be like a drug that was in a pipeline.
So maybe there was an IND and it got scrapped. Yeah, so it's like a drug that was in a pipeline. So maybe there was an IND
and it got scrapped. Yeah, so it's like sometimes is it financial? Is it lack of efficacy?
Is it some like in some cases, there's a drug called carderain, it's a PPR delta agonist,
which is actually pretty good results on lipid management. It's kind of like one of those
exercise mimetic drugs. But when you look at the metrics that it improves, it looks great, but then there is some rodent study.
It was like every dose of carderine resulted in cancer
in these rodents, and then I guess the response to that
was a public outcry of worry, concern, et cetera,
and it just no reason why publicly it got scrapped,
but it's weird because it was a preclinical rodent literature
Supposedly cosmic to get canceled after it was already in phase two and humans
So it's like some of this stuff and cardering is prescribed through clinics too
But yet all the rodents who took it got cancer. Yeah every dose. I mean
That would be disconcerting. Yeah, for sure. Okay, so again, talking about this through the lens of,
I have one patient, by the way,
who came to me having been prescribed
Somoralin from the outside.
I asked him to stop because I was like,
look, I'm not gonna take over the prescription on that
because I don't know anything about it.
So he did, and like, I don't know,
a year and a half later, he's like, look, I really want to be back on this. I've just never felt the same since I was on it. So he did. And like, I don't know, a year, a year and a half later, he's like,
look, I really want to be back on this. I've just never felt the same since I was on it.
It just gave me such a feeling of vitality and hit a lot of reasons why he felt it was
the thing to be on. And I said, look, man, I'm not going to be that guy who says no just to say no,
but I need to understand this a little bit more. And I think we need to think through
one of the risks and benefits of this.
And so we kind of negotiated this back and forth for six months
where I said, look, I guess if we do
as a bunch of really good cancer screening
and can convince ourselves that you don't have cancer,
we do the Pranuvo, we do a gallery blood test,
check a colonoscopy, like basically to the level of detection of our modern
technology, you don't have cancer at the moment. I'll be happy to find an endocrinologist who's
more comfortable with the dosing. And we did. So we found a great endocrinologist and she was like,
okay, and he went and saw and she's prescribing it to him and he's as happy as can be.
There's not a judgment around this. I'm genuinely curious. I still can't make
sense of would you want to be on Somoreland, test Somoreland, it sounds like you're saying
test is better than Somoreland, but that again could just be anecdotal versus growth hormone.
And then of course, I never really understood the stacking where you would start to stack
both compounds. So do you get the sense that hitting both targets, both receptors is better
than just using GH?
Does it give more specificity?
One thing you could say for certain is
when you push endogenous production,
you are fulfilling the full production of all spectrum
of variants, so there's different kill adult
and isoforms of HCH, and they detect it in doping.
And these variable molecular weight,
growth hormone outputs that you get from the pituitary,
we don't know why they are put out
in different formats essentially.
For all we know, they have different actions in the body
that may not be facilitated by the recombinant
straight like 22.
So when you take a recombinant HGH,
you are telling your brain
don't make more essentially. So you are actually losing the production of those
other variants and you were relying entirely on this one. So what the implications
are of that from a health perspective or a performance, what have you. Obviously
we can manually push your IGF to superphysiologic, which you will not be able to do
with the endogenous kind of up regulators of sorts
with the peptides, and you can kind of manually
just choose where you go with it.
So there's certainly a case to be made
just like with testosterone,
it's like, oh, why would you use a GNRH agonist
or why would you use a serm
or why would you use an aromatase inhibitor
or what have you in modulate these upstream pathways
when you could just take the straight hormone
and manually pick where you land.
And oftentimes that could be the reasonable answer,
especially for somebody who wants a very targeted end goal,
and knows exactly where they wanna land on their IGF
or doesn't need, or potentially has worse output,
relative to the input of those peptides,
because again, it's working off your natural capacity.
So there's definitely potential pros and cons. You can, if you have good functioning entire
hypothamus pituitary, all the output is satisfactory from an infrastructure standpoint to output
natural hormones at an adequate level. The natural peptides may be useful and you know you're getting
all the variants getting all the variance
of all the kilobalt and molecular mass variance,
but with exogenous, it's just like,
you know exactly what you're getting,
you can manually choose what you're getting out of it
and I think it's more could be reserved for people
who don't have the natural output
that they are trying to get out of the peptides,
they don't respond that well,
or there's just more data too.
So is there kind of an analogy here
where taking growth hormone, exogenous common growth hormone,
is like taking testosterone,
whereas taking the peptides is like taking clomid.
Yeah, I would say with exception
that you're not blocking negative feedback,
you are positively modulating it.
Correct. Climate works by creating a more...
Yeah, so it would be like analogous to probably an HCG and recombinant FSH, or more like a HCG probably,
or combined HMG or something. What does the literature say and what does the non-literature say about the role of GH alone,
not in combination with antibiotics in terms of its capacity to help build muscle and oxidize fat?
The literature is so sparse on being able to say without a shadow of a doubt that it is going to enhance muscle growth potential
and performance especially.
Like there are very few studies
that really show a clear enhancement
of athletic performance.
So I think what is clear in the literature
is the body recomp effects.
You do gain lean mass.
Part of that presumably is water retention. You do gain lean mass. Part of that presumably is water retention.
You do lose fat mass, right?
Yeah, and for like lipodistrophy, if you're able to,
I don't know, liberate free fatty acids
and be able to actually improve your utilization
of substrate.
You could absolutely improve your body comp
fairly significantly with it.
But when it comes to actual protein
synthesis muscle accrual, it's very wishy washy and certainly not something that you
should hang your hat on as the reason why you're taking it in my opinion. So from a muscle
growth and athletic performance perspective, the jury is out in terms of if it does anything
significant enough to justify its use. Bodybuild builders will claim to high heaven that it's something, it's an expensive fat burner and some think it's actually quite
useful and they notice huge changes, but it also very much depends on your response from
a fluid dynamics perspective.
It can definitely increase sodium retention and things that you may interpret as muscle
growth.
That may just be volume.
And with that said, the muscle is how much water at the end of the day.
So it was that to be ignored from a cosmetic perspective, it certainly looks to get on a bodybuilding stage.
You might not have the function.
Yeah.
So you may not get enhanced force production outcomes like you would be seeking from like a true
antibiotic agent, but it doesn't improve cosmetic appearance of muscle almost certainly
and can help you improve your body composition, especially if you time it well with.
Because if you just use it and liberate free fatty acids and sit around and do nothing,
you could just redistribute that and not necessarily get the benefit out of it that you're seeking.
So do you think that the liberation of fat is the more reproducible
finding of GH use? Oh yeah, you know that's happening when you use it for sure and you will
become acutely insulin resistant as a result of that too. So based on that knowledge, when is the
ideal time to take it? Do people take this once a day, twice a day? It depends on the dose because
if you're using a very high dose and it also depends on your
lethargy from it, it is very lethargy inducing, you could feel sleepy all day if you're blasting
a high dose of it.
What would be a high dose, like what you were taking 6 to 8?
Yeah, I would say when I took it, it was mostly in the 2 to 4.
Are you range?
I only did 6 to 8 for like a very short period of time. Even that the lower lower but still pushed me to like a 500 IGF was lethargy inducing for me personally for how long.
Man I was so I had tried it for full durations of cycles so you know upwards of a few months was probably the longest I had taken that.
Did you have lethargy the whole day or was it just like if you took it in the morning,
you'd feel that way till noon, and you had to work out in the afternoon to get around it?
With the doses I was using and splitting it up the way I was, it was pretty around the clock.
Why is that? It seems to have a very intertwined connection with sleep. So you have your biggest GH pulse when you're getting to sleep.
And people find seemingly pretty positively correlated with aging.
You have a decrease in IgF and seemingly deep sleep metrics also decrease precipitously
too.
And I think this is the biggest case to be made on potential attenuation of cognitive
decline as its impact on sleep if
you're somebody who gets significant enhancement in deep sleep metrics.
However, you want to track that.
I can't imagine you can extrapolate from there that it's helpful for somebody who has,
if you have a crashed IGF and you have horrible sleep as a result of it, like there's clear
literature to show that IGF deficiency will impair sleep.
So if you're able to correct that to some level, the minimum effective dose, you don't
need to push it.
But you're saying with a higher IGF, you were more lethargic, you would think that you'd
be sleeping better based on that argument, right?
Yeah, probably.
It's also gets conflated with bodybuilding diets too, because typically when you're using
it, you're in a calibrary surplus trying to gain a bunch of muscles, so you could definitely
conflate those findings a bit
and it is anecdotal.
But in general, people using peptides, even,
and growth hormone will often find that their sleep
is seemingly enhanced, like it's deeper, more restful.
And yet they're more lethargic during the...
Yeah, yeah.
Is it possible then that the GH is inducing too long asleep?
So you sleep a lot at night, but then it's carrying over to the day.
Like there's a hangover of sleep.
Potentially for sure.
Like it seems to be a hormone that is quite rejuvenative during your sleep.
And I can't imagine not that I really read into like ancestral history or
how your body functions relative to the ancestors that much.
But it's like the time you are trying to recover and rest the deepest having the highest spike
of GH.
It seems to be, I think it's something you could at least extrapolate as a interesting
anecdote nonetheless that I can understand why I might be tired when the deepest point
of rest is also the time that this is
simultaneously the highest and dogginously.
So if I'm manually creating at least half of the conditions that are associated with
when I would otherwise get the deepest sleep, maybe I can manually induce that myself if
I'm deficient or what have you.
But as far as timing and the justification for it, it depends on if you were trying to use it for lipolusists or
If you were trying to use it to a hand sleep or what the conditions are because
You are going to be suppressed at a certain level regardless. So
Oftentimes the logic would dictate at least at my opinion that you would probably put part of your dose before bed
Given that you're not not gonna get the same output
when you're using exogenous GH.
So if I'm using, let's just say all of my GH in the morning,
and then I'm going to exercise to try and use the fat.
Yeah, which is not a bad idea.
There's definitely a, at least I think,
a justification that part of that dose
or potentially all of it when your IGF1 or GH output is suppressed that you
would actually allocate your dose to pre-bed.
So, it depends on goals too.
And if you notice an enhancement of sleep or not, but you can say, without a shadow of a
doubt, that feedback loop will suppress your natural output.
You're not going to just get the best of both worlds.
And so, would you say more people today would be using the two receptor approach, the two peptide receptor approach rather than GH?
Is that a more common approach today?
I think among those in the clinics, for sure, because it's less cost prohibitive.
That's what I think.
But in the underground, bodybuilding world, they're typically pushing super physiological IGF-1 levels.
That's their goal.
That's what they want to get out of it. So they typically try and find
pharma-grade GH. And if they can't get it, they will go generic if they also can't afford it.
And that's what they're doing. They're pushing IGF to 500 and more?
Yeah, typically. Like that, it would be a minimum adequate amount for performance enhancement,
quote unquote, performance enhancement, would
be deemed higher than what is naturally achievable based on typically a lap, corporate reference
ranges, what most people would utilize.
Let's detour for a moment just to talk about bodybuilding before I want to kind of go back
and talk about anabolic and then maybe this will be a nice dub tail into it.
So in my gym, I have a lot of pictures of bodybuilders and nice black and whites that I enjoy. And there's just a real clear difference between Frank Zane, Arnold
Schwartz and Eger, Sergio Oliver, two, Jay Cutler, and Ronnie Coleman. And I don't know when
that jump took place, maybe Leigh Haney, maybe Dorianiates, but somewhere in there,
there was a real transition in physique.
Not to debate which of those is the best.
I think everyone can have their own preference
for which era of physique was their favorite.
But if you sort of think of the things
that can impact your physique, genetics,
okay, that's not changing.
Nutrition and knowledge of nutrition,
that's clearly evolved.
Training and knowledge of training,
that's clearly evolved. Drug use, that's clearly evolved. Training and knowledge of training, that's clearly evolved.
Drug use, that's clearly evolved.
And then maybe just even injection,
I've talked to bodybuilders today who say that they're actually
injecting compounds in their muscles to alter the shape.
They're injecting like fats into muscles
to actually create some sculpting.
So again, that's probably something new.
Let's put that one aside.
Of the three evolution of training, evolution of nutrition, evolution of drugs, how would you
rate the relative balance of those three for the difference of a 1970s physique versus a physique
today of the best bodybuilders in the world, probably drugs at the top, almost certainly followed by, I would say nutrition
probably and then training at the bottom.
How much emphasis on each of those, like 50, 40, 10?
That's tough, because these get scrutinized to hell,
because it's like, I'm gonna put a number on it.
People will be like, how do you think diet is only 20%?
Yeah, yeah, yeah.
A lot of these things don't live without the other,
so you could definitely lean heavier and say, if you eat nothing the drugs aren't gonna
do anything so I would say just in order of importance if you did perfect diet
perfect training with all of the modern knowledge that we have now your
ceiling for muscle growth potential could be as much as 50 to a hundred pounds
lower as a natural, depending
on height, depending on genetic response.
And by the way, I don't want to forget on the GH stuff.
One thing that is interesting is even in acromegalic patients, the incidence of death seems
to be cardiovascular significantly more than cancer incidence.
So if there's anything to discern from actual human literature,
significantly chronically elevated IGFs into even 40 years old,
these individuals are dying from congestive heart failure and things like that.
And that's really interesting.
So not even atherosclerotic disease.
I have to look into this.
Actually, that's a very good point.
I should look at the acromegally literature.
One of the interesting things is how much fluid retention they hold and the stress
that has on the heart, too.
Yeah, that's very interesting.
They also probably would be,
I'm guessing maybe more prone to aortic dissection
because they probably have larger connective tissue,
things like that.
Yeah.
Okay, so you're putting drugs at the top of the list
and then nutrition and then training,
I think was the order you had them in.
So let's talk about the drug use.
So I've spoken to 70s bodybuilders
and if they're being honest with me
and I have no reason to believe they're not,
you would think.
Yeah, like they would have they cared.
I was shocked at how little drug use
was going on back then amongst the best of the best.
And we're talking like one to 200 milligrams
of testosterone a week, eight weeks at a time,
eight on, eight off, eight on, eight off.
In other words, they're basically taking TRT.
Yeah, they're not telling the truth.
Okay, so that's your view.
Most of them, almost certainly or not,
when you're saying you're taking a borderline,
female HRT
dienable dose is like back then that's what it was prescribed for or like
muscle wasting an old age or whatever some of the old like sepid
dienable ads are hilarious by the way, but those dosages are almost
impossible to wrap your head around producing outcomes that they are
like you might as well have stayed natural at most at that point.
