Huberman Lab - GUEST SERIES | Dr. Andy Galpin: Optimal Protocols to Build Strength & Grow Muscles
Episode Date: January 25, 2023In this episode 2 of a 6-part special series, Andy Galpin, PhD, professor of kinesiology at California State University, Fullerton and world expert on exercise science, explains optimal protocols for ...increasing strength and causing hypertrophy (muscle growth), as well as for increasing speed and power. He explains the training principles and underlying mechanisms for reaching these goals. Our conversation covers a breadth of training topics, including selecting the number of repetitions, sets, inter-set and inter-workout rest periods, warm-ups, exercise cadence, breathing, stretching, recovery, training frequency, overcoming plateaus, nutrition, and he gives specific examples of exercises for power, strength, and hypertrophy. For the full show notes, visit hubermanlab.com. Thank you to our sponsors AG1 (Athletic Greens): https://athleticgreens.com/huberman Eight Sleep: https://eightsleep.com/huberman Levels: https://levels.link/huberman InsideTracker: https://www.insidetracker.com/huberman Supplements from Momentous https://www.livemomentous.com/huberman Timestamps (00:00:00) Benefits of Strength & Hypertrophy Training, Aging (00:10:52) Strength & Hypertrophy Training, Aesthetics (00:14:02) Sponsors: Eight Sleep, Levels (00:17:48) Strength vs. Hypertrophy Training: Adaptations (00:22:42) Ligaments, Tendons & Resistance Training (00:28:05) Bone Strength & Resistance Training, Age, Women (00:32:38) Strength Training & Major Adaptations (00:41:32) Sponsor: AG1 (00:42:25) Hypertrophy Training & Major Adaptations; Protein Synthesis (00:45:56) Endurance vs. Strength Training & Cell Signaling, Protein Synthesis (00:52:26) Muscle Hypertrophy, Sarcoplasmic Hypertrophy (00:56:37) Muscle Physiology & Plasticity, Muscle “Memory” (01:04:00) Non-Negotiables & Modifiable Variables of Exercise Training (01:11:51) Sponsor: InsideTracker (01:12:53) Tool: Speed & Power Training, “3 to 5” Approach, Periodization, Planning (01:22:02) Warming Up & Training, Dynamic Movements (01:30:55) Strength vs. Hypertrophy Repetition Cadence, Triphasic Training (01:44:03) Tool: Breathing & Training, Valsalva Technique (01:53:22) Tool: Training Auto-Regulation, Specificity vs. Variation, Prilepin's Chart (02:02:35) Training to Failure, Exercise Selection & Recovery, Standardization (02:13:45) Tool: Power vs. Strength Training & Modifiable Variables; Supersets (02:24:22) Sets & Rest Periods; Stretching (02:28:48) Tools: Power Training & Modifiable Variables; Examples (02:30:16) Tools: Strength Training & Modifiable Variables, Cluster Sets, Dynamic Variable Sets (02:40:44) Power & Strength Training Protocols (02:43:37) Intention, Focus & Exercise (02:47:29) Hypertrophy Training Program, Muscle Growth & Signaling (02:55:12) Tools: Hypertrophy Training & Modifiable Variables; Examples (03:03:02) Balanced Muscle Development & Hypertrophy (03:09:04) Tools: Hypertrophy Training & Modifiable Variables; Splits (03:23:08) “Non-Responders” & Exercise Plateaus, Volume (03:27:06) Hypertrophy, Repetition & Rest Ranges, Muscle Failure, “Chaos Management” (03:37:39) Frequency & Workout Duration, Splits (03:44:52) Training Frequency, Infrequent Training, Intermediate Repetition Ranges (03:55:22) Hypertrophy, Muscle Damage & Recovery (04:01:15) Combining Cardiovascular & Hypertrophy Training, Interference Effect (04:06:22) Hypertrophy Training Protocols (04:12:06) Tool: Neck & Rear Deltoid Exercises, Stabilization & Hypertrophy (04:14:42) Hypertrophy: Reps, Sets & Progression, “Hidden” Stressors, Exercises to Avoid (04:21:09) Deliberate Cold Exposure & Hypertrophy vs. Strength (04:26:41) Nutrition, Timing & Strength/Hypertrophy; Creatine (04:38:04) Zero-Cost Support, YouTube Feedback, Spotify & Apple Reviews, Sponsors, Neural Network Newsletter Title Card Photo Credit: Mike Blabac Disclaimer
Transcript
Discussion (0)
Welcome to the Hubertman Lab guest series where I and an expert guest discuss science and science-based tools for everyday life.
I'm Andrew Hubertman and I'm a professor of neurobiology and ophthalmology at Stanford School of Medicine.
Today marks the second episode in the six episode series with Dr. Andy Galpin, a professor of kinesiology at Cal State University Fullerton
and one of the foremost worlds experts on the science and applications of methods to increase strength hypertrophy and endurance.
Today's episode is all about how to increase strength, speed, and hypertrophy of muscles.
Professor Dr. Andy Galpin, great to be back.
Last episode, you told us about the nine specific adaptations that exercise can induce everything from strength and hypertrophy to endurance, muscular endurance, so on and so forth.
And you gave us this incredible toolkit of fit tests for each of those adaptations so that people can assess them for themselves, and then of course improve on each and every one of them if they choose. By the way, people can access that information simply like going to the first episode in this series with you. And it's all there in time stamped. And I highly recommend
people do that. Today we're talking about strength and hypertrophy. And so right out the
gate, I just want to ask you, why should people think about and train for strength and hypertrophy?
And that question is, of course, directed towards those that are trying to get stronger and
grow bigger muscles.
But I know that many people out there perhaps have not thought about the benefits of strength and hypertrophy training and
how beneficial it can be, not just for people that want to get bigger biceps, etc.
but that have other goals, longevity goals and health goals,
unrelated to what most people associate with hypertrophy.
So what are the benefits of training for strength and hypertrophy for the everyday person,
for the athlete, for the recreational, exercise, and so on?
There's a wonderful saying, I think it was Bill Barramon, the founder, one of the founders
of Nike, and he always said, if you have a body, you're an athlete.
And I think that's very important for people to understand, because one of the major disservices we've done in this field
is convinced people that things like strength training are for athletes or for growing
bigger muscles.
And cardiovascular training are for things like fat loss and heart health.
And that is a tremendous disservice because it puts a lot of unnecessary barriers
and leads to a lot of false assumptions
and then therefore poor actions.
Classic examples of this are people who are resistant
to strength training because they don't want to put on
too much muscle.
People who only perform one type of exercise
because they want say fat loss
or they're in it for long, jevy and health
and they're not worried about being an athlete.
And so right out the gates, we can actually draw back a little bit to what we were our previous
conversation when I walked you through the history of exercise science.
And the reason I did that is to help you understand these are the real roads that you're running
down and you don't even realize it in terms of everyone thinks of strength training and
they immediately default to our principles
to optimize muscle growth.
