Muscle for Life with Mike Matthews - Should You Train For Hypertrophy or Hyperplasia?
Episode Date: October 4, 2021This podcast is going to cover a technical aspect of muscle building. I’m discussing which is more important for getting bigger and stronger: hypertrophy or hyperplasia? What do those words even mea...n? Well, hypertrophy is when your muscle cells get bigger, and hyperplasia is when the number of muscle cells increases. Scientists aren’t sure whether hyperplasia even happens in humans, but “believers” contend that both hypertrophy and hyperplasia contribute to muscle growth. Thus, according to them, you should train to produce both of these phenomena to gain muscle as quickly as possible. Focusing on hypertrophy or hyperplasia would change how you train, so this topic has practical applications I’m going to break down for you in this podcast. Timestamps: 4:27 - What is hypertrophy? 4:46 - What are the components of muscle? 4:56 - What is myofibrilar hypertrophy? 5:16 - What is muscle hyperplasia? 5:37 - Does hyperplasia happen in humans? 7:16 - Does hyperplasia exist? 8:10 - How do you induce hyperplasia in animals? 9:26 - What does the science say about hyperplasia in humans? 16:56 - How do we cause hypertrophy? 18:28 - Why does training near failure produce hypertrophy? 19:06 - What about hyperplasia and training? 20:12 - Does stretching cause hyperplasia? Mentioned on the Show: Legion VIP One-on-One Coaching: https://buylegion.com/vip
Transcript
Discussion (0)
Oh, hi there, and welcome to another episode of Muscle for Life. I am Mike Matthews. Thank you
for joining me today. And before we tear into today's discussion, take a moment and subscribe
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work. So today's episode is going to be about muscle building, And it's going to be about a technical aspect of muscle
building. It is hypertrophy versus hyperplasia. Which one is more important for getting bigger
and stronger? Now, what the heck do these words mean? Well, it's pretty simple. Hypertrophy occurs
when muscle cells get bigger and hyperplasia occurs when the number of muscle cells
gets bigger. And countless studies show that hypertrophy occurs in humans normally as a
result of resistance training, but hyperplasia is not so cut and dried. Scientists aren't even sure
whether it exists in humans or not, whether it happens. Now, the believers, the true
believers, they contend that hypertrophy and hyperplasia both contribute to muscle growth.
And if you want to get as big as you possibly can, or if you just want to gain muscle as quickly as
you possibly can, you should train to produce both of these phenomena. And if you want to primarily produce
hypertrophy, then you are going to train differently than if you want to primarily
produce hyperplasia. And so this topic is not just merely academically interesting. It also
has practical implications, and I'm going to break it down for you in this podcast.
implications. And I'm going to break it down for you in this podcast. Also, if you like what I'm doing here on the podcast and elsewhere, definitely check out my VIP one-on-one coaching service,
because my team and I have helped people of all ages and all circumstances lose fat,
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service at www.buylegion.com slash VIP. Okay, so let's start this discussion with a reiteration
of the definition of the terms in case you skipped the intro, which is totally
fine. So hypertrophy is the scientific term for an increase in muscle cell size. So hyper means
over or more and trophy means growth. So hypertrophy literally means the growth of muscle cells.
And technically muscle hypertrophy can be achieved by increasing any of the three main
components of muscle tissue. You have water, glycogen, and protein. So if you increase
any of those things, hypertrophy has occurred. And those of us who like to bang weights,
we are normally most interested in increasing the amount of protein in muscle cells, and that's known as
myofibular hypertrophy, as opposed to the fluid components, which is sarcoplasmic hypertrophy.
Although both of those things, though, they do contribute to muscle size. Now, muscle hyperplasia
refers to the formation of new muscle cells, and plasia simply means growth. So by increasing the number of
muscle cells in a muscle, of course, that would increase its size in the same way that just
increasing the size of the existing muscle cells would. And research shows that there's no doubt
about muscle hypertrophy that occurs in humans and that contributes to overall muscle size and
muscle growth, but muscle hyperplasia in humans is dubious. Many people say it does not occur at all
and any increase in muscle size is solely from an increase in the size of the individual muscle
fibers that we already have or muscle hypertrophy. Now, why does this matter? Well, if those people
are wrong, if the muscle hyperplasia naysayers are wrong and the muscle hyperplasia advocates
are right, then if you are not doing certain things to maximize muscle hyperplasia, if you are really just focusing
on hypertrophy, then you are only going to get so far in your journey.
You're only going to get so big and strong.
But if you do a lot of hypertrophy work as well as a lot of hyperplasia work, and if
you combine them in the right ways, the legend goes, then you can break through that
ceiling, that hypertrophy ceiling by adding new muscle cells that you can then make bigger.