So I too bought into the idea of,
oh, they seem to have consistent stories.
They seem to have all taken one shot of Primo a week
and one to two dionibol or what have you.
And it's just not an outcome
that you see as reproducible ever
in those dosage quantities.
So maybe on the hyper extreme outlier scenario,
you might have a guy who a total weekly dosage of a few hundred milligrams across everything he's using
He may hyper respond and get huge, but I would say the majority of the guys competing at the Olympia level were still like I've heard of people
slugging debol by the bottles even back in the 70s. Yeah, it's a certain people are more outspoken about
Yeah, it's just certain people are more outspoken about their abuse than others seemingly and it seems like the ones that are outspoken or more like this guy Pete Grimkowski I don't know if you've heard of him before but looked incredible, but the guy used thousands and thousands and thousands and milligrams and I can
Understand why you would arrive at that logic to take that because there was nothing to tell you otherwise
So if you're competing against the guy at the highest level
and there's relatively high stakes,
you see a guy like Arnold getting movie roles and stuff,
it's like the peak of achievement as a bodybuilder back,
then you couldn't do social media,
you couldn't do anything.
You would try and emulate presumably
what he was doing or something of that nature
to think that you're not going to escalate your dose,
past one to two dionibles in a shot of Primo or what happy or shot of Nandrolohn
because you didn't want to like hurt yourself.
It's like shot up dude.
Yeah, I feel like I saw a video kind of recently of Tom Platz
discussing. He's changed the story.
Yeah.
What that said, his original breakdown was relatively conservative
still, but he's done public presentations about drug use back
in the 80s, 90s.
And you could tell he was pretty reserved even back then.
He handled the situation very delicately.
You could tell he was picking his words carefully as he spoke.
But more recently, he came out and said his dose was like, I don't know, a third of that
or something.
And it's like, okay, maybe like, you know, 40 years or something.
I don't expect you to remember
exactly what you took, but the say your peak dose was
one third of what it was.
I don't know, like I just, I just don't really believe you.
Well, at the other end of the spectrum,
I've spoken to one bodybuilder who,
and I couldn't believe it,
but he said at one point he was up to,
are you ready for it?
Yeah.
50 grams of testosterone in a way.
That's another snowy way.
You would not inject that much.
I was like, how is that possible
in the running of injections?
How are you managing?
I think a lot of people just don't know what they take to.
Oftentimes you just ask people on TRT even,
what's your dose?
Well, it took like, you know, a half a, we noodle with patients between 100 and 120
milligrams a week. Like literally, we will make movements that fine, 20
milligrams a week. Yeah, I think a lot of people they just go by, oh, my doctor
told me to take this much of a syringe and then they kind of just remember
some rough number, but oftentimes they don't know how many milligrams per milliliter
what they're using is, they don't know what their dosages,
they just take some scheduled protocol,
and they stay on it for years,
and then they don't even know what they're doing,
but 50 grams is like, it's impossible, you just,
you would have to dedicate your life to injecting, essentially.
That would be your full-time job,
just sitting there pinning like five to 10 CC barrels of test all day. Oh, essentially. That would be your full-time job just sitting there pinning like five to 10 CC barrels
of test all day.
Oh, God.
Given how remarkable the physics were in the 70s
at the top of the food chain in the Olympia,
would you agree with me that something dramatically changed
in the late 80s, early 90s?
Yeah, and it seems to be the emergence
of growth hormone and insulin abuse,
as well as the escalation
of drugs to an even more extreme magnitude and the availability potentially granted.
They were prescribed readily seemingly, but people also seemingly push the limit more,
and there's the emergence of underground lab preparations and things of this nature.
So my understanding at least is,
and there's no literature to document,
oh, you know, this dosage equated to this.
And therefore, this is why it happened,
but it seems to be dose escalation of antibiotics
to some extent, but more so,
the implementation of growth hormone coupled
with exogenous insulinious.
They're using insulin because of how anabolic it is.
Well, the goal is what they think it is.
And obviously if there's terminology that may not be exact on that, but it's like what
they believe it's doing is shuttling a super physiologic amount of nutrients into the muscle
because also when you take GH, you are acutely insulin resistant.
So you need a little insulin to overcome that.
Yeah, they're almost like doing both things
at the same time as the goal.
And often when you're using really high doses of GH,
fortunately, this isn't as problematic
in replacement dosages,
so I don't want people to extrapolate out,
oh, GH equals chronic insulin resistance necessarily,
but at the dosages people are using,
they could induce diabetes, essentially, like you could end up a diabetic from just your GH abuse, and often
times to relieve stress off the pancreas and the beta cells, they will use exogenous
insulin so you don't have to produce as much endogenously to actually accommodate the
amount of carbohydrate intake and just overall nutrients, because these diets to maintain
a 300 pound of physique you're pounding 5,000 calories a day sometimes.
So the introduction of growth hormone with all of its benefits presumably, which we've
talked about, it's funny because right as we finish talking about how it's not progressing,
now the thing that causes the 20 to 30 pound lean mass jump is supposedly GH and insulin.
It's interesting to say the least, but continue.
Well, I was going to say, so we have that issue going on.
You've also talked a little bit about, so my belief used to be all this GH and insulin
use is why we're seeing these big abdomens on not just bodybuilders, but also on athletes. So you'll see track and field athletes who are insanely muscular, insanely lean,
but they have huge protruding abdomens that do not appear to be fat,
because you still see a six pack ripped on top of it, but from the side,
they look pregnant. And again, the thinking was,
well, is this just organometalline? Are there organs just getting bigger? Now, you've talked
a little bit about an alternative hypothesis.
Yeah, I think it is multifactorial, but there is seemingly, I think the largest cause of
it now is significant distension caused by the excessive food intake
and the result of significant gastrointestinal issues
that result from the absurd diet models.
Because to get that many calories in,
get that much protein carbs off in,
especially peri workout when you're using insulin
and you need to make sure you don't go hypoglycemic
in your workout,
they'll be slamming like 100 to 200 gram shakes
that have hydrolyzed way in the branch cyclic dextrin,
plus aminos, plus creatine,
plus glutamine, plus this.
And oftentimes they're essentially in a state of,
like I'm sure you've had a cheat day
where your stomach was incomparable to days
when you're fasting, for example,
it's a massive difference.
Fasting, you could do a vacuum and see
completely invert your stomach almost
versus when you have a giant cheat day
and just go off the rails,
you couldn't keep your stomach in for the life of you.
You have to be flexing just to keep it not looking
like you have a gut when you're sitting down.
That is a perpetual state of reality for bodybuilders
who weigh that much
to sustain that food intake and the physiques that they have, because it's not a normal
amount of muscle to hold, so it requires a not normal amount of food to accommodate
the nutrients required to grow further or even like sustain it.
Good example of that is Ben Pekulski.
He makes, I think, more health-focused content now, but he's a former high-level IFB
pro.
I think he won the Arnold Classic even at one point, and one of his biggest criticisms
was his distended gut.
And you know, for certain, the guy was using all the same drugs everyone was using at the
high level, but he was able to reverse it seemingly in a relatively short period of time in his latter part of his career
by reducing his food intake significantly seemingly
and he actually showed up one year later
with a vacuum on stage, which vacuum for people who don't know.
I don't even know if I can explain it,
but it's like you suck your stomach in
and it creates like an almost like an inverted,
it kind of goes in, you can see your ribcage and like your serratus lines and stuff.
And most bodybuilders wouldn't be able to do that nowadays.
No, no, that's a big notable differentiating factor of 70s and like 90s bodybuilders,
the amount of people that could do a vacuum dramatically. So many code in the 70s and
it looked great and in the 90s you'd be hard pressed to find somebody who has like an
aesthetic vacuum,
except for presumably natural bodybuilders
are more likely to or.
Yeah, yeah.
They don't have the food demand.
Yeah, it also depends on what they're eating
as people've got issues could have issues to,
but it's more common in people who are pushing food
extremely hard.
And then the drugs on top of that,
like when you have hyperglycemia chronically,
you might have impaired intestinal motility and like all these things that could compound
the issue significantly. So I think you have people with SIBO and bacterial overgrowth
and all this stuff that can influence the distension that is kind of like a congregation of bad
digestion in saying amounts of food, poor choices of food that don't agree with your body because it's simply the only way you can get the calories into meet the demand of the muscle, etc.
But anyway, Ben Pukulski, he showed up with less muscle, but he had completely reversed his gut distension. food was a large dictator of, okay, to get the biggest physique you ever got, you had to eat
some diet that was not conducive to the most aesthetic, non-dustended appearance. And if you had
organ growth, is it reasonable to assume that he could have reversed that?
It is another example of something that's very frustrating to me. This is noable. Literally,
take the bodybuilders, throw them into an MRI scanner, you can get organ volumes on everybody. And we can compare that to controls and also look at them off drugs,
on drugs, all that stuff. So again, it's just an example of so many of the questions that
we have here that we're not getting resolution to are knowable. It's not like we're asking
is their life outside of the solar system. We're never going to know the answer to that.
One thing I can say is on autopsy bodybuilders
that did die young or what have you oftentimes now
with social media,
those results are released publicly
and people dissect them and whatnot.
You learn things from bodybuilders that have died
that you might have not even known
because not that long ago, 10 plus years ago,
people were saying where are the bodies
known dying from steroids, et cetera,
but there are guys dying with hearts
three times the size of what they should be.
So they're certainly organ enlargement systemically,
for sure.
So we could say that, I don't know if it's necessarily
pushing on the stomach wall to actually cause.
I see what you're saying, but I can say
with near certainty there is organ growth, for sure.
I just, again, multifactorial.
Maybe it's part of it.
It's a great point.
So let's talk about the death of bodybuilders.
And we're gonna, again, I wanna come back
and do a long discussion onto anabolic steroids.
There was a bodybuilder that died kind of recently, right?
Yeah, yeah, that was a shocking one too.
He's 30 years old.
One of the biggest social media influencers too.
What was his name?
Joe Lindner.
American or German?
German.
That's right, yeah, yeah, yeah.
So with him, the scariest part was he was one of the guys
who was doing all the right things,
at least from a blood work standpoint.
So he would get blood work done literally every two months,
if not more frequent and was very, very rigorous about trying to oversee
his health status and his blood work wasn't perfect, though,
is, but it certainly wasn't somebody who should be dying
at 30 years old regardless of back in the day,
or not that long ago, even it would be unheard of
for somebody to be dying.
If he wasn't a massive bodybuilder by industry standards
for fitness where we have this work perception of what is big versus not, he was like, probably like 50 pounds
off of what you would consider a top level open class bodybuilder who would compete with
Ronnie Coleman or something.
So he was more of like a jacked fitness model by fitness industry standards and less drug
use, significantly less drug use, less food intake.
He was always in a calorie deficit, shredded year round.
The guy did lots of cardio, at least like 10,000
plus steps a day, ate clean.
Like there was no reason objectively,
at least why he should die at 30.
And what are the known circumstances of his death?
So apparently his, and this is the thing,
I don't even know if you're gonna want this
in the podcast, dude, but he got apparently
the vaccine and two boosters on top of it, I believe,
might have even been more.
But after he got it done, apparently he went and saw,
he got his blood work done just routinely
and they saw, supposedly got his blood work done just routinely, and they saw supposedly that
the blood they pulled out was like really coagulated and weird looking.
And I forget exactly his terminology, but he literally did a podcast, maybe a week or
two before his death, how he got a blood test done, and they were telling him that he needs
to get plasma for recess to clean his blood because it was so messed up from the Vax.
So he did it twice apparently
and then supposedly his D dimer went back down
because it was super elevated in his blood work
and they said he was fine now.
And he cleaned his blood and reintroduced it back
into circulation, he would be good.
He made a long trip to the US.
I actually met him for the first time like a couple weeks before his death
And then when he flew back to Thailand, which is a really long flight and yeah, there's
Clotting risk, you know associated with that on top of all the other things
Which is speculated to be something that's another variable
But he got back seemingly fine and then apparently a few days after he got back, he was complaining
of neck pain.
His aunt supposedly died from aneurysm in her neck.
That is what we have been told we have yet to see autopsy report in his situation, but
his girlfriend at least reported that his aunt died from the same thing and had aneurysm
in her neck.
In her necker in her head, it was apparently neck specifically,
which I would think is unusual.
Yeah, I won't even speculate without an autopsy.
I think again, tragic, obviously,
but hopefully an autopsy shed light on that.
I mean, it's not difficult to know
if someone dies of aneurysm on autopsy.
Would you scope that out with like a pernovo scan before you even?
Yeah, that's actually one of the reasons we really do like whole body MRI is the incidence
of aneurysms you'll see on a whole body MRI is about depending on the series.
I mean, somewhere between one and seven cases per thousand.
Now, not all of those are aneurysms that pose risk, meaning they're not all aneurysms that,
if left alone, would ultimately rupture. But a number of those require intervention. So we've
probably, in the last seven years, had two patients, if you think about how small our practices,
two patients who have had incidental captures of aneurysms that were, in one case, large enough, in another case,
growing quickly enough to a large enough size that they needed to be coiled preventatively.
So the aneurysms that typically kill people are in the head behind the stomach.
Those are the ones that you kind of want to look out for.
Also as far as if he had a deep vein thrombosis, which would certainly be a risk factor on a
long flight, that could obviously kill you with a pulmonary embombosis, which would certainly be a risk factor on a long flight,
that could obviously kill you with a pulmonary embolism, again, very easy to diagnose on autopsy.
So by the way, what's your current flight stack?
So I don't fly that much anymore.
And when I do, most of my stack is around sleep.
What I'm thinking about when I'm flying is how do I eliminate jet lag.
So I went to London a few months ago.
Unless you don't control for like clotting potential anymore.
I take baby aspirin, although the literature suggests that it's not necessarily helpful against DVT.
I used to take something else.
Native can use.
Yeah, that's right.
I used to take that for DVT.
Nowadays, I just use compression hose, hydrate like crazy.
And basically I've got straight legs, most of the flight, because I'm like laying down.
Honestly, I think like hydration probably plays a greater role than most things.
At one point I was like so ridiculous I was taking low-vinox injections.
So low-vinoxes, like an unfractionated, it's like a type of heparin, basically.
But after one time I took it where I injected it
and hit a blood vessel and had like,
the biggest bruise on my head, I was like,
oh, this is just not worth the hassle anymore.
Most of my effort really focuses around
how to not get jet lag, which I've turned into a science.
I'll have to ask you about that later.