And that's not the only adaptation
once should be after with strength training.
When we think of endurance training,
we immediately default to things like,
again, cardiovascular health or fat loss
or things like that.
What I really wanna do across this entire series
and conversations is to just break that immediately.
Talk about all the other things
that you can do with your training
and so that people can be comfortable
and confident in doing an optimal training program
for whatever goal they have,
whether that be specific like growing muscle
or non-specific, like just feeling better,
having more energy, being more prepared for life
and longevity.
And so to directly answer your question, I could really, we could do a hundred episodes
on the benefits of exercise.
And we could run all the way from mood and focus, cognitive tasks, to a better immune function,
you'll get less colds, you'll fight them off more effectively, to mortality.
So some of the strongest predictors of how long
and how well you will live are exercised.
However, there are independent benefits
that come from just endurance training
and there are independent benefits that
come from strength training.
And so to just give you one categorically,
the way that you want to think about this
is resistance exercises strength training
is the number one tool to combat neuromuscular aging.
You cannot get that through any other form of exercise besides heavy overload strength
training.
We can walk through in detail what that is, but that is reason number one.
In general, human movement is a function of number one, some sort of neuromuscular activation,
so nerves have to turn on.
The second part is muscles have to contract,
and the third part is those muscles have to move a bone.
All right, if you want to be alive
and you want to live by yourself,
you have to be able to engage in human movement.
If you have any dysfunction in the neuromuscular system there,
then you're not going to be able to do that.
And again, as I mentioned, the only way to preserve that or fight that loss of aging is to
strength strength. So people will tend to hear numbers like you lose about one percent of muscle
size per year after age, about 40. And that's true. However, what they don't realize is you lose
about two to four percent of your strength per year. So the loss of strength is almost double that, the loss of muscle mass with aging.
Muscle power is more like 8 to 10% per year.
And so we can very clearly see the problem you're going to have with aging is not going
to be preservation of muscle.
Although that is incredibly important, it's going to be very specifically preservation
of muscle power and strength. And why that really matters is your ability to, again, stand up and move.
Your ability to catch yourself from a fall, your ability to feel confident doing a movement.
That is a function of muscle power more than it is muscle size. And so functionality is really what
we want to be, right? You want to be able to do whatever you want to be do physically and feel confident in doing
that as you age.
That's going to only be obtained through strength training.
So is it appropriate to say that training for strength and hypertrophy is also a way
to keep your nervous system healthy and young?
Yeah, absolutely.
It is the only exercise route we have for that.
If you look at just basic numbers like motor units,
you're gonna see that older individuals
have like a 30 to 40% reduction in total motor units.
So when you say older, approximately what ages
are you referring to?
Because I know many people out there,
such as myself, are 40 and older,
but I know many of our listeners are in there,
20s, maybe even in their teens.
And I can imagine that people that start doing strength and hypertrophy training younger
will afford themselves an advantage over time, but that everybody should be doing strength
and hypertrophy training for as much of their lifespan as possible.
That's really the message that I'm getting.
So if somebody is, for instance, 45 would that fall into the bin of older?
You're gonna start seeing decrements passed again around that age of 40 or so.
Now there's a lot of genetic variation there and a lot of other things go into that equation like your sleep and your nutrition
But that's a fair number to sort of think about
One actually
Responses it's actually sort of counterintuitive. The wonderful thing about strength training is you don't actually have to start at a young age.
You can actually, in fact, I was reading a paper this morning because of our previous
conversation, it was in over age 90.
So these are folks 90 plus and they saw improvements like 30 to 170 percent in things like muscle
size and hypertrophy over a very short period of time.
I think it was 12 weeks.
So you don't actually have to start.
There are some adaptations that you're going to need for health that you really need to
start in your 20s.
The reason I like to mention that is because if you are listening and you are 50 and you're
like, oh, I haven't been strength training, you're not toast.
You should absolutely start now, but you're going to be able to get to a fantastic spot
very quickly. Similarly though, if you are 20 or 25 and 30 and you aren't lifting, there are
still many reasons why you should do that now. And I'd like to point that out because a lot of
folks would be like, oh my gosh, they said I have to do it when I'm 20 or 25 or you know, I'll
be so discreet. And that's not the case at all. There's really no age limit.
On this, in fact, there's actually interesting data
that just came out showing this reduction in muscle strength.
And I perturb you that I sort of talked about,
is basically ameliorated with a preservation of activity.
In other words, you don't lose these functionalities
because of aging.
You lose these because of a loss of training.
To state that again, you don't lose these because of some innate physiological thing that
happens with genes become less sensitive or you lose functionality.
You pretty much can describe the loss of function of strength and muscle in aging as exclusively
because of a loss of training and nutrition and anabolic resistance and some other things.
So you can do a lot more than you think
when it comes to maintaining high quality muscle and that's really important to point out.
I'm reminded of the words of the great Sherrington, he won the Nobel Prize. Physiologist,
I guess the neuroscientist trying to claim him as a neuroscientist because he worked on the
neurosystem, the physiologist claim as a physiologist. He is 100% of physiologists. I would call him a neuroscientist, maybe we can argue about this later.
We will.
But I think one of the key things that Sherrington pointed out was that, I believe the quote,
was that movement is the final common path.
And what he was referring to was the fact that a significant fraction of the brain itself is devoted to
our ability to move and our ability to engage in resistance type movements and that resistance
type movements and the continuation of movement throughout the lifespan is what keeps the brain
young and healthy and vital.
And there are so much data now to support that, but I'm so grateful that you brought up early
this fact that there's a neuromuscular link. Because I think a lot of people think about musculoskeletal.
They forget that the nervous system is really in charge of the strength of the muscle
constructions and the types of muscle contractions that occur. I'm certain we're going to get into
that in a lot of depth today. You're close there, we're not totally right,
but we're close.
Okay, well, I look forward to being corrected
and to achieving the precision that you're known for
around that discussion.
So, if we are to step back and say,
strength training and hypertrophy training
is critical for people of all ages
for developing and maintaining the neuromuscular system
and for our ability to function in the world.
Yeah.
Not just offset injury, but the ability to pick things up
and move, et cetera.
What are some of the other things
that strengthen hypertrophy training can provide?
I know a lot of people use
strengthen hypertrophy training for changing their aesthetics.
What is your sense about its potency for changing aesthetics
as compared to, say, cardiovascular exercise?
Yeah.
The mantra I always like is the reason you want to exercise
is threefold, right?
You want to look good, feel good, play good.
That's really, that comes from sport, comes from football,
specifically, we always say that.
And what that means really is you want to look good.
People want to look the way they want to look.
Whatever that means to them,
and there are any versions of what you feel
to be aesthetically pleasing, and that's totally irrelevant.
But people want to look the way they want to look.
Number two, you want to be able to feel good.