Because you can only make a muscle cell so big and the muscle cells that you have are only going
to get so big before they just stop responding to any sort of stimulus by getting
bigger. And at that point then, of course, the only way to continue getting bigger,
again, this is the theory, would be to add new muscle cells. Now, there's no question that
hyperplasia exists. Many studies have confirmed the existence of this phenomenon in different animals. It's been shown
in quails, in chickens, in rabbits, mice, rats, cats, fish. And many people say that, hey, if it
is occurring in all of these different animals, there's a reason to believe that it is also
occurring in humans or that it can occur in humans. Because
while we don't look like any of these animals, we do share a lot of DNA and a lot of physiological
systems in a mouse, for example, works similarly to the counterparts in humans. And so scientists
for some time now have believed that hyperplasia is something worth investigating in humans. And so scientists for some time now have believed that hyperplasia is something worth
investigating in humans. Now, how has hyperplasia been induced in animals? That would be a good
place to start, right? Well, unfortunately, this required some strange and in some cases, pretty cruel and unusual punishments. I mean, protocols to create
hyperplasia, things that you just couldn't do in humans. For example, in one study,
scientists found that they could cause a 294% increase in muscle size due to hyperplasia when
they attached progressively heavier weights to a bird's wing for 28 days in a row, 28 consecutive days.
In another study, researchers found that they could cause hyperplasia in rats by cutting them
open and partially destroying some of their muscle tissue and then letting it heal. In another paper,
scientists found that hyperplasia occurred in salmon as they developed during adolescence,
mysteriously. Interesting. Great
for salmon. And these types of experiments, they make it difficult to draw any firm conclusions
about what actually causes hyperplasia to find a pattern. And of course, it would make it even
harder to try to extrapolate that information to humans. What could cause that in our muscles? And while
there are a handful of studies on muscle hyperplasia in humans, unfortunately, they
contain a lot of methodological issues. So for instance, multiple studies show that bodybuilders
have significantly more total muscle cells than people who don't exercise regularly.
That's an interesting observation that has led some people to suggest that all those years of
heavy weightlifting, high volume weightlifting has caused hyperplasia. That's why they have more
total muscle cells. And that is a fine hypothesis, but there are some problems with
that line of thinking. One, we have no idea how many muscle cells everyone had to begin with
before the studies looked at these jacked people. It's possible, and I would say it's probably
likely, that the bodybuilders in these studies were just born with more muscle cells than the sedentary people.
And that also may help explain why they got into bodybuilding, because they found that they were just uniquely suited to this. really well to training and gain a lot of muscle and strength and gain it a lot faster than the average person, which you would expect, of course, to happen with somebody who comes with more muscle
tissue from the womb. Another issue is these studies did not directly measure or demonstrate
muscle hyperplasia. Instead, they just found a correlation between bigger muscles and more
muscle cells. Of course, then hyperplasia
may or may not have been involved. It may or may not have caused that to occur. And finally,
most other studies have found that bodybuilders and sedentary people have the same number of
muscle cells. And that would indicate that most bodybuilders have bigger muscles through
hypertrophy, through growing their existing muscle cells, not through adding new ones. And then there is the always present elephant in the
room when we are discussing bodybuilding, and that is steroids, vitamin S. Because not only
do steroids allow you to get a lot more hypertrophy out of the muscle cells that you have, research shows that they may, certain drugs may also help you grow new muscle cells.
For example, studies have shown that steroid users consistently have significantly more muscle cells than non-steroid users.
And not just bigger muscle cells, but more muscle cells than non-steroid users, and not just bigger muscle cells, but more
muscle cells. Now, again, these people may have come with more muscle cells to begin with, but
it is an observation that we should note. And that's an observation that might also help explain
why people who have used steroids in the past tend to keep some of their chemically enhanced gains years
after they stopped taking drugs. And to put that another way, what you will often see among long
term and heavier steroid users who got really big and really strong is when they come off the drugs,
they don't stay as big and strong as they were when they were on the drugs, but they stay
bigger and stronger than they were before the drugs. And that has held true in many people
who were advanced trainees before they started taking drugs, meaning they had already gained
most of the muscle and strength genetically available to them before they started taking
drugs. So then they start taking drugs, then they get super jacked. Eventually they come off of the
drugs and their new cruising altitude, to use an apt pun, their new normal is now bigger and
stronger than they ever were before taking drugs in the first place. Now, another study on hyperplasia in humans that is often cited as evidence of its occurrence
looked at people who are not bodybuilders. And in this study, scientists autopsied the left and
right anterior tibialis muscles. So those are the muscles that lie close to your shin bones of seven previously healthy right-handed men with an average age of 23.
And they use this method because everyone uses their body asymmetrically. So about 90% of us
have a right side bias, which causes muscles on each side of the body to develop differently.