Yes, yes. I can go to eight-hour time zone away,
be a hundred percent functional. The minute I get off the plane, that later. Yes, yes. I can go to eight hour time zone away,
be a hundred percent functional.
The minute I get off the plane,
get right into routine and rhythm.
But traditional bodybuilder desk,
like this was a bit of a unique one
because a lot of people,
well, until the autopsy comes out, no one really knows.
It might be that this is just a tragic death
in someone who also happens to bodybuild
and it might have nothing to do with it.
In general, what I've seen from the autopsy's available and some pretty young bodybuild than it might have anything to do with it. In general, what I've seen from the autopsies available
and some pretty young bodybuilders,
it's almost always a cardiovascular issue.
And not necessarily atherosclerotic,
but more cardiomyopathy type.
Yes, yeah, so like left blood pressure unchecked
and had heart function just destroyed essentially.
And hearts that are way larger than they should be.
I don't know if you've ever heard of Rich Piana,
but he was a very famous and influential bodybuilder
in the fitness industry and he died in his 40s
with I think it was like a 660 gram heart
and then Dallas Macarver, probably the most notable one,
he was like a mass monster by IFBB pro standards,
which is like one of the guys on the Olympia stage
who's actually the biggest of the guys on that stage.
His heart was like 860 grams or something.
And I think an athlete heart is like,
what, one third of that or something.
Maybe a bit more than that.
Okay. Yeah.
Mike Menser died young as well, didn't he?
Yeah.
He had known atherosclerosis didn't he? Yeah. He had known
atherosclerosis, didn't he? He was also, and I don't want to speak at a turn, but I've
heard he was pretty into amphetamines on top of that. So he was like stimulant abuse on top
of potential anabolic exposure. I do think that that's one of the difficult things to ascertain
with respect to bodybuilding is so much polypharmacy.
Well, it's the polypharmacy, and there's also like, there's the psychological component
that's very difficult to disentangle that's part of the profession.
So let's go on and talk about testosterone and Androgens in general.
You've already thrown around a lot of names that are going to be foreign to people, but
before we kind of get into the different anabolic steroids, you want to just do a quick
review of the relationship between the hypothalamus, the pituitary, lading cells, sirtoly cells,
like what's the whole relationship between those hormones, testosterone production, and
maybe we can even talk about DHT, energy and receptors, and estradiol for that matter.
So the body has a pretty, it's complicated, but it seems to be pretty well regulated
way to know how much hormone to produce based on needs and tissues, especially too.
So your hypothalamus will create something called gonadotropin releasing hormone, just
like the name suggests, this is the hormone that goes to your pituitary to actually stimulate the production and release of gonato tropins.
Gennatotropins are the hormones that work on your gonads to produce testosterone, as well
as assist with spermatogenesis and sustain fertility.
So the gonato tropins that come out of the pituitary, they elevate upstream and GNRH as well in response
or lack thereof to adequate and there's so many to lesser magnitudes, but primarily
Androgen Receptor activation and Estrogen Receptor activation. And then there's also like
some stimulation of progesterone receptors that causes negative feedback as well
among other things too.
But the primary that are to be noted probably for this discussion, androgen receptors, estrogen
receptors, when those are satisfactorily or in an adequate amount stimulated, it will
tell your brain, okay, we have enough testosterone as well as DHG and estrogen that we don't need to make more essentially because
we have a satisfied amount of estrogen receptor activation in the body.
So we need to clamp down and not make as much hormones because we don't want to have too
much.
So that will give negative feedback to the hypothalamus pituitary tosticular axis to not
produce as much GNRH and L LHNFSH, until those levels fall
to where there's a need to make more hormones.
So it's this like, finally tuned system
where your body regulates how much it assesses
how much it needs, waits until it needs to produce more,
and then it produces more.
So the top of that is the GNRH stimulates
the tertiary output of LH, luteinizing hormone, which acts
on the lactic cells in the testes and follicle stimulating hormone that acts on serotonly
cells as well.
And this is definitely get into that email you sent me about fertility and whatnot.
Those will go down to the testes and stimulate the production of intra-tisticular testosterone
as well as assist with the production of sperm
and maintenance of fertility.
So those levels, I think that's probably a good summation
of how you end up with testosterone, probably.
So then what's the fate of testosterone?
The fate of it in terms of metabolites.
Yeah, like once it gets out there,
how much of it is converted into estradiol, DHT?
Yeah, and this is where a lot of people
who neglect lifestyle and diet don't realize
all of the backhanded consequences of being too obese
or something like that, you could have,
for example, aromatase, strongly expressed
and adipose tissue, so if you are too obese,
and this is problematic, especially in adolescents too,
if you have a disproportionate amount
of aromatase expression because of how fat you are essentially,
you could otherwise be producing more estrogen
than you would have if you were lean,
telling your brain in a indirect way that,
hey, we have enough estrogen estrogen so don't make more testosterone
because I use testosterone to make it.
Yeah.
And I probably should have prefaced this with testosterone converts primarily to two
hormones through the five alpha to reductase, enzyme, five alpha reductase to DHD dihydrotestosterone,
which has a significantly greater potency for binding and transcribing activity at the ender's
and receptor and estrogen, ester dial, that will be the primary estrogen receptor agonist
in estrogen receptors around the body.
So those two hormones regulate kind of a balance of endergenicity and estrogenicity in the
body.
And it's like a finely tuned system.
And this system is also regulated
by binding proteins produced by the liver
and the differential between females versus men.
It also works in the same way.
It's just the difference in how much of these hormones
are produced is quite different.
And also the binding proteins to regulate
that you stay feminine versus you have
like a masculine profile.
So ultimately the balance of free androgen
to free estrogen in the body is almost the thing
essentially that dictates if you are feminine
versus masculine, you could flip, flop back and forth
almost manually if you really wanted to.
And we see this in body building
where females will literally masculineize themselves to hell in order to win a show
by using super physiologic amounts of drugs.
And also in people who are trying to transition
from male to female or vice versa.
And some of these changes are permanent, of course,
on the masculineization front.
If you have a deep voice, it's almost certain
that you're not going to get it high
after going on female hormone therapy.
But at the end of the day, this is kind of like
the primary hormones
to understand as far as the spectrum of
androgenic male to estrogenic feminine like.
It's not a female hormone because they exist
in both sexes, but DHT, the primary androgen
that dictates androgenicity in sexual differentiation
and maturation testosterone. They mean anabolic hormone and drives a lot of the neurology, kind of the
psychoactive effects.
And then estrogen is kind of like, it's a big balancing act essential.
Yeah.
So let's again, just make sure people understand the difference between endrogenic and
anabolic because we will come back to this more and more with other compounds as we talk
about the profile.
Well, this one has slightly more androgenic behavior.
This one slightly has more antibiotic behavior.
Yeah.
So the androgenicity or androgenic activity of a compound or your endogenous hormones is essentially how masculinizing it is.
So dihydro testosterone, the five alpha reduced metabolite testosterone is the most
androgenic hormone in the body and can significantly inhibit estrogen's activity even in RNA transcription
at the receptor site.
It's very potent in what it does to frame how important is you could have a male if you
wiped out DHT before puberty.
Basically that's how you end up with a micro penis essentially.
You have individuals who will not undergo full maturation unless you have the presence
of this hormone.
If you took a male before puberty and just put him on detasteride or finasteride, and zeroed
out his DHT with making no change on his testosterone. He would have the same amount of muscle,
if not slightly more, but that's debatable,
but no temporal recession, probably not as much acne,
not as much body hair, micropenus,
he would be probably visibly male.
And male voice?
Probably not as deep as it should be.
And we see this in pseudo-hermaphrodites
that have a mutation in the gene that encodes
for five alpha reductase.
So this is kind of the advent of these enzyme inhibitors
and how we even discovered how they work and whatnot.
But DHG, the most endogenic hormone in the body,
the most masculineizing testosterone,
still very masculineizing too.
And estrogen on the opposite side of the spectrum,
zero masculineization, very feminizing. I think that's the easiest way to
summarize. So we talked a little bit, and I've discussed this on
many previous podcasts, but just in case folks haven't listened,
right? So testosterone or DHT make their way into the cell,
into the cytoplasm where they bind the endogen receptor to your
point. DHT does so with far, far greater affinity. I mean, it's
on the order of one order of magnitude,
more, maybe 20 times more binding efficiency to the endogen receptor. This new complex of testosterone
or DHT bound to the AR makes its way into the nucleus where it acts as a transcription factor,
binding to DNA and imparting on it effectively transcription translation.
That's how we make stuff.
It's how we make proteins.
That's how it impacts muscle protein synthesis.
I guess one thing I should have said is androgenic, because you did actually ask me this, is not
anabolic.
Androgenic masculinizing, but does not necessarily equate to muscle.
You could have severe masculinization with a relative absence of actual muscle growth
or translation to, I don't know, bone integrity,
you didn't what have you.
By the way, how important is DHT post puberty?
Seemingly, it depends
because from a cognitive health perspective,
from a balance of estrogen standpoint,
from a vasodilation in the penis standpoint.
Like there are certain things where you could say it's pretty critical,
but then there's also you could just as easily say it's not necessary or mandatory.
Like you will survive and likely thrive just the same with a lack of D.
H. T. almost entirely.
A lot of people will demonize five alpha reductase inhibitors and justifiably so in
some cases, but even when you look to literature that compares placebo versus finasteride versus
due-tastride, side effect profiles are pretty similar even.
Yeah, due-tastride, finasteride being two drugs that block five alpha reductase.
Yeah. Used initially for reducing prostate size because DHT disproportionately drives
prostate growth, but also used, I would say, used more for hair loss now. But yes, and we have
talked about this on two podcasts previously about post-fenasteride syndrome, which is a debatable
idea. In other words, there's not a clear consensus in the urologic literature about even the existence of this, let alone the prevalence,
let alone the reversibility of it.
All of these things are really unknowns.
And actually it's created quite a bit of a conundrum for us because we have a number of
patients who take finasteride or de-tasteride for hair loss.
And what's your stance on 5L for reductase inhibitors?
Yeah, I mean, look, I think I'll be honest with you.
I never really paid enormous attention to it until about a year ago.
I think right now our stance is I probably wouldn't start somebody on it.
So in other words, if a person has BPH, we're not going to manage that anyway,
but a urologist has far better tools to manage BPH than five alpha reductase inhibitors.
So I feel pretty strongly that if you're presenting with BPH, you should not be on a five alpha
reductase inhibitor. It's like if someone came to me and said, my APO B is too high and I gave them
a biolacid sequester in circa 1981. I mean, it's just not necessary. There's no upside.
If you're talking about it from a
hair loss perspective, again, not something I obviously know much about, I would say, and
they're going to go and see a hair doctor who's going to try to give them 50 different
proprietary compounds, which by the way, want to come back to that in a second. I would encourage
them if they've never taken it before, not to, because I think there are enough other compounds,
oral monoxidil, topical monoxidil, topical five alpha reductase inhibitors, PRP, transplants.
I think there are enough other tools that you can do to avoid the small, but not necessarily
zero risk of something going wrong in terms of sexual side effects that in the worst case might
not be reversible. What about you? What do you think?
I think that several of the drugs you just said have either comparable side effect profiles
like topical finasteride. You end up with the same burden of 5 alpha reductase inhibition
systemically despite the effect that it's marketed otherwise. Topical do-task, right, is interesting
because it may have some capacity to stay local, especially if you do mesotherapy.
I wasn't aware of that difference.
Yeah, it's thought to be the molecular-
Is it just hydrophobicity?
It's more the molecular mass of the drug. So there's this like, it's like an arbitrary rule, but
if the molecule is greater or less
than 500 Dalton's, I believe it is off the top of my head, it's been a while since I've
revisited it, but there is a lesser or greater ability to actually absorb it and get systemic
circulation and distribution of across the body.
With due test ride, it's like, I think it's like 600 or 700 with finasteride, it's like
300 or 200.
I don't think that systemic monoxidil
is necessarily a benign drug.
And the other thing is nobody really can give an explanation
for what the right dose is.
If you look at people like a low dose monoxidil.
Oral monoxidil, it's insane.
So I don't like to be in the business of prescribing things
for which I don't have a great understanding,
which is why I'm not in the business of treating hair loss. Not because I don't think it's something worth addressing. If it
bothers someone, but I think the bigger issue is it would be really awful if in trying to treat
a cosmetic condition like hair loss, you induced a devastating consequence on your endocrine system.
That's really where I find myself concerned. Now, it also appears that
if you've been on finasteride for a long period of time and you're not experiencing any
of these side effects, you're probably fine. So I also don't want this to turn into like
someone listening to this who's been taking Propecia for 10 years, who's never had an issue
going like, oh my god, I got to stop this stuff. The literature would suggest, and there
is a pretty good review we'll link to, that if you're going to have oh my god, I got to stop this stuff. The literature would suggest, and there is a pretty good review we'll link to,
that if you're gonna have these side effects,
you're gonna have them in about six months.
Yeah, in general, when it comes to hair loss,
the problem is oftentimes the treatments,
if it doesn't actually interact with the AR,
or inhibit the potential for stimulation,
or agonizing the AR through DHT reduction or even systemic anti-androgen.
I don't recommend that.
You are essentially just putting a bandaid on the issue.
So if you stimulate growth with minoxidil, you are still not preventing further loss.
If you get a transplant, you are putting hair on your head, but you're not preventing
further loss of your actual existing hair. So oftentimes it's like you're almost trying
to row against a current or something and it's like you are continuously getting pushed back and
eventually you're going to get to a point where you have so few visible hair follicles, even left
that are healthy that it doesn't matter how much you've been on minoxidil or what have you
and oral minoxidil, it's definitely, but I think it should be reserved for people
who have weak response,
typically, this topic seems to be far more tolerated,
side-effect wise, and a lot more predictable
with like hordes of literature and great outcomes.
And there are ways to enhance that
and also turn yourself from a non-responder
to a responder, which we can get into.
But, finasteride in itself, it seems to be, like, I don't want to try and come out and say,
I'm a proponent necessarily. I try to take a balanced approach to it. But, the prevalence of
side effects is not nothing, but it's quite overblown by the opposite camp that wants to assert that,
why would you ever inhibit a hormone that is the primary energy you rely on?
But similarly, why would you inhibit,
I don't know, APOB or something?
Like there is a clear outcome whereby there's benefit
and when there is DHT and somebody who's prone to hair loss,
it's hard to overlook that this is the primary thing
dictating if you go bald or not.
And some people that, hair loss,
some people care a lot more than others, obviously.
So I do think there's a difference
because I think APOB serves no benefit.