What's that mean?
You want to be injury free.
You want to have energy throughout the day.
You want to be able to execute anything you want to,
so whether you want to go surf in the morning,
you want to play racquetball, you want to hike,
or you want to do all three of those in one day, you
should have the ability to do that.
And then you want to play good, which means you should be able to execute any, again, activities
that you want to execute, whatever that means.
All right, so backing all up, what's I got to do with your question?
One of the major benefits of strength training is the responses tend to happen extremely fast.
So you can see noticeable changes in muscle size
certainly within a month, absolutely within six weeks.
And so we have this wonderful feedback loop
that sort of tells you, am I doing this incorrectly?
Oh my gosh, yes, I am.
Also, it's very addicting.
The feedback, the response, the physical changes,
whether this is actually 0.2 or 3, look good,
or feel good, play good, or it's even just part one.
You're starting to see that when you compare that to things like fat loss, that journey
tends to be longer.
It's more difficult, it's more reliant upon other factors like nutrition, et cetera.
Strength training is really about like, there's some very minimal nutrition requirements.
Outside of that, it comes out of the training and the feedback
is immediate. That's powerful because if you look across the literature on exercise adherence,
you'll see that that is in fact the number one predictor of effect in this of any training program.
So what that means is if you were to put any variable possible and figure out what is going to
determine whether or not this program works.
This is what we typically call the methods you're meant in the concepts are few.
So the methods of exercise, the methods of strength training, the methods of hypertrophy
training, which we'll talk about, are infinite.
However, there are only a handful of key concepts that you have to achieve in order for that
program to work.
Adherence is one of them, and again, it's often the top one.
So you need to do something, you need to do something
consistently.
When you are getting that feedback and you're seeing results
in your appearance immediately, and you see that
every single day, every time you take off your shirt
or every time you look in the mirror, you see that result.
That tends to drive adherence really powerfully.
So it's important to give people in,
especially people who are not maybe like you and I,
who are like, I'm gonna lift weights
and I'm gonna exercise like no matter what,
the rest of my life, because I just love it.
Not everyone's like that.
And so giving them a little bit of care of success,
and if you can achieve that in, you know,
say, three to four to five weeks already,
it's very powerful to them.
Before we begin, I'd like to emphasize
that this podcast is separate from my teaching
and research roles at Stanford.
It is also separate from Dr. Galpins teaching and research roles at Cal State Fullerton.
It is, however, part of our desire and effort to bring zero cost to consumer information
about science and science-related tools to the general public.
In keeping with that theme, we'd like to thank the sponsors of today's podcast.
Our first sponsor is Momentus.
Momentus makes supplements of the absolute highest quality.
The Hubertman Lab podcast is proud to be partnering
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If you're going to develop a supplementation protocol,
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That's levels.link-slash-huberman. Let's talk about strength and hypertrophy.
If you would, please remind us what strength and hypertrophy are in terms of the specific adaptation
they represent. What I mean by that is when somebody is training for strength, what are they really training for? Obviously,
it means the ability to move more weight, but I know that it includes a number of other
things as well. And when one is training for hypertrophy for the growth of muscle fibers,
what does that represent? Because I think if people understand that, they will far better
understand the methods and protocols that are going to be best for strength and hypertrophy.
At its core, you've basically described it.
When we talk about strength, we're talking about an actual function.
So can you create more force across a muscle or muscle groups or our total movement?
And when we talk about hypertrophy, we're now specifically referring to just an increase
in size.
There's no actual mention of function.
So a muscle can grow larger without actually technically being
stronger for a number of reasons.
However, there is a strong relationship between strength
and hypertrophy.
So a lot of the times in the general public,
in the lay conversations, we sort of lump those two things
in as the same thing.
And so we have to recognize people who are new to training or people even
are a intermittently trained. There is a huge overlap between strength and hypertrophy.
Once you get past that though, they become disentangled. And a good example of it is this.
If you look at these strongest people in the world, this would be people who compete
in the sport of powerlifting. That's a true test of maximal strength. So it is a deadlift, a bench press, and a back squat.
And you're going to do a one repetition max and all three of those.
And so whoever wins is the person who lifted the most amount of weight one time.
That's it.
It's not like world strongest man where it is.
How many reps can you do in a row or your time, right?
It's a true maximal strength test.
And you compare those to, say, bodybuilders.
Now both of those individuals are strong.
And both of those individuals have a lot of muscle.
However, it is extremely clear the power lifters
will be significantly stronger
than the bodybuilders on average, right?
There are individual exceptions,
but we're just talking collective averages.
And the bodybuilders will have more muscle than the other ones.
In addition, whether you look at Olympic weightlifting
or powerlifting or World Strongest Man for that matter,
there are weight classes.
And the reason is, as you go up in weight classes,
you will always see the world records go higher
and higher and higher.
So you can clearly get stronger without adding any muscle.
However, there's a point where you simply have to add more mass
to get a higher number. And that's why we have weight classes
in those sports and in combat sports and lots of other things.
So we have that there's a lot of confusion, right?
Because people think, man, either these are the same thing.
Or if I want to get stronger, I have to get bigger,
which is not the case at all.
Another misnomer here is I can't get stronger
unless I add muscle.
That's not true either, right?
This is similar idea.
So what I'm saying is you have the ability to do whatever you'd like.
If you'd like to get stronger and add muscle, great.
If you add muscle, you're probably going to bring some strength along for the right.
However, if you want to get stronger and you don't want to add muscle for any reason, personal
preference on aesthetics, whether you're in a weight class and you simply can't afford it,
it is quite easy to get stronger and not add much muscle math either. And so,
differentiating these two things is one of them is simply a measure of size. And the other one is a measure of force. And when we
talk about strength, we're really talking about our two unique components.
Component one is what I call the physiology. So what is the ability of the
neuromuscular system? What is the ability of the muscle fibers to contract and
produce force? The other one is what we call mechanics. And mechanics
is simply things like it's Manusha down to how long your femurs are relative to your
tibia or other things like this is biomechanics, this is also technique, this is skill, this is how
smooth you feel, this is, are you firing the right muscle group in the right sequence and order
and all of these things play into strength.
So somebody who maybe has more force capability in their muscle fibers, but their technique
and the movement is worse, may lose in a competition.
Or somebody, again, who's like, if you go into the world of speed and power, especially
you'll hear a lot of people talk about like the rhythm.
And there's this a certain rhythm that has to happen if you want to jump as high as
possible or run as fast as possible. But that's all mechanics at this fundamental
level. So when we look at hypertrophy, it's just still simply about how big the
muscle is. So those are the really the similarities and distinctions between
strength and hypertrophy. When strength improves and when hypertrophy increases,
is there also involvement in the ligaments and tendons?
That is, of course, the ligaments and tendons
are involved in the movements,
but do ligaments and tendons themselves grow
and or get stronger?