And for most people, this results in muscles of their non-dominant leg being larger and
stronger than the muscles of their dominant leg, which I know is counterintuitive, but it's true
nonetheless. And also the lower leg muscles are used in many daily activities. So any differences
in how these muscles develop should be more pronounced in other lesser used muscles like the biceps. And the results of
these biopsies showed that there were 10% more muscle fibers on average in the left muscle than
the right, which researchers believed was best explained by hyperplasia. And that seems plausible
until you realize though, that muscle biopsies can be wonky. For example, one study that used
muscle biopsies to measure fiber type composition found that duplicate biopsies were up to 12%
different from one another. And that was probably due to measurement errors and also muscle fibers.
They don't run from one end of a muscle to the other, which means that you can get very different results if the biopsies are taken at different points along the same muscle.
But regardless, if we were to take this study I just referenced at face value,
if we were to agree with the researcher's best hypothesis, it would suggest that we are only likely to experience a very small
amount of muscle growth after a lot, a couple of decades of continuous training. Again, if we
looked at the data in the study, it would show about 10% growth because of hyperplasia over
about 23 years of constant use. So if hyperplasia does exist, it would appear to take
a very long time to occur and it will not contribute greatly to the size and strength of
our muscles. Now, a notable exception, as I mentioned, may be steroids and I'm not recommending
steroids. In fact, I recommend against steroids. And if you
want to hear my thoughts on that, I have produced a couple of podcast episodes on it over the years.
So if you just search for steroids in whatever app you're using to listen, then you can find
them. And if you'd rather read, head over to legionathletics.com, search for steroids,
and you'll find a couple of articles I've written
over the years that explain why I believe for most people, the risks that come with steroid use
are just too high. They're not outweighed by the benefits. There are exceptions, and I talk about
this, professional athletes, actors, people who make a lot of money with their body, whether it's
through performance or looks. But for most of us who are not a professional athlete or a Hollywood
actor, I don't think it makes sense. So let's shift gears now from the theoretical to the more
practical. Let's talk about hypertrophy. Hypertrophy is straightforward. We know how to trigger hypertrophy. It's resistance training. It's spending the majority of your time in that resistance training with relatively heavy weights. And it's doing 10 to 20 hard sets per major muscle group per week. And a hard set is a set taken close to failure.
It doesn't have to be up to muscle failure, but in your primary exercises, your big compound
exercises, you generally want to have one to two good reps left.
Let's say around two in your first set.
Let's say you're doing four sets in my training.
I like to feel like I have two, maybe even three good reps still in the tank when I end that first
set. And then by the fourth set, that's usually a one to two. Sometimes it's a zero, but it's
usually a one to two good reps left. I am basically never going to absolute failure with a big compound lift. And then with
accessory exercises, which are safer and don't involve as heavy of loads, then I like to have
one to two good reps left in my first set and zero to one good reps left by my final set.
And often I'll go to zero where if I tried to go for another rep,
I will fail. Now, why does that training work? Why does it produce hypertrophy? Well,
it creates enough tension in your muscle fibers to activate specialized proteins in muscle cells.
And then that kicks off a cascade of genetic and hormonal signals that then stimulates the body's muscle building machinery.
It tells the body it's time to make our muscle cells bigger. And a key enzyme involved in this
process is one you've probably heard of, the mammalian target of rapamycin or mTOR, and that
boosts protein synthesis, the synthesis of muscle protein, and there you go. You have hypertrophy.
Now, what about hyperplasia and training? Well, my position is while it may occur in humans,
it's not clear if we can cause it. If it is going to occur, if we can cause it, it is probably just
going to be a side effect of doing what I just described. It's going to be a side effect of proper hypertrophy training,
and it's almost certainly not going to be something that we can boost with special diet
or training techniques. But some people would disagree with me. Some people have and usually
sell diet and training protocols that can cause hyperplasia, they claim, or can greatly increase hyperplasia.
And since the largest increase in muscle fiber number count occurred in animal studies that used
extreme weighted stretching, some fitness gurus claim that you can do the same thing just on a
smaller scale and get very similar results on a smaller scale. No,
it's not going to be 294%, but it could be 29%. Now, what this normally comes down to is stretching
in between sets and using high reps and light weights in an attempt to mimic the protocols
used in some of these animal studies. And while at least one study has shown
that stretching alone can cause muscle growth in humans, but through hypertrophy, not hyperplasia,
and several others have found an association between weighted stretching and an increase in
anabolic hormones in the body, there are no studies that have found stretching or weighted
stretching can cause hyperplasia. And you know,
by my lights, the theory here just doesn't make sense. Let's say you take this advice to heart
and you stretch every day, 20 minutes per day, and you do 20 high rep, low weight sets per day
for a muscle group, and you somehow don't get injured. That is still nowhere close to the
extreme protocols used in some of these
studies. That is nowhere close to, for example, loading that muscle with a weight for 28 days
straight. And so for now, until research comes out that shows that I am wrong and that we can
meaningfully increase hyperplasia without doing anything absurd or obscene, stick to the
time-proven fundamentals of hypertrophy and strength training. I know they're not very sexy,
but they work in every person, every single time. And chances are they are all you need
to get the body you really want.
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