If someone created an anti-sense oligoneucleotide
that knocked out APOB,
all it would do was guarantee
we don't have heart disease in our species.
We would still be able to use all the HDLs in the world
for cholesterol transport,
which we currently use LDL for.
But I think to take your analogy a step further, what you're basically saying is if a person
cares as much about hair loss as they do about heart disease, and by that logic, DHT
is causal.
Which sounds absurd, but let's just run a separate path.
I would pass it that there are lots of people who care more about hair loss than heart disease.
The psychological stress for some people is significant and should not be overlooked
by the silliness of, oh, just shave it, bro.
It's not a big deal.
There's tons of successful people who are bald.
It's like, yeah, sure.
Although, I think there's a statistic that no bald person has ever been president of
the United States.
So there you go.
So there's a couple of occupations you're going to take off the list.
Now you mentioned when you were going through your insane antibiotics,
steroids use you at a very young age, if you're in your early 20s, we're already starting to lose your hair.
So how did you reverse that? Part of it was just dropping the dose significantly and eventually just going down to
replacement therapy, but it was the introduction of five alpha-reductase inhibitor
initially finasteride, and then thereafter I introduced a, and I wouldn't necessarily recommend
this blindly, but a topical anti-androgen that's experimental and they've actually received FDA
approval. There are some that are in the FDA pipeline right now that actually look promising
and have safety data behind them and whatnot that I'm watching closely and hope one comes to fruition because these are
essentially compounds that compete for the Androgen receptor locally, but do not have
systemic anti-Androgenic activity.
So you can maintain all systemic Androgen levels with just localized activity in the scalp
essentially.
So I use the topical anti-Androgen coupled with a 5-alpha reductase inhibitor.
Those were the main two needle movers for me.
I also use a ketoconzole shampoo, but it's like a very mild anti-androgen.
It's mostly just a good shampoo.
But those two things and decreasing the burden of Androgen significantly were fairly effective
at getting me not to baseline.
Meaning, you never regain, no, no.
That's the thing with hair.
That's the sketchy thing is even if you're trying to decide,
oh, you know, maybe I should treat it,
maybe I shouldn't, I'll think about it for a bit.
I'll see if it gets worse.
The visual representation of loss
is typically not a parent's until you've lost
a lot of ground,
because you could pull a handful of hair out of your head
and see no difference whatsoever.
Once you finally notice diffuse thinning or recession, it's not something you've been
looking for carefully because you've never dealt with it.
So oftentimes once you actually notice it, picture or in heavy downlining or something, you've
already lost 20, 30% plus of your hair.
There's no guarantee that's coming back.
Did you regain hair that you had lost
with this protocol?
Or just completely stop some regrowth,
but expecting yourself to get back to baseline
where you had like 17 year old immaculate perfect hair.
If you've been exposed to androgens at a level
where you're visibly noticing it,
it's relatively unlikely.
So that's not to say it's impossible.
Like if I took Menoxil as well as micro needle
and did a bunch of other stuff,
I could probably get a decent amount of the way there.
But the longer you wait and let hair follicles
miniaturize, the more permanency you are risking.
So making back ground is way harder than preventing
yourself from losing in the first place. Making back ground is way harder than preventing yourself
from losing in the first place. So it's almost like maybe analogous
to building muscle when you're younger,
so then you don't have to try and build it in old age
when you have like, anabolic resistance or what have you.
Let's make sure we give people the names
of these compounds you're using.
So, finasteride is like the main primary five alpha.
And you take one milligram of that daily?
I take due to astray now.
So you take 0.5 milligrams, is that 0.5?
Yeah, I take 0.5 a day.
So that is a soft gel that essentially wipes out
systemic DHT.
And your DHT level is worse than a teenage girl.
Yeah, it's terrible.
But I smoke here.
At least now.
I think one of the guys with the highest IQs on the planet
has been on due to astray for decades, if that's notable for anyone.
Okay, so then what else are you taking besides due to asteroid?
Due to asteroid right now is the only thing I take more of convenience, because a topical
application schedule can be quite burdensome, but when you were doing that big salvage effort
in your early 20s, what was the rest of the stack?
Oh, it was topical application of something called RU-5841.
It was like a experimental anti-androgen.
So I don't necessarily recommend people use RU-5841 when there are actually alternatives
with human safety data on the horizon.
With that said, it's also hard to tell me, however many years ago, that weight. You only have so much time, right?
So I'm not going to sit around.
And one of these things that are on the, that have more safety data coming down the pipeline.
It's coming called Kintor has a compound called pyrolytomide and it seems to be pretty
well tolerated and comparable outcomes of hair count increase to due
toastride, if I recall off the top of my head, which is pretty substantial, given that
there are very few things that produce outcomes that are even make it worth taking another
drug.
Right now, the most effective things are going to be five alpha-reductase inhibitors
in minoxidil.
On top of that, everything else is like little sprinkles on the cake essentially. Some people might get better
benefit from PRP than another person or what have you, but in general the main meat and potatoes
are going to be minoxidil, potentially microdeling with minoxidil if you're not a good responder
or have low cell-foat transferase enzyme activity in the scalp and the inhibition of free
endrogenic signaling in the scalp, whether you do that through five alpha reductase inhibition or anti-endrogen activity locally, that's kind of up to you, or some people are
going to couple both of them like I did, but those are the main needle movers, ultimately.
And then some people go super hardcore and the most crazy hair loss reversals you will see
are always in men transitioning to women who use female hormone therapy. I would never
recommend anyone do that, but it's a pretty interesting data set to like
pull from.
So estrogen and progesterone would promote hair growth.
I mean, we do see it in women actually during HRT, especially progesterone can really
thicken hair.
But this is in women.
I mean, I have no idea.
Yeah.
I'm more talking about antiandrogen plus estrogen.
So somebody transitioning would typically use a Cypertheron acetate by Calutamide,
something of that nature, plus exogenous E2
or a synthetic estrogen.
And the first two, which I'm not even familiar with,
are drugs that just block the
energy binding to the energy receptor.
Cypertherone is a very potently anti-genadetropic,
I believe.
So it's like it will inhibit you from producing
GNRH, it's effectively a chemical castrate.
That's like a steroidal antiandrogen.
And then there's the non-steroidal one.
Anyhow, it is effectively chemical castration.
The non-steroidal variant by colludamine seems to be
a bit better tolerated, it's not as liver toxic.
And it will actually raise your hormone levels on paper,
your test levels go up. It's just, you can't actually interact with the receptor because it's occupied by by colludamine
So it's like a silent and urgent receptor antagonist and
Those are like extreme options. They'll like essentially irrelevant for anyone watching
So maybe I shouldn't have brought it up. Yeah, yeah, let's go back to kind of TRT then so we've kind of established what's going on when you starting
a TRT then. So we've kind of established what's going on when you're starting.
Yeah, we're going to talk about that. I'm actually doing my blood again next week. So we'll see how far my levels have continued to fall. So I was going to actually talk right about that, right?
Which is let's talk about quote unquote, what's normal? I've never found a compelling table
for normal levels of free testosterone that are stratified by age. You can find these data quite easily for total testosterone level, but I've only really
seen data for broad chunks, pre-pubescent, pubescent, post-pubescent.
Here are the percentile ranks for free testosterone, whereas for total, I can show you by decade
or something like that.
Yes, it's worth putting some context at this, right?
So a person's total testosterone is 800 nanograms per
desoleter.
Most of that is bound.
And sex and combining a lot of you learn an albumin,
probably do the lion's share of binding.
And if a guy's got 2% of that as free or unbound, that would translate
to 16 nanograms per desoleter of free testosterone. That's estimated, by the way, it's not calculated.
It's very important. People understand this. When you go to the lab and you get a test done,
they're measuring testosterone. That's direct measurement. By the way, we should talk about
Eliza versus LCMS, but they're estimating the free based on the measurement of the binding proteins. So that's introduction of potential error number one. So you don't really know how much free
testosterone you have. The other thing is you don't know how many androgen receptors you have.
So you really don't have any idea whatever amount of testosterone you have is saturating.
Your engine receptors are not. Are you playing below your weight or above your weight?
What do we know about the amount of total testosterone over time in a guy's life?
I know that after it peaks, you will have a steady as opposed to women where you see like a plummet after menopause for men.
It's more gradual and you can expect.
I believe it's about 1% drop in total tests per year with an approximate 2 to 3% drop in
free each year as well.
So at the same time, you would have 1% total T drop, 2 to 3% free.
It depends on age lifestyle, but in general,
like post age 30, 35, you can kind of expect a little bit of a decline to start, but that's
not to say I haven't seen 70 year olds with like a thousand total T sometimes.
So you can certainly retain high level production.
I don't want anyone to think, oh, now that I'm 45, my level's probably dropped 20 plus
percent at this point.
I should probably get on TRT.
It might not be the case.
So those are kind of general numbers of decline
that you can expect based on literature,
but I think it's reasonable to assume
that a lot of people can retain good production as well.
It's just a matter of how well do you produce
getting out of tropics, how well do you respond
to them at your testies because there is some level of function that declines with age 2,
even in response to the genatotropins. And that's an expected outcome, unfortunately,
but that's kind of where you get into the nuance of its TRT justifiable for this person based on
the two-itary output, lifestyle, diet, nutrient intake, sleep hygiene, is there sleep apnea, et cetera,
and then also actual testicular response,
because there's an argument to be made
if you have very good testicle response,
like why would you ever be on exogenous TRT too,
because you could top out your natural signal even.
Is there an advantage to that?
Before we get to that, let's talk about the rationale
for TRT.
So what do you think is the most compelling case for it
and how often are people expanding that use case?
I think the most justified use for it
is people who have primary hypo-going addisms of that is
when you have banana tropins going to your testes,
but you're just not responding to them.
So LH and FSH are, you'll see these as high in your blood work, but your total T is still
bottomed out.
That could be somebody who is, you should probably check, do you have a varicose seal,
do an ultrasound of your testes, see where things are at structurally, functionally, et cetera,
before you make any rash decisions, because there could be something you're overlooking.
And I do think a lot of people do overlook certain structural abnormalities that may otherwise be rectifiable
Kind of depends, but typically
Testicular failure in response to adequate signaling would be the obvious
More no-brainer versus if you had low LH and FSH
Maybe your testicles were fine. So why are you haphazardly getting on testosterone when
Maybe it's a lifestyle thing?
And so typically when we see that pattern, the second pattern you've described, which
is low testosterone, but in the setting of low LH and FSH, the most obvious things that
usually show up there are poor sleep, basically high glucocorticoids, which can also suppress
the pituitary.
And you'd measure the glucocorticoids through like a Dutch test?
Yeah, usually you're an actually.
We used to use saliva long ago,
but yeah, so using a Dutch test.
Interestingly, those are not the easiest things to fix
because people have to change behaviors
which is a lot harder than taking a medication.
So let's just say we go down the path of,
we believe that TRT is the right thing to do, and
we believe that it's primary hypogonadism.
What do we know about the dose response of testosterone?
And do we think that it makes sense to use fixed dosing and increased dosing or target
to certain levels?
Because again, most of the studies, and we might talk about the traversed trial, they kind
of just use fixed dosing, which is at least for me one of the criticisms of
that approach, by the way, is especially when you're using something topical and you have
variable absorption. But what do we know about this?
I think in general, if you're going to be treating with exogenous testosterone and
accepted entry level dose, that is on average safe and well tolerated and we'll get you to a reasonable total
T that provides symptom relief for the majority of people is I can't see a more logical
start point then for example like 100 to 120 makes a week or something of that nature
and just seeing what happens to the guys total T free T this could also be variable based
on does he have a super high SHBG? Should
it be evaluating that? Because maybe he just has a low free tea instead of his total
is fine. In that case, you could have brutal symptoms, but your production is still good.
It's just being bound up severely and why is that the case? Do you have like severe liver
issues or something? So after you fleshed all that out and you determine the guy needs tea,
I would imagine a reasonable starting place is typically like 80 to 120 a week and then go from there.
See how you respond to that. And any advantage to dosing it once weekly, taking that dose and
dividing it by two and doing it twice a week, taking that dose and dividing it by seven and doing
it every day, I don't necessarily know that like like for example, when patients come to you, I'm sure they're looking
for the highest level of optimization
hence why they're with you.
So maybe it's more reasonable to expect them
to pin more frequently, I would say pin, I mean inject.
But there is a half life with the drug
depending on the ester chosen typically testosterone
andcipionate will be prescribed, at least in the US,
that's the most prescribed
one, which is a half life of 10 days of hydrochloricol, if the top of my head depends on the person,
of course, where it's injected, blah, blah, blah, blah. That half life, you could extrapolate
out from that, okay, it's going to take 50 days to achieve steady states here, and concentrations
in the blood, and that's going to look on like a steroid plotter you could check online and see this kind of like
spiking until all of a sudden there is
the same amount of dropping of the drug clearing out
of your system, you're getting an equal amount
of spike backup, like there is no accumulation
of drug burden after you've achieved steady state
serum concentrations.
So the advantage to injecting more frequently, and this is going to be determined
largely by patient adherence more than anything, because some people simply refuse to inject
even more than I've seen some insane stuff, where people will let themselves drop to literally
hypo-goingadil territory, and then remember, based on their D not working, I'm gonna, okay, now I take my test.
But in general, once a week is like bare minimum,
I would say, but that's certainly not optimal.
And I would say that two times a week,
at least for somebody seeking good quality oversight,
preventative medicine, whatever,
if they're coming to you or to somebody
who believes in the same things you do,
twice a week I think is kind of minimum
for decent, steady hormone concentrations.
We've sort of arrived at the same conclusion
that that's the sweet spot.
We do have a couple patients who do daily injections.
And interestingly, in these patients,
we see much less for the same dose of testosterone.
So you take 15 milligrams injected a day,
which is actually very difficult to do.
You have to be very thoughtful about what kind of needles
you're using to actually get such a small volume in,
but they will have much less FSH suppression,
which suggests to me that the higher the peak,
the more the FSH suppression.
I don't know that there's anything
physiologically relevant to that.
The study is when you look at trough-level T levels, and I say trough, I mean like the lowest
point of hormone concentrations after an injection, oftentimes these studies assessing
dose response will look a week after your injection.
So what you see in the literature isn't necessarily reflective of what's going to be in patients
trying to optimize anyways, but what I see personally and in Marikalth and through all my blood
work that I've seen over the years, et cetera, the more frequent you get, there's a diminishing
returns for sure, but you can lower the aromatization spike and five alpha reduction by going
more frequent. So if you have a bolus administration of 150 milligrams once a week, you are literally
spiking your tea into super physiological territory acutely.