This field is really difficult because connective tissue is not vascular.
And so their plasticity is significantly lower than skeletal muscle.
In fact, if you look across all the organs, skeletal muscle is one of, if not the most
plastic, meaning it's the most pliable, the most responsive, the one that's going to adjust.
It's basically, it's paying attention to everything that's being said in the body.
You cannot change blood pressure or pH or macronutrients floating around without muscle knowing
about it.
It is, in fact, this is why we call muscle in organ.
People don't tend to think about this if you were ever on like a jeopardy and they ask
you that question, like, what's the biggest organ system in the body?
People tend to say, the skin.
Muscle is actually the correct answer.
All right, well, I'm gonna cite you when I get it.
You'll probably get wrong in Jeopardy.
You'll probably get wrong in Jeopardy.
I don't have any immediate plans to go on Jeopardy,
but who knows?
Oh, there you go.
Celebrity Jeopardy.
Hedgehoga Man.
Wait, I don't know about the celebrity part,
but Jeopardy would be fun.
Yeah.
But I will say the muscle, and I'll,
if you get a phone call on Jeopardy, I don't know,
I haven't seen that show in a very long time.
Yeah.
Maybe ever.
Then I'll call you, but that makes sense.
Um, so the muscles would be the largest organ system of body.
Yeah. The reason I was saying that is, so muscle is both listening and talking.
It is controlling, uh, the immune system, it's controlling blood glucose regulation.
It is, it is the central depot for amino
acids, which are needed to do things like regulate the immune system, build any new red blood
cells. A lot of this stuff is coming from skeletal muscle. So when we say organ, by the way,
that's actually like a physiological definition. So something that's communicating to either
another organ itself or throughout the system. So it's listening and it's talking.
Connective tissue is not the same way.
And so we do see adaptations with strength training
in connective tissue.
It's just much lower.
It's difficult to measure.
Effectively, what we know now is you're
going to have a combination of adaptations
throughout the connective tissue.
It is beneficial.
This is probably one of the major reasons
that strength training reduces injury risk,
which is very, very important
because people who tend to want to pick up
an exercise routine after, say, 10 years,
the classically shade is like,
I played all these things in high school,
then I went to college, got a job,
now I'm 25 or 35 or whatever,
and you sort of want to jump back into what you did
when you're
20. Well, there's no tissue tolerance left. And what we almost always mean by that is
connective tissue. The tolerance in there is not ready for the load. You're about to
handle. And so you go through some movement and then boom, sprains, tears, you know,
even like the more significant ones are on Achilles' tear, which is going to really
sideline you. So those are some of the problems, and we know strength training
has a large role in injury reduction for stress
and strain and overuse injuries,
and that's specifically coming
for the connective tissue adaptations.
Again, the difficult part here is,
it's very hard to assess.
We actually, when I was a doctoral student,
we played around with patelli-tenin biopsies.
So I actually had one.
This is like a... There's a little piece of your patelli-teninies. So I actually had one. This is like a-
There's a little piece of your patelli tendon missing.
Yeah, because you're your own lap.
So now I've probably had,
I don't know how many hundreds of biopsies
I've performed on people, probably well over a thousand,
certainly well over a thousand.
I've probably had 35 or 40 done on myself.
There's no problem here.
I have no scar tissue.
I have no loss of function.
And I've stuck needles in every leg, like all over myself. There's no problem here. I have no scar tissue. I have no loss of function and I've stuck
needles in every leg like all over myself. Right? Quads, my soleus, gastroc, like all up and out.
Taking tissue out. Yeah. You want the needle. Looks like a pen basically and you, you know,
you're live and you go in and grab a chunk and you pull it out and...
Can I come to your lab and get biopsies? Absolutely. Yeah. You're probably looking under
a microscope, you'll just look like the molecule caffeine. There's a
There's a mutual friend of ours who came down to the debt
He's a big big big gentleman big into lifting very into strength training
And he he went to that experience and he was like, oh my gosh. It was not what he was hoping to get he actually had
unbelievable muscle morphology his fibers were
The diameter of muscle fibers is extremely large.
It's one of the biggest cells by volume in all the biology, skeleton muscle in human.
How large?
I can't help myself.
Millimeters?
Well, so you have length, and then you have width, right?
So lengthwise, it can be extraordinarily long.
You can be the classic examples like your sartorias, which is like the front of your hip to the inside of your kneecap
Theoretically those cells can run the entire length which would be one muscle fiber running that thing
If you've already do a biopsy on you and I and I pull that tissue out
I could actually pull an individual fiber out with tweezers and hold it up and you could see that whole muscle cell
Yeah, I'm definitely not gonna get biopsy
You'd be stunned how big they are anyways Anyways, his was the size of a rhino.
So the diameter of his, now he has a well-documented assistance
in the area of muscle growth, we'll say.
But yeah, those can be large.
So what were we even talking about there?
Well, I was asking about tendons and ligaments
because I'd like to understand the various tissues
in organ systems that adapt when one gets stronger
when muscle tissue grows. And I do want to understand the various tissues and organ systems that adapt when one gets stronger when muscle tissue grows.
And I do want to ask about bone.
And here I'm not referring to bone mineral density.
What I was going to ask is whether or not bone itself can grow and get stronger.
And the reason I'm asking is there's a favorite result of mine.
I have about 3,800 favorite results.
3,000 pet peeves and 3,800 plus favorite results, 3,000 pet peeves and 3800 plus favorite results.
But one of my favorite results is from Eric Kendell's lab at Columbia, Eric won the Nobel
Prize for learning and memory, and his laboratory got really into the effects of exercise on
learning and memory.
And they had this incredible result, which is that load bearing exercise stimulates the
bones to release something called osteocalcin,
excuse me, and then osteocalcin acts as a more or less a hormone travels to the brain and enhances
the memory systems in the brain by enhancing neuron health. That's the basic crux of the studies
that were several of these. And the moment I saw the first of those studies, I thought, well,
here's another reason to do resistance type exercise and not just aerobic exercise.
And then it brings to mind whether or not bones themselves get stronger when we do resistance
training.
I don't know the answer to that.
Yeah, that's very clearly demonstrated.
And we've known that for many decades.
You have a diminishing ability to do so with age
particularly You need to do this in your teens and twenties as we're gonna have the largest ability to enhance
Bumminal density and it's particularly responsive to axial loading now. I'm a muscle guy
I'm not a bone specialist so we would have to consult somebody who can give you more position here
But that's a plan to axial loading. It's it's up and down. It's vertical
Okay, so it's almost like a cylinder putting of cutting weight on the small end of the cylinder,
on both small end of the cylinders. If someone doesn't do this in their 20s or teens, however,
can we assume that some degree of positive change will occur if they do resistance training,
even if it's a small fraction? The answer is yes, it is small. We have worked with a number of women in our
our rapid health program that come in
and they are in their 20s and they're in their 30s
and they have significant bone marrow density problems.