And concurrently, you are getting super physiologic conversion to estradiol, DHT.
You also have a very, very aggressive spike in free endogenic signaling, which can
crank your sympathetic nervous system up, impair your sleep quality.
There's so many consequences, and you'll see more hematopoesis.
When I had Mo Cara on here, he was talking about Natesto, which is the nasal formulation,
which has such a short half-life that it's actually a TID dosing schedule.
It's seven milligrams of testosterone.
I want to see somebody take three times a day for more than a year and still tell me
it's cool and fun to take.
So if you end up doing that for TRT, you're going to probably will not.
But two interesting points with the test O. The first is they don't have the hematopoesis.
So these are not people who are making too many red blood cells
that you have to actually be careful of
and have to go and get them therapeutically flabotomized
to take blood off them as their hematocrit gets over 50.
Secondly, it's a FDA formulation that women can use
because if a guy is taking seven milligrams
in each nostril three times a day,
clearly a woman could take one of those every other day.
And by the way, it's sort of an on-demand libido tool for women in particular.
So there are lots of interesting things around that.
Also, they're doing a clinical study and we're sort of observing what they're doing.
We're a women are using intravaginal use. One application of that intravaginally before sex
to enhance orgasmic function.
It's always desirable to have an FDA formulated product
when you can kind of avoid the dark side
of compounding is my view.
I think the best way to conceptualize
for the listener to why this frequent protocol
or getting a more stable level,
why is it resultant of lower side effect burden?
The closest you can replicate natural function,
the more you will replicate natural side effect profile,
which should be nothing if you are physiologic.
So with NETESTA, which is like in and out,
acutely like so fast, you were not getting this huge spike
to like 1500, 2000, antigran per desiliter total T. If there is no situation ever in
which your testies would just blast you once a week with a
hammer of test and all of the associated metabolites and back
ended consequences of that, you would have little pulsations
over the diurnal rhythm. And this is why you would test your
blood as a natural in the morning when your testosterone is
spiking. And it's going to ebb and flow over the day.
Your test level in the morning could be 300 nanograms per deciliter higher than later
in the day.
It'll get fluctuates.
So to expect that it's reasonable to jam yourself with an absurd amount of test in
one go and then hang on that as it declines into your body and then crank it to the stratosphere again once a week.
It's just not representative of the physiologic state whatsoever. So the more you can replicate that diurnal rhythm through the synthetic administration route,
the closer you're going to get to a lower side effect burden. Like I've seen some guys that get kind of comastia from TRT dosages go to ED everyday dosing and get off their
AI just to translate that into English.
I'm sorry.
You've seen guys who can take a weekly dose of testosterone and in doing so, they make
so much estrogen that they have to take in a Roman taste inhibitor to prevent them from
getting breast tissue kind of comastia.
If they take that same dose and divide it daily,
they can come off through a rheumatase inhibitor altogether.
Yeah, and some people it's problematic
because they will give feedback to their doctor
or just give a judgment to what hormone therapy was like
for them based on what is maybe not the right dose
but also just not even close to an ideal dosing regimen and injection
frequency. When I got back into the practice of medicine and was learning about HRT,
I couldn't find doctors who weren't prescribing anything different than every two weeks.
That was the standard. Have you seen the Europeans sustinon? No, I have not, but the standard dose was 200 milligrams every two weeks.
I remember going through Lewellen's pharmacology and looking at the pharmacokinetics and being like,
this is an awful idea.
Any difference clinically between Scipion 8 and Enanthate, obviously one of the advantages of
Enanthate is there's a commercial product called Ziya Stead
for people who are squeamish about injecting that comes in a preloaded pen. So we have some patients
who just don't like the idea of having to draw up a syringe and they just kind of want something
that's a little more turnkey. So Ziya Stead, which is a slightly different form of testosterone,
but clinically, I sort of remember at one point,
there was some difference that might be age specific,
but I don't recall now.
And antheta is often thought to be a long ester,
which it is relative to like propionate or phenyl propionate,
but it's kind of like an in between of
sipionate and propionate.
It's like a half life of, could be a short as
four or a half to five days,
I believe, of the top of my head,
whereas Cipianate could be twice as long in some people.
So it depends on your individual metabolism
of the drug often.
And also, if you're pinning sub-Cure I am,
like you could bleed out the effect more.
So I would say if you're injecting frequently enough,
it's essentially irrelevant.
The ZioStead protocol from the FDA is once weekly.
We still recommend people do it twice a week.
Just use a lower dose.
The difference of what you're supposed to take versus using it,
like obviously frequency is of a lesser concern
than you walking around with no test.
So if it's the difference between a guy taking it versus not,
okay, take your once a week if that's what it's going to take, is the preloaded dose? Can you modulate?
You can't meter it. That's what's so annoying about annoying with the GLPs, too.
Yeah, it's such a racket. And I always tell patients, I'm like, look, if you're completely
cost-insensitive, I guess fine, but otherwise getting sipianate in a jar is a fraction of
the cost. If you're just willing to be the guy that meters it out.
But the enantheta, I think, only comes in three loaded doses of Ziya's dead.
You also have less wiggle room if you're not happy with the output.
I would assert with near certainty that you are not optimizing your hormone status
if you are, I want to say optimized, I mean just dialing in the stability of it
and the side effect profile and potentially quality of life as much as you could if you did a more frequent
schedule, especially with an antate.
Meaning the more frequent you're giving it the better.
Yeah.
I think the diminished returns are, there's a significant drop off when you go from every
other day to every day, but one week to twice a week, like I'd say there's a pretty dramatic
difference that's worthwhile.
Let's talk about the difference between sub-Q and I am.
I have always advised patients to do sub-Q
for the belief that it has, as you point out,
kind of you bleed out the effect a little bit longer.
I have to be honest, I don't think I've seen data
to support that.
I have seen, and I think this is an extrapolation, but I believe it to be true, is when you look at
sub-Q dosing, you'll notice the total T levels are higher, and then people take away from that.
Oh, sub-Q is like, you get more out of your test, but the reality is when they measure total
test levels, it's often a week after your shot. See, so it's just last longer. So I think you are
in a week after your shot. You see, so it's just last longer.
So I think you are almost giving yourself
a sustained release through administering
into the fat tissue rather than intramuscular,
which is more readily absorbed, quicker, blood flow, et cetera.
Just like if you did like an IV administration,
it would be in your blood immediately.
Not that you would ever do that, of course,
but the difference in pharmacokinetic profile of IV
to I am to sub-queue, like you can change the same drug dramatically
in onset of action through that.
You think that sub-Q is probably a better administration.
I think once you get to every other day dosing,
it almost doesn't almost matter.
Yeah, but I think especially for people who are doing,
and again, it depends on the amount
because if you're doing once a week,
is that gonna be too much of a bolus to sit in stomach fat, depends
on the person.
But I would say especially for infrequent, you'd be better subcute, ideally if the volume
of oil isn't significant enough that it's creating lumps and stuff.
Let's talk about aromatase inhibitors.
There was a study that I don't think gets enough attention.
I think it was 2014, might have been 2013 in the England Journal of Medicine
that looked at 10 groups.
So it took a group of men chemically castrated them,
divided them into two, first half of them
get an aromatase inhibitor, half of them don't.
And then within each of those groups,
there were four escalating doses of testosterone
plus a placebo.
So what you have are five groups times two,
one with estrogen inhibition, one without,
and five excillating doses of testosterone.
So you end up with 10 outputs,
which are ranging from low to high testosterone
with high and low estrogen.
And the outputs were body composition, mood, libido,
a whole bunch of rectal functionally things.
The punchline was you were better off
with more estrogen and more testosterone.
So the best outcome group was the high T, high E group.
Now, the high E group wasn't that high.
I'd have to go back and look how high the E was.
I think it was probably in the ballpark
of 50 pg per milliliter.
But this was an important study
because I think it suggested
that estrogen is not the bad guy, right?
I think there was probably a lot of people out there
thinking, if you're taking testosterone,
you need to be taking an aromatase inhibitor
and while that might be true at some doses,
I guess let's start with normal physiology
and then I'm kind of curious to hear
what the bodybuilders are doing.
Back in the day, we thought that regardless of the dose of Androgen, you should lower your
estradiol to 20 to 30 because it's in the middle of the reference range ish for a man.
And that's where you get the best. There was no thought of balance. It was kind of like,
this is a bad hormone to have above the reference range, even though our antigens are literally like 10X the reference range. What would your
testosterone levels when you were back in the heyday? I never got LCMS testing when I
used my highest dosages, so it would get capped at like 1500 or something, but it was,
you know, in the thousands for sure. But yeah, with Etchardial, there is, and I've seen these studies too, where it shows neurotoxicity
when you add it in, versus you take it out, and there's a protective effect. So like neurotoxic
outcomes are higher when aromatase is inhibited, and less neurotoxicity when it's taken out on the
exact same input of testosterone. I think it's pretty clear at this point that there is a role of
estrogen in the body,
not just from a cardiovascular standpoint,
but from a neurological standpoint too,
there's like serotonergic activity,
there is so many things that regulate mood as well.
I think even like temperature control too,
is gonna be variable based on that,
it's kinda ties into the postmenopausal stuff,
but for men it is certainly important
and to crush it arbitrarily based on a reference range is kind of like old bro lore.
And I think most people, even in the bodybuilding space, are pretty aware now that estrogen is
important for cardio and neuroprotection.
And I think another thing that's really important for is bone health.
And by the way, you asked me earlier about when am I ready to start my TRT protocol?
I think I'm more troubled by the fact that my estradiol is so low because my T is routinely
between about 300 and 400 nanograms per desolate and my estradiol is never above 25 pg per
milliliter, which is normal.
That would be normal for such a low T. But to me, one of the big advantages of having a T of
a thousand would be that I'd hopefully have an estradiol of 40, not to derail, but five
alpha reductase inhibition. When you don't have conversion to DHT, you branch off more T to
estradiol and estradiol will reliably increase by 15 to 22% on finasteride or due
tasteride. Some people who are very low aromatizers and have like a
hyper-endrogenic state, those people, that's where unique individual
variability comes into the consideration for drug implementation. So a guy
like that, even for actual quality of life, sometimes that modulation.
Interesting.
Yeah.
I'm actually going to do both tests side by side next week where I'll do enzyme-based test
plus LCMS for DHT testosterone and estradiol.
So I'll probably have a better sense of what they look like because we can talk about how
often enzyme-based testing gets estradiol wrong.
No, yeah.
I've seen some brutal overestimations
using ETLA when it was like single digit.
Yeah, we've seen guys come back with estradiol levels
of we're using like say Boston Heart,
which is using an enzyme-based system
and they'll come back and they'll have an estradiol of 100.
And we're like, this can't be right.
And then you send them to LabCore and specify LCMS,
they're at 31. Yeah, and this is especially important, I think, in especially hypogenadil men who have relatively
low estrogen to begin with, like actually identifying where it stands is pretty important for sure.
Okay. Let's talk a little bit about the other hormones. So for most of the medical needs, is there any reason to be considering a hormone
beyond testosterone for male sex hormone replacement? I think it depends on the person, for sure.
That's like such a general answer. Well, let's say this, if you're just talking about health
benefits and not performance benefits, we're going to talk I'm sure about lots of others.
And I'll give you one example.
So way back, I used to be a little bit more liberal and creative.
So one of the things I used to do was if guys had normal testosterone, the example used
a minute ago, a guy who's got a testosterone of a thousand nanograms per deciliter, but
his SHBG is a hundred for a guy is very high and his
free tea is like eight nanograms per deciliter. So he's like eight tenths of a percent free
instead of say two. You could use a very, very low dose of oxandrolone and you could eradicate
his SHBG because it has such a high binding affinity for
oxandrolone.
And of course, it also will inhibit, if you give too much, you'll inhibit testosterone
production.
So there's a very fine balance where you might give him like 10 milligrams twice a week,
or three times a week of oxandrolone.
You knock that SHBG down and you double his free testosterone.
You haven't given him any testosterone.
I don't do that sort of thing anymore.
I feel like he's just not worth a hassle, truthfully.
That's one example of an area where you can manipulate
another part of the system without having to go beyond that.
But if you maybe take examples like that out,
if you're just talking about the use
of these other steroids, what's the case?
In some individuals, a adrenal hormone replacement,
sometimes maybe justified, but it's going to be based on blood work.
Can you say adrenal-domain DHA?
Yeah, so like DHA, if you have a bottom DHA-S,
maybe you would look to a DHA replacement.
If you had low pregnant alone, that might make sense,
but it's more for like neurological,
cognitive, perceived quality of life effects, not necessarily because there's any evidence to support that it's more for like neurological, cognitive perceived quality of life effects,
not necessarily because there's any evidence
to support that it's necessary.
In general, the main needle mover is going to be your test
and how much it five alpha reduces
or romanticizes into the two metabolites.
And from there, you would never manually use more DHT.
You would almost never probably manually use estradiol
on top, although it's not impossible.
So it's like upstream to that
in the story of Genesis cascade,
where might other stuff plug in.
I've seen progesterone use and men on TRT
actually reasonably effective in sleep quality.
How much progesterome, like the same amount as women,
one to 200 milligrams?
You don't have any HBTA suppression
because you're shut down anyway.
So it can be impactful on quality of life
because you get the downstream conversion
to some of those neuro steroids
that may be inhibited in post-fast ride patients.
I'd never heard of that.
That's super interesting.
Not a commoner.
Why would it work in women and not work in men
if you had a reasonably low progesterone level?
Yeah, they're not expected to have a sky high progesterone anyway,
but it's some of the downstream
neurosteroid metabolites that you make through 5L for reduction and whatnot that are very
gabberurgic and
Anzialidic can help certain people and maybe that's useful for a specific guy who has a low
SHBG and is in a state of high sympathetic drive on his test and needs to calm down or there are certain
use cases that are more
needs to calm down or there are certain use cases that are more individual dependent for sure and not necessarily dictated solely by.
It looks like lab resulted out and anywhere we just look for red and then replace it.
I don't really know the history at all of anabolic steroids guessing testosterone's probably
been around since the 30s or 40s, right?
Presumably.
Yeah, I think when it was first synthesized, remains up for debate maybe it goes
back nearly a hundred years at this point. And so what was the first anabolic derivative
of testosterone? The first one I can think of of time I had as dianna bull, there might
have been like methyl test or something, I could be misremembering, but essentially what
they did was they took the testosterone molecule and found they could finagle it, manipulate it in ways to create
testosterone derivatives like dianna ball, methanidro stenolone, which is supposedly the
breakfast of champions according to Arnold. One of his famous quotes, bold and known is
a very commonly used drug as well still. It was prescribed to horses, I believe, for a while.
And then I don't think it ever had a human use.
But that is a testosterone derivative as well.
And there's other ones that came there after, like, halo testin, which I think famously
one of the presidents of the United States was on some aggressive dose of halo testin
for, I figure it was, maybe fertility
or energy therapy, but some of the protocols back then made almost no sense.
Halo test in and through there, they also found, oh, if we take the 5L for reduced DHT,
testosterone converts to DHT, you would take that DHT molecule, you could manipulate
and create more anabolic compounds that are tissue selected.
Like the idea of actually tweaking and modifying it to begin with came from the utility clinically
to implement in muscle wasting in an energy sensitive individuals.
So you're not going to give a child testosterone who has, you know, like a burn patient, not
going to give them tests because you might masculineize the hell out of a female child, for example.
So you have to come up with novel alternatives
that are going to be anti-catabolic preserved tissue,
keep somebody from wasting away in a state of filling the blank
without causing extreme viralization.
So the armistice of creating the best antibolic agent was
from numerous pharmaceutical companies
and came in array of compounds that you know now to be the dionibols, the bull denones,
the DHG derivative side.
You had oxandrolones with a more refined, more recent, although decade to go at this
point, Prima Bullin, also a very refined one, so Metanolone Provieron, I think still
used to actually to interact with SHBGs, it's probably one of the most potent
drugs that binding SHBG is, Mr. alone.
But yeah, the ideal scenario would be you're trying to
segregate the anabolic from antigenic activity
because testosterone is essentially equal, at least based
on rodent studies, you would find an equal amount
of anabolic activity in muscle relative to
androgen-like activity, masculineization.
So you would try and take the compound,
manipulate it to give maximum anabolic outcomes
with a relative lack of androgenic outcomes
to create something that men, women,
children, anybody could take for muscle wasting purposes
and preserve tissue.
And they never successfully did it,
but an array of compounds.
If sort of one to 10 would be, let's just make this a scale up.
So 5 is testosterone.
So it is halfway between completely anabolic and completely androgenic.
DHT would be closer to 1.
It's much more androgenic than it is anabolic.
What is the furthest example you have that's closest to 10, meaning the most
anabolic premable, and probably? So one would think that that would be like the drug of choice if you're a bodybuilder. It often is, too. So typically men will take, I'm not saying
it's the only drug, because it depends on what else you're trying to get, because sometimes the side effects as absurd as it sounds are desired. So with dianna ball, for example,
heavily water-retentive.
So that could help cushion your joints
when you're doing heavy lifting, for example.
If you have better leverages on like a max out,
you're going to be better with more water retention
around your muscle belly, then if you,
or in your muscle belly, then you would,
if you had like a dry compound
that is not a substrate for a rheumatase
and premable and is extremely refined and specific
in its action.
It's like a pure protein accretion compound
with a relatively less burdensome androgenic profile.
But the side effects of it, it doesn't interact
with a rheumatase because it's a DHT derivative. So it's not a substrate for aromatase.
It does not 5L reduce into a bunch of different things too.
So it's more predictable in its outcomes.
But that's not always the desired outcome.
Some people want to look cosmetically inflated with water.
Some people want to lift more weight or prevent injury and sometimes that water can be helpful.
Depends on the person.
But yeah, that's like skewing the furthest direction
of anabolic relative to anrogenic.
You probably have like, trimable an anivar.
Yeah, and I remember, again, just sort of reading like anivar,
also highly prized among athletes.
Technically, storms are actually even further
if I was to give the most extreme anabolic relative.
So let's talk about serums then.
Tell folks what those are.
Okay, selective androgen receptor modulators.
These were kind of designed.
Some people might be more familiar with serums.
You've talked about clomid,
tamoxifen on this podcast before.
Selective estrogen receptor modulator.
So these will interact in a tissue-specific way
with estrogen receptors in various areas of the body.
So you might have inhibition of estrogen receptor activity
in the breast for somebody who has breast cancer, for example,
versus you would have pro estrogen activity
in other areas of the body like bone,
which is what makes the selective action of it desirable
because you can actually sort of choose where you get the activity
you want, but also don't impact the health of other tissues and other areas of the body.
So the same idea was kind of adopted for serums, and they tweaked and modified anti-androgen
actually to make these compounds that would interact with the Androgen receptor in a way
that was tissue specific and try and get
pure anabolic activity with almost no Androgenic.
And proportionally, it's more successful probably than anabolic steroids, but the ceiling
of anabolic activity seems to be lower.
So when people use serums, they do not gain as much muscle as when they use anabolic steroids.
And oftentimes in their quest for achieving
a similar muscle-building outcome, the higher and higher the dosage gets, the less selective it
becomes. So almost like certain, I don't know, beta blockers, for example, as you get higher and
higher, they become less receptor selective and you get more like broad spectrum.
What are the typical serms or what are the most potent or commonly used serms?
What are the typical charms or what are the most potent or commonly used serms?
LGD4033, probably it's called a ligandrol. These compounds often get traded around companies so often that they have new code names every time I check. I think the most recent one was,
I think it turned it to VK5211 by Viking Therapeutics was the last company I'm aware of who had it.
And I think a phase two trial for hip fracture patients
Ostering also known as a nobo-sarm was
probably the most well-known charm
But it has not been FDA approved and seems to have not hit their
Target endpoints that they wanted although it looked effective and oftentimes women who are
trying to achieve a physique to step on stage
to try and bridge the gap between not using anything
and using steroids, they will go for something
like an osterion and they don't viralize themselves
when they take it.
It's funny, I always thought that was a sarm.
I didn't know it was a sarm.
Are these band compounds in natural bodybuilding?
Yeah.
And they're super detectable because they're not supposed to be in your body at all.
So how does one get these?
Are these, if they're in phase two, compounding pharmacies, some of them make them?
Yeah, that's true.
I've heard some wild nutty stuff just like, oh yeah, I'm prescribed trend.
How is your pharmacy make trend?
Yeah, let's talk about trend.
Where does that fit into?
So that's actually classified as a steroidly sarm,
interestingly enough.
So it was prescribed to women in the 80s, I believe,
and it was also used to beef up cattle
and might even still be, but it is super anabolic,
but it also has very odd,
progestogenic activity.
So it interacts with the progesterone receptor,
causes severe night sweats, it's called
trend sweats.
It also has this weird side effect called trend cough.
No one can be sure of what is causing it, but it's one of the only drugs associated with
a prevalence of a severe coughing fit, like you're having an allergic reaction or something
after you take it.
So you inject it and you feel all of a sudden it's tightness in your chest and then within 20 seconds you're on the floor
hacking up along for two minutes.
I had a patient come to me a little while ago
who was seeing some fancy doc in LA
who had him on a pretty high dose of trend in GH.
Again, there's always like,
how do you get people off these things?
Luckily he wasn't on it for very long.
Those compounds are more suppressive, too, because they interact with the progesterone receptor significantly.
So it's like you get the negative feedback, not just through AR, ER, but PR as well.
So let's just kind of recap where you were on some of those. So did you talk about Deca and Andralund?
Yeah, Deca is close to the more pure anabolic side.
It's not near the selectivity of a swarm at a therapeutic dose, but it is probably the
interestingly enough, the only steroid that you can probably use at a dose that is will
result in body, builder, level results without hair loss because it has unique interaction
where it's, it gets
so complicated when you think of the pharmacology of the stuff, because it's like, it will
5 alpha reduce into a dihydronandrolone, which is almost no androgenic activity.
So in the muscle, where you have a relative absence of 5AR, you will retain the anabolic
properties of nandrolone, where you want it,
but then in your scalp, it'll five-off reduce into this metabolite dihydronandrolone, where it has
almost no endogeneity. So you get like the muscle building without the hair loss. So do body
builders even take testosterone at this point? Almost always. So why are the Hingt testosterone when
they have all of these more designer antibiotics that seem to have an advantage over testosterone in every way?
Testosterone is the base because it provides your estrogen
base layer of neural protection because none of these things provide
aromatization.
The only other compounds that could act as replacements for test are things
that are potent substrates for aromatase too.
But even then, you get these synthetic estrogen metabolites
that have less predictable activity.
So for example, D-Ball converts to methyl estradiol,
which the potency of it at the estrogen receptor,
it's not as predictable.
And your body doesn't really know exactly.
It doesn't have as predictable of outcomes in body doesn't really know exactly. It doesn't
have as predictable of outcomes in terms of providing the base layer of what you want from
like a broad spectrum, perfectly balanced endogeneity, converts to estrogen where you want
it in tissues, you know it protects the brain to some extent, granted that super physiologic
dosages, you're a neurotoxic territory. Certainly, you're not going to protect yourself with
a base of test, but it's better than no test for sure, or no, certainly, you're not going to protect yourself with a base of test,
but it's better than no test, for sure, or no estrogen. When you're saying it's superphysiologic
doses, you mean superphysiologic doses of all of these other hormones? Yeah, because I guess there's
no actual physiological level of them, but it's more just like the Androgen burden on your body is
exceeding what it would be from a natural testosterone production standpoint.
So what is a body builder?
Let's just talk about an IFBP,
top 50 body builder in the world.
What percentage of the year is he on
some anabolic steroid?
Oh, anabolic steroid, including testosterone.
Yes, probably.
90 to 100%.
They basically have accepted the fact
that they've completely suppressed and lost any endogenous production for life. And it's now just a question of how they cycle
up the testosterone plus or minus the other antibiotic. Sort of. I've seen firsthand multiple
bodybuilders who've been shut down for decades come off and restore natural function. And
they're using presumably FSH and some of them just HCG
and just coming off the drugs and waiting long enough.
But it begs the question,
would they have been there had they not used the drugs
until then?
Is that just what is representative of where they decline
too naturally or is it like a permanently lower ceiling
potential because you've inhibited organ function
for so long?
You can't really say for certain.
Do we have data on people who have been on antibiotics steroids for five years or greater
and the ability to forget spermatogenesis, just regain endogenous testosterone production?
Yeah, it's sparse, but it exists. The data are sparse or the frequency of people who do it is sparse.
There's almost no literature on it.
I believe there's a study that shows the recovery capacity and there are people who recover
function.
It's just relatively arduous if you don't know what you're doing too when it comes to post-cycle
therapy because you might have clearance of hormones and go to a crashed hypo-ganatal level
that you're dealing with until you hopefully kick in, get out of tropons and hopefully respond to those well
and hopefully restore production to a level
that provides symptom relief.
And that process isn't instant.
Like get the bleed these hormones of your system
if you're using long acting compounds too,
which most people are.
So, the requires a lot of thought around bridging
into your recovery and how you go about doing that.
People have to be implementing. as the androgens clear.
They be implementing each.
Well, you'd hopefully be on HGG to begin with to preserve testicular function.
Are these guys taking HGG the entire time they're on these other drugs to just
maintain some testicular volume?
Now it is.
It's becoming more understood that it's probably important.
But back in the day and even me, I didn't do it, because
I was just told it doesn't matter, you will just recover fine when you want to, when
you want to come off.
I think more people are becoming aware, though, that stimulating activity in the lady's
cells is of reasonable importance almost certainly to retain and ease your transition
back into recovery while you're on drugs.
So at their lowest time throughout a year, they'd be on how much testosterone.
They'd be only on testosterone and they would be on...
Yeah, some people, they think that they're cleaning out by taking a month off,
but in reality, it's like the drugs of almost some of them work their way out of their system by then,
but they've been on, and grams of stuff that's achieved steady state,
and you're just clearing 80% of it or something, their system by then, but they've been on and grams of stuff that's achieved steady state
and you're just clearing 80% of it or something.
And then you've never actually gotten out of your system
and recovered function, which could take months.
So oftentimes they have either residual
and origins in their system for the time they're trying
to clear or most of them are staying on a base of TRT
to bridge between blast phases, which are
like your high exposure points. So those bridges though of TRT to bridge between blast phases, which are like your high exposure points.
So those bridges, though, of TRT, typically it's not actual TRT.
It's like fitness industry TRT where everyone's dose is 200 minimum.
They cycle up during contests, obviously, professional bodybuilding is not tested.
So the understanding is you're going to take anything and everything as often as you want. Do they take a more middle of the road set of compounds as they're bulking up and then move to the more pure
anabolic less water retention as they're leaning out or there just must be so much nuance to this.
In general, in an off season when your goal is protein accretion, building muscle, they are using it as they still use
a ton of stuff, but they will use less when they are preparing for a contest. And the thought is
when I am trying to diet down aggressively, when I'm in a calorie deficit, I need more
health and animal. Even though it's like what threshold is it to preserve tissue at the end of
the day, typically a fraction of what they're using, but to build muscle, they will typically be using a
base of testosterone plus one or two antibiotic agents in general.
It's going to be a premable one and an androloin or something.
And how many total milligrams?
Because they're about one to one to one, right?
No, it depends on the person, how sensitive they are to estrogen.
Because there's also interaction with,
for example, DHT derivatives,
they also compete for aromatase, seemingly.
I've seen people on the same dose of testosterone
with and without a synthetic DHT derivative
have significantly lower estrogen
without an aromatase inhibitor.
So they're actually lowering their estrogen input through competing for aromatase inhibitor. So they're actually lowering their estrogen input
through competing for aromatase
simply by using a synthetic anabolic on top.
So it's like get the modulate that accordingly too.
So it's like oftentimes if you're a very estrogen-prone
individual or you get gynecomastia easily,
the male breast tissue development,
these are things you are concerned of
when you are pushing your dosages to levels
that your body cannot regulate on its own to prevent tissue formation.
At TRT levels, most people will have no issues with gynecomastia development
if they have a good protocol in place and they're not obese or whatever,
but at super physiological doses of tests, not necessarily the case,
but you might be able to modulate that activity down
by actually competing for a romatase with your premable
and or your draw stand alone.
And then you get to the progestins,
like Nandrolohn, which seem to have like a additive effect
because progesterone receptor agendism seems to be a stimulation.
It actually provides a stimulative input
on breast tissue development too.
Like there's other things besides estrogen that stimulate breast tissue.
So you have GH also, an IGF-1 stimulate breast tissue development.
Estrogen, progesterone, prolactin.
These are all things you have to consider when you're using which drugs.
How do these guys navigate this?
Not well, typically.
Even at the pro level, they just take random shit, Oven.
I mean, when you look at the guys on the Mr. Olympia stage, responding well does not equate
to health often.
There's multiple ways of skin and cat, and you can still gain similar amounts of muscle
with all these compounds in general, but the way you arrive there just might be more
side effect burdensome or problematic in film the blank area.