And eight months later, we can see noticeable changes
that are outside of the measurement error
of a dexative.
Positive changes.
Positive changes, correct.
And if you worked with the,
there are many physicians that specialize in this area,
you're going to need a nutrition here.
Strength drain alone is probably not going to get you there,
particularly with women because you have to figure out why.
And there's a lot going on with the physiology
and biochemistry.
So you probably, like almost surely needed
to have some blood chemistry done with that. You have to figure out what's going on menstrual cycle wise in fact like oftentimes what we'll do
For our women very specifically is we use a thing called the rhythm plus a 30-day test
So you can actually do a celebrate test across the entire menstrual cycle and you can take
Samples it's about every other day. So you'll get 15 or 16 samples. And you get a really beautiful picture of what's happening hormonally across the entire menstrual
cycle.
And that's really, really important because typically for women, if you get a single sample or
simple time point, whether it's salivary urine or blood, you can have, well, like, an order
of magnitude difference in any number of metrics because of what phase urine.
This is one of the many reasons why it's been such a
Challenge to do a lot of physiology research with females
some metrics change throughout
The menstrual cycle others don't like strength is a very good example
I can strengthen and I can do a wonder at max test on a woman at any point
I don't have to do that at a certain phase of their menstrual cycle because it's the evidence
I think is pretty clear at this point that I don't have to do that at a certain phase of their menstrual cycle because the evidence I think is pretty clear at this point, that number won't change.
So I have no qualms, including females in any of my studies where strength is an absolute,
is an important dependent variable because I don't have to adjust around menstrual cycle.
Other factors like anything in blood, anything hormone related, you're going to have to automatically
account for it.
So what I would say is those folks should absolutely work with a qualified physician, you're going to have to automatically account for it. So what I would say is,
those folks should absolutely work with a qualified physician and you're going to have to get some
nutrition, supplementation potentially, and then maybe even some other stuff going on,
to make that even more complicated. If you're on any form of birth control or not,
that's going to change the entire equation, especially if it's a hormone-based birth control. So it just gets really, really complicated to answer it, though,
you can see adaptations. They are significantly diminished relative to if you
were started in your teens and 20s, but there is hope you just need to work with
somebody, especially, as in that area. So for both men and women, boys and girls,
what are the major adaptations that occur to underlie improvements in strength?
And if you would, if you could just provide a bullet point list of that, and then we can
dive into each of those in detail, for instance, our nerves getting more efficient at firing,
our bones enjoying adaptations in different bone
connective tissue relationships that that underlies strength. I have to imagine
all these things are happening, but what are the the major changes that are
occurring in those organs and organ systems that reflect someone's ability to
on one day lift you know a hundred pounds and then a week later to lift a
hundred and five pounds. Now I'll try to keep this condense again.
This could be an entire university course.
I will also try to give you a little bit of bones here.
So normally as a muscle guy,
I take all the credit and muscle, turns out,
the nervous system gets a little bit of credit to here.
Thank you.
So as we walk through it just as a big picture,
if we think about again what causes human movement,
basically everything along that chain will improve the strength training. And I'm not really
being using too much hyperbole there. It's quite impressive. So it's going from the nervous system
side of the equation. What has to happen for human movement is a nerve has to send a signal
through a motor unit. Now motor a motor unit comes down and it
integrates multiple muscle fibers.
So if you think about your actual muscle, it's not a thing.
It is a component of many individual muscle fibers.
So you've got millions, if not more.
Think of it like a ponytail.
So we collectively say ponytail, and you think of it
as like one thing.
But really, a ponytail is a combination
of tons of individual hairs.
Okay, muscles the same way. So this motor unit comes in and it integrates a lot of tons of individual hairs, okay. Muscle is the same way.
So this motor unit comes in and it
innervates a lot of different muscle fibers.
Now, every one of the fibers in a motor unit
is generally of the same fiber type.
So fast twitch or slow twitch.
And they are not laid out next to each other in the muscle.
They are spread out across horizontally, vertically,
as well as closer to the bone and further to the surface.
So they're moved throughout the entire way.
And this is what allows you to have smoother contractions and you don't have specificity
and things like that.
So we see improvements from the neuromuscular side like firing rate.
We see synchronization improvements that are coming in.
You also see improvements in things like a Cedal colon release from the presynaptic neuron.
So you're getting it faster.
We see calcium recycling is improved back to there.
So in order for, without walking into too much of the biochemistry, in order for a signal
to go from nerve to muscle, there's a little bit of a gap.
There's a physical space that happens.
And what happens is you release this molecule called the cetylcholine.
This goes into the postynaptic left and then that actually binds to a receptor.
That receptor actually opens up a door that lets sodium in.
That's really what's happening.
So it's not the CO-Cole.
Well, that CO-Cole then sits on that receptor site.
It's broken down, put back in and recycled back up
in the pre-ynaptic nerve site.
The faster you can do that,
the faster you can recycle that signal.
And so almost everything that I describe in that entire system
improves and has been shown to to increase with tranny. So that alone is given to give you
benefits. We haven't even walked into getting from electrical signal now into an action potential
which is going to cause a muscle contraction. So getting from nerve into the muscle, we see
think everything from improvements that we call contractility, nerve into the muscle, we see everything from improvements in what we
call contractility, which means the muscle fiber themselves can produce more force or more
velocity independent of muscle size changes.
So, this is another component when we ask, like, how is that I got stronger without getting
bigger?
Well, in the muscle fiber itself, its ability to contract force increases.
And this, because we have everything
like the sarcoplasic morticulum,
which is the place the stores and releases a calcium,
which is what's needed for this entire cross bridge interaction
from the myosin actin to happen.
I know a lot of, I just lost a lot of people,
but you can go look at some of these images.
The sarcoplasic morticulum gets,
gets activated more, it gets more sensitive.
It is better at releasing calcium,
bringing it back in and doing it again.
The bond between the cross bridge and the myosin actin
gets stronger.
The calcium affinity is the phrase that we use there,
increases.
So we were literally walking through almost
the entire process of sc� and muscle contraction here,
and every step along the way we see improvement.
So that net result is we see, again,
more force production independent of any change in size,
independent of any increase in contract value units.
We didn't add anything to the equation.
We didn't change size.
We did nothing but improve efficiency effectively.
Independent of that, now we can actually start talking
about changing muscle fiber type.
So we can change our fibers from a slow-trich fiber to a fast-twitch fiber.
That alone is going to give you more force production, again, independent of size.
Fast-twitch fibers tend to be larger than slow-trich fibers, but not always, especially in the
presence of endurance training.
So if you do a lot of consistent endurance training, it's very common for us to find
slow-trich fibers that are as similar size, if not larger,
often very often larger than those fast-rich fibers.
If you do a lot of slow fibers.
Big slow, very metabolically effective fiber.
So extremely fatigue resistant.