How many of these guys require surgery for gynecomanastia?
Most they proactively do it to make sure they don't have to.
One of the things that's brutal is guys who choose their drug protocol based on how
gyno prone they are to those drugs.
So I've seen people use abusive dosages
of aromatase inhibitor serms
just to tolerate the androgen inputs,
some of the drugs that are substrates for aromatase.
So it's like, to use the drugs I need to gain the muscle,
I'm gonna get gyno development,
which I can't have on stage
because it looks cosmetically not pleasing
and I'll get marked down for it.
So I'm gonna use aggressive Novodex
and aromatase inhibitors while I'm using the Androgens to prevent
Gino.
So I can gain the muscle without the estrogen, but it's like you can just imagine the Androgenic
signaling plus no estrogen.
It's like a horrible constellation of negative problematic factors.
Just seems like such a complicated regimen.
I'm really surprised there aren't more health consequences of this. We see early deaths all the time in the bodybuilding world,
granted we see early deaths in all places, but these individuals are at least, you can say,
lean, they're typically following meticulous diets and training regimens. So at that point,
it's kind of just body weight and drug exposure, because their sleep is usually dialed to,
at least as much as it can be relative to their related side effects.
But yeah, when people say where are the bodies and surprise we don't see more deaths,
I think it just hasn't been as documented as it should be.
There are a lot of people that you will never hear about because they're not a big name
in the industry that had heart failure at 27 or something.
Let's talk word about how you measure this stuff.
So if you're taking testosterone,
you can check testosterone. But which of these other compounds show up on a testosterone
check? Many of them through immunosatesting. So if you use, for example, testosterone
plus andandralone, it is derived from testosterone. And often you will see a cross detection. So
you might have an elevated testosterone level through a standard amino acid that is not reflective
of your testosterone doses you're using.
And similarly, we see things like estrogen metabolites
that are synthetic, artificially inflating your estridial
on ECLA as well.
And there are certainly a group of supplements
that seem to aggravate this problem,
although it's not been clear to me which ones,
aggravate which the artificial reading
of enzyme-based testing of estradiol.
Yeah, yeah, there's certain things
that you shouldn't take before a blood test,
even like Piotin.
Yes, Piotin being a good name.
There's some basic stuff that really messes up readings.
In general, if you're not getting liquid chromatography with tandem mass spectrometry,
it's like the highest sensitivity of testing you can get for total testosterone.
And free testosterone, this is something I haven't revisited in a while, but I recall equilibrium
dialysis with the gold standard. And if you don't use those, you will end up with cross detection.
I've seen on Immuno assay for total test
and the calculation for free tests,
number showing that I'm in the reference range
for testosterone when I did Nandralone monotherapy,
which for you, if you stayed on that decka,
almost for sure, your test would have ended up in the gutter,
after dial in the gutter, and you would have just had anandralone,
there's an andralone test,
so you should have just had a hypogenadil looking
to testosterone profile in astradial.
But if you've got the cheap entry-level amino-acetesting,
it probably would have been,
oh look at that, my test isn't arranged
till I'm not suppressed on anandralone,
I guess 100 Migs of Andralone isn't enough.
Isn't it enough? Yeah, yeah.
Yeah, so that's like what some people may conclude.
So it's very nuanced and it's not like you're taught
to look for the stuff.
Often, most people aren't gonna be prescribed this stuff
to be in a mess, so it's a bit less relevant,
but in the bodybuilding world especially,
pretty important, I would say, to know
especially where your estrogen is at,
thinking that you're good,
when you might have a DHT derivative competing
for Romanceys and your E2 on paper looks in range and it's
actually like crashed into single digits, problematic, brain damage, cardiovascular disease, bad,
bone loss.
Let's talk a little bit about clomid and HCG, maybe tel folks how they're used and we can
talk about some of the pluses and minuses of each.
Human Chorionic Genadotropin is presence
in pregnant women's urine, significant quantities,
and often it is pulled out as absurd as that sounds
and purified because it can be used to stimulate
the luteinizing hormone receptor
similarly to what endogenous LH does.
So it looks similar.
Some people say it's a memetic essentially.
I think it's the best way to put it.
Like a mimics the effects of luteinizing hormone in the body.
And this is why it is commonly used in fertility regimens for men, because you can essentially
replicate the LH signal to your testes that may be suboptimal if you have low genetotropin
output or non-existent if you have HBTA suppression from your exogenous testosterone using.
So if you use TRT, you can pretty reasonably expect
that your LH and FSH will go down
to either non-detectable or close to there,
depending on what you're using and the dose.
And replacing that LH, I would say is of pretty high importance
if maintaining fertility is important to you.
So you will experience testicular atrophy if you do not replace the LH somehow, whether
it's through recombinant LH, which is almost never used, or HMG, which is typically not
used either.
The most cheapest, lowest barrier to entry, predictable thing is HCG.
Which still is not that cheap,
if you're using the branded HCG as much more expensive.
As long as you're clamped down on it recently too,
in the compounding world.
And then Clomid, I guess the primary clinical uses
in women for fertility.
For fertility for IVF prep.
And men, it acts, this is how it works in women too,
but it's just like for fertility purposes
in men, it's a selective estrogen receptor modulator.
So we talked about serums earlier, and I mentioned serums and how they use that idea for serums.
It interacts with the estrogen receptor in either a positive or negative way, in that it
could stimulate activity or prevent estrogen from binding to it and interacting and providing
estrogen-related
activity in certain tissues.
And it's selective in the way it does this.
So, Clomid has anti-estrogenic activity in the hypothalamus or tricks your brain into thinking
it's estrogen deprived.
So the response to that is we have low estrogen, so we need to make more testosterone to
aromatize into estrogen.
So, you up-tick your GNRH output to the pituitary,
which will increase LH and FSH, which increases test.
And then you can intervene with that compound
to trick your body to make more tests.
I think that's the best way to put it.
And interestingly, I don't know if you wanna
cut on the rabbit hole and clomophine versus clomid.
Actually, I'm interested in it.
Before we do though, I'll share something.
I've shared before on the podcast, but it's worth repeating because I'm sure nobody heard it.
So we stopped using Clomet with patients about four years ago because we noticed something
which was, first of all, very efficacious, more efficacious than HCG, and easier and cheaper.
So it had everything going for it. It's a pill. We would typically prescribe 50 milligrams
three times a week. Some guys are very sensitive. You have to dial it down to 25 milligrams three times a week. When you said 50 twice a day
I was like, oh my god.
Every
When they say the expression on steroids, like you really understand where this is coming from. So it's oral
It's cheap and it works better than HCG.
So across the board, this was our drug of choice.
But we noticed that almost without exception, I don't think I can think of an
exception. Every guy that was taking this over time would develop an elevated
level of a sterile called Desmosterol.
So what is Desmosterol?
So desmosterol is the penultimate molecule of cholesterol synthesis in one of the two cholesterol
pathways.
So cholesterol has a bifurcated synthetic pathway.
And on one side, the penultimate molecule is called lethosterol.
On the other side, it's desmosterol.
So this level of desmosterall was going very, very high,
like anywhere from five to 25 times higher than baseline.
So staggering increase, not subtle.
The obvious explanation was that Clomid
was inhibiting the enzyme that converts Desmosterall
to cholesterol, that last step.
Now, it did not result in a reduction in cholesterol,
because there's another pathway.
Initially, we didn't really think much of it,
but then one of my colleagues pointed out
that the very first drug that was ever approved
for cholesterol reduction, this is a very random trivia fact.
I think people assume it's bile acid sequesterence,
but it actually wasn't.
It was this drug called triparinal.
So triparinal, which was approved,
I believe in the late 50s or early 60s,
was a drug whose mechanism of action
was indeed blocking that enzyme.
But I guess had a complete block of that enzyme,
and even though you had redundancy on the other pathway, it still resulted in a reduction of total
cholesterol. Back in the 60s, people didn't understand LDL, and therefore they just sort of said,
well, lower cholesterol is better. So here's a drug that lowers cholesterol. This is going to have
a favorable impact on heart disease. So the drug gets improved, but a few years later, it's pulled
off the market because even though people on this drug have lower cholesterol, not enormously, they have a higher
incidence of cardiovascular events. And it's never really clear why, although the best
explanation would be that does most of all is at least as atherogenic, if not more atherogenic
than cholesterol. And if that were the case, you could lower cholesterol and still get more atherosclerosis.
And today, I think that's still a very viable explanation
because for example, we know that phytosterols
are more anthropogenic than cholesterol or zoosterol.
So for that reason, we decided to stop using clomit,
which decided to pivot.
So for that use case, we went over to HCG
and the good news is everybody's does
most are all returned to normal.
End of that story.
Now, it still creates a bit of trouble
because there are still patients who really miss being
on climate and they hate the inconvenience of HCG,
but they're not quite ready to go into testosterone.
But it then brings up this an antimer of clomid
or clomaphine called, and clomaphine. Yeah, and clomid, or clomaphyn called enclonaphyn?
Yeah, enclonaphyn.
Clomid has two stereo isomers, I believe.
Yeah, one is basically a mirror image of it.
Yeah, so it's like zoo clomaphyn,
and enclonaphyn, and enclonaphyn is seemingly
the more selective and actually antagonistic
in the hypothalamus.
So it's kind of like doing the thing you want
from the chlamid, whereas the zoo chlamophine
is like anti-goodenated, like it's providing
almost like a anti-androgenic type activity
in a way that is not as selective as like a pure serum.
So when you think serum, you're thinking
something that antagonizes estrogen receptors
purely in the hypothalamus
But then leaves estrogen activity
Everywhere else bone integrity is maintained cardiovascular, etc
Everything is kind of backfilled accordingly except for right there in your brain where you want your brain tricked into thinking make more testosterone
So end-cholomophine it also has a shorter half-life significantly less. I think it's 10 hours off the top of my head and Zoo Clemaphine is like, days or something.
So the actual ability to maneuver the drug,
like pharmacokinetically, too,
if you have a bad side effect or something,
can't even get off it as easily with Clemaphine
because you have this big chunk of it as Zoo Clemaphine.
So the idea and presumably creation of trying to get FDA approval on end Clemaphine was this is a more pure version of the drug that does what we want.
And there's been at least one study that showed improved outcomes in women who took end-climaphine, but it never made it through FDA approval.
But despite that, it doesn't stop people from prescribing it and people from using it. Yeah, and just to be clear, it is not an FDA-approved drug
and yet compounding pharmacies are illegally making this.
This is not legal.
So I have patients who come to me from other docs on this drug
and they're like, hey, can you pick up the prescription for this?
And I'm like, absolutely not.
It's not a legal compound, just because a compounding pharmacy
is making it.
Now, that said, it is legal in Europe.
Do you know why it didn't get approved?
I don't, and I don't know that it won't get approved either.
My understanding is that it is just not completed a phase three trial.
So, I don't want to represent it's a bad drug.
I don't know.
And I wish I could see more patients on it because I'd love to
measure their Desmastral and see if it's having the same effect. Yeah. Because that would be very
interesting to me. If it's having the efficacy side, which I see that it has without that one side
effect, I'd be interested in revisiting that. But obviously, we can't do that without an FDA
approval. So my understanding is that it's not that the FDA has said no to it,
it's just that the heaven said yes to it, and it's still in the investigational process somewhere,
though it has been approved in Europe. So there are basically docs who are, I don't even think it's
a gray area truthfully, I think it's a black and white area that a non FDA compound that is not
designated grass cannot be prescribed and synthesized by a compound-FDA compound that is not designated graphs cannot be prescribed
and synthesized by a compounding pharmacy.
So I'm not actually sure how this is happening.
Have you seen some of the ads on social media?
You just get hit with V-Shrin ads.
No, and Kloemaphyn ads.
Are there Kloemaphyn ads?
Dude, so many.
I don't want to call it the guy specifically, but there's one prominent one that basically
has a checklist of why
end-challengen-fina superior to testosterone injections.
It's like easy to use.
It's a pill.
It will not suppress you.
And it's like, these are all technically true, but it's obviously a misleading way to
represent it.
And then it's just mass cookie cutter prescriptions of their protocol, which is really just...
Oh, is this this Maximus protocol?
Maximus tribe or some nonsense?
Yeah, yeah.
Get on the King Protocol, bro.
So the King Protocol.
Yeah.
Even representing it and like it's a proprietary thing that you made, it's like, bro,
it's just, it's just in Comethin.
You were just marketing it.
It seems super misleading in a way that is almost scary that they're representing it like
it is superior for all people regardless.
And it's like just because it's a better drug potentially,
and we don't even know that for sure,
it doesn't mean that antagonizing estrogen receptors
is a good thing.
I don't think that's a sustainable treatment protocol
for your entire life probably, I think.
The reality, and it's not as easy to adhere to,
but I would probably assert that stimulating exactly
what you wanna do directly with an HGG
plus recombinant FSHs is superior outcome rather than
perpetually inhibiting estrogen activity.
There's no drug that's purely selective
exactly where you want it is perfect.
And that's the only issue I would also have with it
where I think if you took two individuals
and one of them you put on exogenous testosterone
and one of them you put on clomaphine,
they were identical in every way in terms of readout,
equal testosterone, free testosterone, and estradiol.
I think there's still an argument to be made
that the guy who's getting it from exogenous testosterone has a better outcome because he's not getting the central inhibition of estrogen.
So his libido is better, his mood is better, his sleep is better.
Oh, some of the mood dysregulation on Cllomid wild.
Yeah, I mean, we never saw this stuff, but again, I think we're a very small sample size.
We're not running like a clinic on this stuff, but again, I think we're a very small sample size. We're not running like a clinic on this stuff.
And we're using microdoses compared to where I think people are going.
If you're not asking those questions, you also might not get it.
Even when people report that, these are often people who are on the precipice of
hypogonadism already with very low quality of life as is, presumably to even get on the therapy, going on something
and then noticing a decrease in vitality and notable anti-ethrogenic activity, you are
going from a baseline that is not good to be in with.
So it's like comparing that to the outcome of TRT, I feel like is often a misrepresentation
just for the sake of your maintaining adequate function
or your maintaining the tisticular axis.
At the end of the day,
a thing that I need to maintain in perpetuity
just for the sake of having an LH and FSH
that comes from my batuitary
and so they're just manually doing it,
probably not if it's at the burden of permanently antagonizing
one of the most important receptors in your body, I would say.
Yeah, I think as a general rule, if you start to muck around with receptors in the brain,
you should have a pretty good idea what you're doing.
Let's talk a little bit about fertility.
Let's compare a guy who's on testosterone versus a guy who's on HCG.