So it's not a bad thing to call them slow.
It's like we tend to say fast and slow,
and slow has this negative connotation.
But it's quite healthy, like fiber type to have.
Outside of that, now we haven't even gotten into things
like penational angle.
So this is an angle at which your muscle fibers interact
with your bone.
So we tend to think about this as like a muscle fiber
is pulling on a muscle.
Well, some of these are oriented at almost a 90 degree.
So a fiber runs perpendicular into the bone.
And some of them are closer to like a 45 degree, and some of them are closer to like a 45 degree and some of them are closer to almost parallel. And that confers a lot of unique mechanical
benefits. So in one area, it's actually going to increase force production. You go the other
direction increases velocity. And so we have all kinds of changes in the angle at which the muscle
inserts into the bone. Now we're already on the mechanic side of it, right? So we've influenced how effectively it pulls.
And with any of these things, it's always a give and take.
So you're gonna give up, in the case of a nation angle,
you're gonna give up strength,
but you're gonna increase a lot, shortening velocity.
Or if you want to increase the velocity,
you're gonna give up sort of the strength, right?
We haven't gotten to any of the energetics at all.
So we haven't talked about increasing storage
of phosphocreatine, which is the energy system needed to power that muscle
contraction at the fastest possible rate. So we could continue to go as long as
you want here, but hopefully you're getting the point of a little bit of the
adaptations that occur. The reason I want to actually, why I think that stuff is
important to bring it back, maybe for some muscles, I know I took you on a journey
there and you're just like, what the hell just happened?
That matters because again, this is a specific explanation
for how is it possible that I got stronger,
but I didn't get bigger.
And this is also why strength and hypertrophy
are intertwined and heavily overlapped,
but are not necessarily the same thing.
So for example, we can increase muscle size
and actually reduce strength because of what's
called lattice spacing.
So what happens is you have to remember your muscle fibers are these long cylinders and
though the way that they contract requires an optimal space.
And so what happens is you have this molecule called ACPIN and you have this molecule called
MIASIN.
MIASIN sits in the middle and there are six actin that surround each individual myosin
in a three-dimensional circle here.
So you got a myosin in the middle
that has all these globular heads
and they can reach up and grab an actin
and again there's six sort of around them, right?
Well, one of the things that can occur is
if those actin are too close together.
So I'm imagining my hands,
I'm reaching out and doing a giant T, right?
So I'm, horizontal out there.
Well, if my fingertips are the tips of the myosin
and I'm trying to reach up and grab an actin
and I want to pull those actins closer to my face,
well, those actin stack on top of each other
and that's what actually makes your muscles grow up.
Like if I flex my bicep, it actually, you know,
grows up three or four inches.
Because you're stacking these, these sarcomyras are what they're called on top of each other. up like if I flex my bicep, it actually grows up three or four inches.
Because you're stacking these sarcomy or something what they're called on top of each
other.
All right, great.
Well, if I'm reaching out to grab them and the muscle is stretched too far, I can't actually
make that strong of a connection.
It would be like if I reached out and grabbed something but I can only reach my longest
fingertip on it.
When I go to contract, I can't make that strong of a contraction because my grip is weak.
My grip is going to break before I reach my strength limit. If I'm too close, there's nowhere to go.
I'm already as close. So if you actually disrupt that lattice spacing too much, you can actually lose
a little bit of strength. So it's not that getting bigger will ever make you weaker. It's simply that
you're not optimizing for strength. You're simply optimizing for size.
And so that can explain a little bit of the disconturity
between growing and performance.
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What are a few of the major changes that occur
in muscle, nerve, et cetera,
when we experience hypertrophy?
I've heard of protein synthesis changes.
I'm assuming that's true.
Maybe you can tell us a bit more about that.
Changes in blood flow.
Yep. Perhaps changes in blood flow. Yep.
Perhaps changes in neural innovation. Who knows? Maybe even changes in fascia. Yeah. I'm not aware of any specifically, but I have to imagine that they're somehow involved.
Sure. So when we talk about hyperchavia, a lot of the adaptations are going to be similar,
because the mode of training is close enough.
So your nerves probably aren't smart enough to differentiate between a set of five reps
or a set of eight repetitions.
They're smart enough to differentiate anything, like they know everything that's going
on, but it's going to be huge overlap.
The primary difference with hypertrophy is a couple of things.
So if you think about the muscle microstructure, I have a whole series
of videos on YouTube. If you want to see the visuals behind this. In fact, in there, I
include the specific diameter size of muscle fibers that I was failed to give you a few minutes
ago. We will provide an active link to this.
Right. So what happens is this, when we talk about, and you hear this classic buzz phrase of muscle
protein synthesis, generally what we're talking about there is
is contractile units. And so when we say contractile units we're talking about the myosinine actin.
And so what we're really trying to do is say, okay, there's some amount of protein turnover where
we're coming in and we're trying to add more proteins to the equation. And so what has to happen
there is the series of steps. So step number one is there has to be some sort of signal from the external world.
This could actually oftentimes it's things
like stretching of the cell wall,
which is what happens with exercise, right?
So you're contracting a shortening
and get this big stretch of the cell wall.
It can come from as simple things like an amino acid
in fusion.
This is just eating protein.
This is why protein and gestion alone is anabolic, right?
It will help you grow muscle independent of even moving.
So just eating protein will grow your muscles.
Yeah, certainly.
And those that those data are very clear.
Of course, like anything, there's a saturation point.
In terms of total amount you need to get to
and things like that.
But yeah, if you were to walk into a laboratory
fasted overnight and I gave you 30 grams of protein,
we would see a very measurable increase in protein synthesis.
Quite clearly, for several hours,
probably four to five plus hours,
we could maybe bring us to people
that would know those data better, but many hours later.
With no weight training.
Correct.
I am betting that most people are not aware of that fact.
You know what's actually interesting about it is,
if you do the exact same study again,
and you just did strength training,
you would also see an improvement in protein synthesis, right?
But those factors are independent,
and the mechanisms are independent,
such that if you do them both together,
they stack on top of each other,
which is really wonderful.
And if you were to add carbohydrate into that mix,
now you're actually adding fuel
for the entire muscle protein synthesis process,
and now you're gonna see even added benefits.
And this is why for so many years, this is what bore the whole like post-sector size antibiotic window thing, which is like you
got to get carbs and protein in post-sector size to maximize muscle hypertrophy. Now that turned
out to be like not totally true in terms of being not your window. Well, the window does not be as strict
as people initially asserted as I recall. But still, I think that's super interesting.
These are parallel pathways for protein synthesis, simply eating protein or training each
independently increases protein synthesis.
I can't help but ask, is the same true if one doesn't endurance type exercise?
If I go out for a 45 minute jog where I can nasal breathe the whole time,
but if I were to go any faster out, I have to kick over into mouth breathing as well.
So I'll call it the zone two-ish cardio.
Will I see an increase in protein synthesis as simply as a consequence of that jog?
Now, this is one of the unique factors of strength training.
You're not going to see that.
In fact, you would, it's difficult to measure protein breakdown.
That's been as extraordinarily challenging to do in laboratory, but you're not going to see that. In fact, you would, it's difficult to measure protein break down. That's been as extraordinarily challenging to do in the laboratory, but you're not going
to see those benefits.
In fact, you're going to see quite the opposite.
It's an entire molecular cascade.
So this is kind of how it works.
So you have to have some sort of signal on the outside.
And this can be an energetic signal.
So this could be glucose uptake, it could be protein intake, it could be a physical
stretch. What happens is on the cell wall, there's some sort of, it could be testosterone,
right? testosterone could bind to beta adrenergic receptors. And this activates the whole series
of cascades of signaling proteins. And these proteins basically play a game of telephone.
So one tells the next one, this is the next one, and they sort of walk this entire way.
Well that molecular cascade is fundamentally the same thing, regardless of the insult, but they're different pathways.
And so the pathway from strength training or protein ingestion is going to go to the
same nucleus. It's going to activate a whole set of gene cascades that are going to tell
you to to go through this entire process of protein synthesis, which I'll walk through
with that is in a second. If you do endurance training, it's a different pathway. And so
instead of activating this entire thing of like am MTOR and AKT and this is anabolic
signaling cascade, it's going to do a different one, which you can think of more of like as
AMPK and energy signaling things.
So there's a crossover point here.
In fact, one of the things you'll notice is MTOR and AKT don't really influence AMPK,
but there is some literature that years ago
showed AMPK will activate another protein called TSC2, and that will actually inhibit MTOR.
And that was the first molecular explanation for the, quote-unquote, interference effect
of endurance training on hypertrophy.
Could you just say, a highlight for people what this is, because as you describe these signaling
pathways, I just want to, maybe just put a top contour explanation, the M-tore pathway is synonymous with cell growth.
Both during development as organisms, humans included mature and cells get larger, M-tores
abundant in the system, just to put it quite simply.
And then the AMPK pathway and some of the metabolic signaling that you're referring to is
more synonymous with cardiovascular exercise in this at least in the context of this discussion
and fuel utilization.
Yeah.
And what you described as a crossover point where certain forms of exercise can tap into
both of these.
Yeah.
But at least for sake of this conversation, we're largely separating them.
Yeah, because the byproduct is the thing that matters here.
So the result of MTOR and AKT getting into the nucleus is going to be increased in protein
synthesis.
The result of AMPK running down to the mind is going to be result in increasing mitochondrial
biogenesis.
So the net outcome is different. Now, I do want to flag it very quickly.
This is an extraordinarily complicated thing.
And in fact, in our laboratory, we were
able to be one of the first that figured out how
to measure all the different subunits of AMPK and individual
muscles by fiber type.
So we were ripping people's muscles out of their knees
and their patellar tendons, just teasing.
They're gently removing
with under IRB protocol, of course.
So even when we say something like AMPK,
it's not one thing.
Aim when we say things like MTOR, it's not one thing either.
You have the total amount that matters,
you have the activation, the activation sites
or many of them.
So it's not as simple as what I'm laying it on.
I just want to get a big concept of kind of what's happening
here to actually kind of answer your question, which is,
OK, so how is the muscle actually growing?
What you have to understand is a little bit of how protein
synthesis occurs.
So what I'm generally meaning is you have a whole bunch
of amino acids, and this actually goes back to
maybe like middle school biology class, right?
So if you take a bunch of amino acids
and you combine them together,
we get these things called a peptide, right?
And if anyone is ever heard of like peptides,
that's all it really means.
You put a bunch of those together, you have a poly peptide.
You put a bunch of those together
and we now have a protein.
So any protein I want to make
is going to go through the exact same system, exact same steps. It doesn't matter if that protein is
going to be a red blood cell, it doesn't matter if that's going to be a hair follicle, it doesn't
matter if it's going to be skeletal muscle, that's basically protein synthesis. So when we tend to
think of protein synthesis, we we just paint this picture of growing more muscle. And that's not the
only thing. And so when we talk about the benefits of growing more muscle. And that's not the only thing.
And so when we talk about the benefits of having high quality muscle as being this place
that's going to regulate most of your protein synthesis, we tend to lose some people because
they're thinking, oh, I don't need to gain muscle.
And that's not what we're talking about.
We're talking about regulating the immune system or regulating, we're talking about regulating
any protein turnover.
So any protein that's degradated or needs to be broken down
in your system, at all, autophagy.
This is the, like, this is such an important buzz word.
That's just protein breakdown of an unneeded,
or a damaged protein, right?
That whole thing is going to go through protein synthesis
to be able to come back and replace the things.
The only reason you go through autophagy,
so you can clean that carburet,
and then come back and build in a more properly functioning protein.
So it's not just about growing more muscle mass, it's why you want these systems to be
operating well.
So the protein ingestion is going to just activate that cascade because it's basically
saying, oh, hey, look, we have an abundance of supply here.
Why don't we make something out of it?
Because we don't know the next time this thing is going to be around.
Carbohydration and fat are very easy to store.
Protein is very challenging.
It's more transient.
And so you can store some of it and keep it around,
but most of it you're going to lose.
And so when it's available, your body
wants to act very quickly.
It doesn't necessarily care if you have extra fat
floating around in your system.
All right, let's back up and store it
we can easily bring this back out.
But if you got protein around, you're going to want to use it.
And so that's why it alone will activate and increase protein synthesis independent
of exercise.
So those effects are additive, like I said, because that signaling process is independent.
And once you hit a rate limiting phase, then you are you are there.
But it's on set.
Those things will work independently.
Okay, so that being said, what is skeletal muscle hypertrophy?
In general, we think about it as this increase in contractile protein.
So those myosin and actin effectively get thicker.
Okay, now what happens is since they are thicker, and as I talked about a second ago,
that influences and actually hurts the lattice spacing.
And so what your body does as a result to say,
hey, let's increase the diameter of the entire cell
so that we can maintain our spacing between these things, right?
It's effectively like if, you know,
the two of us were sitting in this room,
and you doubled in size.
And I was like, well, you're in my personal space.
Like, and I doubled in size.
Now we're in each other space.
At some point, we just have to make the room larger.
And that's exactly what's happening in the size. Now we're in each other's space. At some point we just have to make the room larger. And that's exactly what's happening in the cell. And so as you can continue to increase muscle size,
you're going to get muscle, my father, a creation, you're going to continue to increase muscle fiber size.
For years there was this other comment about non-functional hypertrophy. And this was often called sarcoplasmic hypertrophy.
Now, this is not sarcoplasmic, we're checking them.
This is the fancy way of saying,
my muscle is larger, but it has no function.
And the question would be,
wow, the hell is that possible?