If you're on a high enough dose of HCG, you're going to see FSH and LH suppression.
Yeah, this is what I found.
I had dug into this specifically based on that case
that you mentioned.
So what does it mean?
So you've got two guys, one guy's on testosterone,
one guy's on HCG, and they both have a very high testosterone.
They both have completely suppressed LH and FSH.
Obviously, in the case of the guy on high testosterone,
his ladyg cells are doing nothing.
And the guy on the high HCG, his lady cells
are cranking out testosterone.
But in both cases, there's enough testosterone being made
that the pituitary has stopped making LHNFSH.
So what happens to these guys when you stop testosterone?
Let's assume they've both been on their protocol
for several years.
The guy who has sustained organ function is almost certainly going to have a smoother transition
because he has maintained the natural function and output of the organ responsible for
intratidicular testosterone the entire time versus the other guy has literally
deprived the tissue so significantly that it's a fraction of the size.
So trying to compare a guy recovering with testes half the size or less compared to a guy
who has fully functioning testes that have been maintained, that guy just needs to discontinue
and get rid of that feedback inhibition, and he's
likely going to return to natural function within short order, pending his ganada
trippin output from the pituitary satisfactory.
So it's to be determined if that guy is going to have adequate pituitary output given
once other factors, lifestyle, etc.
But probably that guy is going to be okay.
I would say the question then is, why did that guy got an HG to begin with?
Because it's presumably because he had low LH output, so
Maybe if that guy got on with low LH output on H CG
That's probably the main reason he would have he's probably gonna go back to low LH output unless something dramatic has changed in his baseline
lifestyle diet and he's older now with less
lifestyle diet. And he's older now with less to stickular function just as a result of age. So
there's that for sure that is a major factor, but he
at least has more potential to recover to whatever
his baseline was than the other guy in my opinion
who's gonna have a longer more arduous road with.
Okay, you have to have enough.
You have to not only get the testosterone under your system
to stop having negative feedback. Now you have to
get the pituitary output back
hopefully to some satisfactory amount
which if your baseline was low,
because presumably it was if you got on TRT,
why else would you,
unless you had like testicular failure?
And that guy would have never got off test
because that's the only option he has essentially.
That guy is going to have to have enough LH output
to stimulate him back to baseline
Testicle size to match the capacity of the other guy just from a morphologic standpoint
So I would assert that the HCG guy is almost certainly going to be better off than the test guy
Do you think that there's a way around it on the HCG guy if you dose him more frequently like you take the same dose we typically dose HCG twice a week
guy if you dose him more frequently, like you take the same dose, we typically dose HCG twice a week. So kind of starter dose would be like 750 units twice a week or 625,
I think makes the math easier. I think 625 twice a week allows him to go whatever,
eight weeks with a vial or something like that. And then generally we just stop. If you're
not getting an amazing response at 2,000 twice a week, which we would never go above that,
you're wasting your time and you're wasting money.
Curious, by the way,
what doses your bodybuilder is using?
Most aren't using it,
but the ones that are typically,
or even the ones that are using it,
aren't following like a literature recommended dosages.
But at least from what I've seen to maintain
intratusicular testosterone at 100% while suppressed
on exogenous endurgins, I think the dose is about
like 375 IU every other day approximately.
Okay, so not curging the endgases at all.
But this is also assuming you're starting
at full function and you're not trying to get back up
from zero to 100.
So that'll be a bit of a difference on that.
That guy who is on HCG, I would assert probably
have an easier transition for sure.
But we can definitely get into the FSH suppression
and the frequency of administration, that's what you ask.
So if you pin more frequently versus twice a week,
half life of HCG, I believe is 24 to 36 hours off the top of my head.
I have to double check. But if you are going to an everyday schedule, you're probably going
to maintain more stable serum concentration. So you're not going to get as aggressive
spikes in light Excel activation. So you're going to have probably more representative of
natural output of tests. But at the same time, if that level
of test is satisfactory to achieve the hormone levels that your body needs from anandrogen
and you should shut down.
Yeah, then you should shut down.
So the only way you wouldn't is either A, H, C, G, was too low, B, your response to the
H, C, was too low, or C, your dosage frequency was so not ideal that you had little blips of time
that you had deprivation essentially
and your body reacted to it,
which is not an ideal outcome either.
So the frequency thing, I think it's more so,
I would recommend more frequent, probably,
for just stability and side effect profile,
but it's based on the adherence of the patient,
how realistic it's that.
Yeah.
A couple more random things before we wrap up,
we've been going a while and I feel like I'm about halfway
through this stuff I wanted to talk about.
But there was one peptide we didn't talk about,
which is BPC157.
Do you know anything about that peptide?
Yeah, yeah.
One thing I should say before we get off the HCG though,
because you had that specific example of,
if FSH is suppressed, how do you know if the negative feedback
is through the HCG dose, amplitude, et cetera, versus the testosterone that comes from it. I found
a really good study that was. It used HCG at 4,000 IUs in men who had normal guinatal function
and those who were poor, non-responders to HCG. So you can discern from that.
If it's the testosterone of the HCG.
Yeah, but in addition, the people who responded, they use
clomid on after, so this is the interesting thing.
So it's suppressed FSH in the people who responded to the HCG,
but not in the individuals who don't respond.
So from that, you can discern it's not necessarily the LH interaction
and more so the downstream androgen receptor activation
and subsequent to that E2, estrogen receptor activation,
the negative feedback.
So that's pretty elegant.
So that actually tells us that it's not
that you've shut off LH,
it's that you've ramped up testosterone
that is turning the system down.
Yeah, basically, sorry, it's not that HCG
is mimicking too much LH.
Yeah, the LH receptor doesn't tell your brain,
stop making tests, it's the testosterone output.
Yep, yep, yep.
And to confirm, they applied clomid in the responders
to HCG to see if they could attenuate the FSH suppression
and they could.
So in that, you can assert that an estrogen
is obviously a huge negative feedback regulator.
If you can maintain FSH at baseline
with a high 4,000 IU dose of HCG with pushing your total T way up and use the serum concurrently
and prevent FSH suppression, it's like, okay, it's really downstream to the LH activation because
it's literally the testosterone output and the, because you're still maintaining FSH with the same
androgen signal and the LH receptor signal.
So from there, you kind of then need to discern, okay,
one thing I can say from the literature I've seen too
is intratesticular androgenic signaling
seems to be the primary determinant
on spermanogenesis, far and above FSH receptor activation.
So one of the ways you can kind of conversely assess
this too is finasterine, do task ride, reliably kill,
don't kill, but it decreases significantly sperm quality
and count, it's something that is just reliably
decreases all metrics of fertility
from a semen parameters aspect.
So the intratesticular free endergent signaling
seems to be the main
dictating variable on spermatogenesis.
And you can find even in people who have
minimal or no FSH at all, getting them
fertile on HCG only and maintaining it. Now,
there are certain people who don't seem to
respond as well off five off heretic
case inhibitor though, or well still on.
I'm just saying in general,
like people who are on five IR inhibitors,
you're diminishing your possibility of fertility,
almost certainly.
So again, it's not just intratusicular testosterone,
it's also presumably,
and this is how you confirm with the five alpha reductase
inhibitor applied is when DHT goes down,
T goes up 15 to 22%.
There's nothing changing about output of testosterone production other than DHT goes down, T goes up 15 to 22%. There's nothing changing about output of testosterone production
other than DHT goes down when you have a 5 alpha reductase inhibitor. So a fertility
goes down when DHT goes down, it's not just that testosterone is just broad androgenic
signaling. So the more androgenic of environment you have, interestingly, seemingly is the
main dictating variable. When DHT goes down to testosterone,
goes up by how much?
If it's finasteride, about 15%,
and you are inhibiting upwards of at best
if you use a five milligram proscar tablet
for benign prostatocyper pleasure,
you're getting a 70% systemic DHT inhibition,
which pushes your T an estrogen up by 15%.
Which is so interesting because regular tea conversion
to DHT is not that high.
I mean, it's rarely more than 10%.
So it's like you're disproportionately getting
a bump in tea to the inhibition.
Yeah, yeah, and I'm sure this is probably something
that I have to almost write out,
but I'm sure if you get into the modulation
of how much DHT is occupies SHBG,
and then how much free testosterone there is.
Well, that's a free increase in testosterone,
not total testosterone.
No, that's a total.
But DHT also, the activity of it
is going to be inhibited dramatically more proportionally
to test because of it's a fin-D for SHBG is like 5X.
So I'm sure there's something there
if I wrote it out, it would make more sense
than me just trying to think all the way upstream. But in general, the takeaway that I've seen
is having high intratusicular endogenics signaling is the only thing that's mandatory for
spermanogenesis and FSH receptor activation with some level of FSH. You can still maintain
or achieve spermanogenesis with minimal to almost no FSH, you can still maintain or achieve a spermanid genesis with minimal
to almost no FSH.
And in those individuals that still need a push,
they either lack endogenic signaling
or there's too much oxidative stress potentially.
They need to utilize things like ubiquinol,
neck, I don't know, like sometimes supplements
actually make a difference,
quarantine, creatine,
or get off their five-out for a ductase inhibitor
or a myriad of things,
but a little bit of FSH were competent
on top of that base of ensuring you have
adequate interstitial testosterone
can be the differentiating factor on fertility
for a minority of people, but it's not mandatory.
And at the end of the day,
when I hear people talking about,
well, maybe we should get back to,
we should use Clomid instead of HCG
because we're seeing FSH suppression.
I'm like, I'm thinking a little bit of FSH,
it's cost prohibitive, but it's probably
a much better alternative.
Yeah, what's the cost of recombinant FSH?
Depends on the pharmacy, but I heard the other day
there was a pharmacy in Texas that prescribed
1500 IU vials for like a couple hundred bucks, which,
to me, sounds cheap.
I've heard it's extremely cost prohibitive,
and I think it depends if you're getting like gonnall
or if you're getting like, which brand you're getting.
A typical dose would be what?
50 IU every other day.
It depends.
You can go as high as 75 every day if you need to,
but I'm significantly cheaper than growth hormone.
Oh yeah, probably.
I mean, everything is okay.
All right, a word on BPC157, which is a peptide.
Yeah, so body protection compound,
I think is what the acronym stands for, 157.
It's like a peptide that's producing dodgingously
in your gut and it seems to have some like
angiogenic properties that can be useful for certain injuries,
but it's like I've seen some pretty remarkable improvements in like minor, not complete tears,
and certain injuries that are like of lesser. I'm not overly familiar with it to a point that I
could say with any certainty that it's going to be efficacious for filling the blank thing, but it seems to be something that if I had an area
with low blood flow, like a tendon issue or something, that's when I would be looking to something
that's pro angiogenesis, because it's like, I also worry about cancer cell proliferation from
something that's pro-growing blood vessels. So that is a concern with DPC for sure.
And does it need to be injected locally for it to have maximum efficacy?
So let's just assume you tear your rotator cuff.
This was one of the bro myths we were taught back in the days
and injected right into the injury site.
And I now don't believe that to be the case.
It seems at least the last I heard that you don't need to do that.
Do we hold out any semblance for hope that we might get a study that would shed light
on this?
Because how could we ever possibly know the counterfactuals here and how could we possibly disentangle
the single user experience on all these things?
I don't think so.
I think it's something that so many people use at this point.
I imagine you can't patent anything or make any money off of studying it.
You'd probably know better than me off of a pharmaceutical pipeline's work, but I imagine
it's kind of at a point where so many compounding pharmacy sell it.
The problem, I see mainly, I don't really think it's not good to use.
I would probably use it if I had a minor injury to somewhere I needed more blood flow,
but I do think a lot of people use it proactively far too often for something that is directly intertwined with
Increasing I think it's a veg F and is like super correlated with cancer growth
Like to me that would freak me out people who are using it like preventatively a lot of athletes use it as a preventative measure to avoid injury
Or rehabilitation when it's not necessary and I think that's overkill and risky as hell personally.
I think because there are so many other things
I wanna talk about that we should just wrap this up
and hit a part two,
because we haven't talked about any of the stuff
I wanna talk about around nutrition,
around appetite, appetite suppression.
Again, I think we've talked a lot about
how bodybuilders use drugs, and I think for
many people, that's a pretty foreign idea. But bodybuilders also, I think, in a way, through their own
very empirical study, have really figured out the science of how to get lean, and how to do it with
the maximum preservation of muscle. This is something that I think most have dialed. They really do. And that's why I can't imagine a demographic that better
understands how to do that, even if it's not necessarily the healthiest way to live.
But I think we could all take a page out of the book if we're saying, you know, God,
I could stand to be 10 pounds lighter. Wouldn't it be cool if I only lost one to two pounds
of muscle in the process? When you see a guy with 50 pounds more
metabolically active tissue demanding nutrients,
starve himself to 5% body fat and step on stage,
it's like, okay, I can cut my calories by 300
or find some way that is more satiating to hit my,
hit my goals, like it's definitely something to take from that.
Yeah, I want to dive deep into that.
I also think we could spend some time talking about ways that people can
prevent themselves from being fooled by all the charlatans out there.
Because I mean, we've already made jokes about a couple references between
whatever, Maximus tribe and V Shred and all these other clowns out there who,
I don't know, I would say that clearly people
who are well informed will immediately recognize the buffoonery, but these people wouldn't be
as popular as they are.
They wouldn't be making tens, if not hundreds of millions of dollars, if there weren't people
who were falling for what they're talking about.
So probably there's something to talk about as far as like, what are signs that maybe
what this person is telling you might be too good to be true.
Maybe there's a bit of a buyer beware.
Anything else you want to add to around to when we do it, which maybe we can do in the
fall or something?
Often taught in my head, I think the fertility discussion, I think we kind of scratch the
surface on what an ideal protocol might look like and things to be mindful of, banking sperm,
concerns that people might have getting on TRT beforehand, how to vet if you need it,
even like criteria that would be worthwhile to know, because discerning oftentimes people
are told, especially at the clinics, oh, you're told it's these 400, that's low, get on
test.
It's like you might have high AR content and expression.
You don't know that you need more tests
to actually achieve,
I've seen some of the most jack guys I know,
I have 450 total T's and feel fine.
There's a lot of nuance that goes into that too
in knowing, not just identifying content charlatans,
but medical providers,
even your own doctor potentially,
knowing who is looking out for your best interest,
educating yourself at a base level, I think, is almost a necessity nowadays to wade through
the nonsense, so I would love to dive deeper.
Sounds awesome, man.
I look forward to it.
Derek, this was a ton of fun, and I look forward to continuing the discussion.
Awesome.
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