If I have more contractile units,
and I can make more of these cross bridges,
perform more of these power strokes,
this is what these contractions are called.
How could I possibly be losing function?
Well, that was challenged for, that was bro science
for a very, very long time.
And the fact where it really came down to was,
are there different types of hypertrophy training,
some that induce contractile protein hypertrophy,
and some that induce the sarcoposmic hypertrophy?
And that was the significantly challenged.
And tell recently, Mike Roberts did a series of wonderful studies that showed quite
clearly that psychoposmic hypertrophy is probably happening.
In fact, there's probably a pretty easy explanation.
In general, what happens is it is a increase in fluid in the muscle fiber.
This would allow for the dam to be larger, but since there is no addition of contractile
units,
no more force production happens.
And so he actually has a wonderful review paper.
I believe it's open access,
where you can go look and you created a wonderful graph.
I think that's in my hypertrophy videos on YouTube as well.
And you can actually see that it's likely happening
in phasic changes throughout your training experience.
So at the beginning of your training,
but as the years and years, weeks, rather than months, and then eventually years go by in your training experience. So at the beginning of your training, but as the years and year or weeks, rather than
months, and then eventually years go by in your training, we have a change in the hypertrophy
that's coming from contractile units versus sarcoplasic.
So I think that is an important note because, again, people are wondering like, well, how the
hell is it even possible for me to get larger muscle in somehow I'm not stronger?
Well, if it came from simply fluid retention, and this is not bloating, this is not, there's no negative really to
this. It is simply holding of more hydration in the cell, the Amrita's larger, and then
everything works that way.
Well, you just described calls to mind something similar in the nervous system, which is neuroplasticity,
which of course is the nervous system to ability to change your response to learning and experience and damage for that matter.
And we think about it as one term, but there are many different forms of neuroplasticity
discussion that we don't need to get into now, but there's spike timing dependent plasticity
and LTP and long-term depression, which has nothing to do with psychological depression
and on and impaired pulse facilitation and on and on and on and short term elasticity. And so what I'm starting to understand is that there are many paths to what we call strength
increase and there are many paths to what we think of as hypertrophy.
Many of these are going to operate in parallel.
It's going to be rare that any one of them is going to be active alone in order to create
hypertrophy or strength changes.
And that's certain forms of exercise and certain ways of doing exercises in terms of sets
and repetition schemes and rest intervals between sets and between training sessions are
going to tap into different mechanisms, but also overlapping sets of mechanisms, which
is why, if I understand correctly, you mentioned at the beginning, that
often not always, but often, strength increases are associated with some hypertrophy changes.
And hypertrophy increases are often not always associated with strength increases.
Do I have that right?
Correct.
And the beauty of this whole thing is, while we don't yet know the mechanisms specifically,
and there's a lot of confusion and there's a lot of changes that happen
There's a we actually just submitted a paper a few days ago
myself to me bagley at San Francisco and Kevin Merrick at one has a wonderful muscle physiology lab at Arkansas and we we we actually
This is a very lay article actually. It's incredibly easy to read
we describe the the role of my own nucleation in muscle eye surgery.
And this is actually a lot of interesting stuff we can get into there, but we're learning
more and more about it as a quick example.
So skeleton muscle is unique in the fact that it is so large in diameter.
It's also unique in the fact that it's multi-nucleated.
What that means is typically in biology,
you see like, A cell has one nucleus.
That's the place that houses and holds the DNA
and it's the control center.
That was a de-grossering, die repair, that whole thing.
Well, skeletal muscle in human is awesome
because it has thousands if not more of those nuclei,
which gives it that plasticity.
And so a normal cell has one place it has to go to
for any time it wants to up-ulate down regulate do whatever the thing is your
Muscle fibers have these little control centers all throughout them and for years we were like okay great
The amount of hypertrophy that you can experience is probably limited by the amount of nuclei you have because you're not going to exceed a certain size of muscle fiber if that's going to mean you lose control.
And so we're like, okay, great,
we've found and identified a limiting factor
to what will determine how much a muscle can actually grow.
And then the next question was then
where are these things coming from?
And this is where satellite cells came in.
And so it was very clear, a satellite cell
that's lying dormant sort of on the outside
of the periphery of the fiber, will then go into the fiber,
we'll turn into my own nuclei,
and then it can actually increase your diameter like that.
And so then actually it was like,
hey, you're actually limited by the amount of these
satellite cells you can get in and turn into a nuclei.
And then the evidence came out that showed,
hey, what if you detrain?
So what if I used to lift weights like a long time ago
and I got big, but now I've lost a lot of my muscle?
If I train again, you actually get that muscle back faster
than it took you the very first time to build it.
Like that's what we call muscle memory, like an arpeggio.
Now on your side equation, muscle memory is something
different, right?
Well, when people talk about muscle memory,
like the ability to ride a bicycle after so many years
of not having tried to ride one, that's actually
Largely independent of the muscle has something to do with the muscle. It's it's it's basically a nervous system phenomenon
100% muscle memory has been co-opted by different communities to mean different things. Yeah
So on our side muscle memory is going to mean that ability to remember that muscle size,
right, that hypertrophy.
Because as you explained, the motor control thing is a totally a nerve thing.
This is the one, I'll give you this one.
You guys, the nerve people can have this one.
Well, it seems to me that there are a tremendous number of parallels between strength and hypertrophy
changes and neuroplasticity.
This is coming up again and again in this conversation because we know for instance that if you are exposed to a couple of different languages
early on in life, you will learn any number of different languages far more easily later
in life. Of course. That's because there's some crossover between different languages,
especially Latin-based languages that allows for that. There's a substrate for it. It's
similar to the ability to have on a bicycle again, phenomenon or plain instrument, phenomenon, but it's broader than that. And again, I think this
speaks to the huge number of different adaptive changes that are occurring in the cells and in the
herbs that innovate these cells when one experiences increases in strength and hypertrophy.
So to round that out, and to go back to where we're saying there, what
we're actually learning now is that nucleation thing. And by the way, this entire trajectory
story is probably over the last like eight years. Like, this is how fast we've changed
our understanding of how muscle grows. The psychopaths, and we're taking them thing five
years ago, as was bro science. Now it's, it's pretty well established. The malnucleation
thing was eight to ten years ago. It's changing every week.
This paper we just submitted this week showed actually why we had generally thought a few
years ago.
In fact, you can find me on podcasts and probably in some of my videos talking about this.
And I'm going to tell you right now, those things are wrong.
Like we've just had new things come out in these last couple of years where that detraining
effect we thought was a reason of well, what happens is, if you had the muscle before, and you brought in these nuclei,
and they differentiated and turned into a nuclei.
And then the muscle got small again,
you preserve those nuclei.
And that's why when you go to train again,
they were already around, so the muscle grows
faster the second time they did the first time.
Well, now that looks like that's actually not the case.
In fact, it's actually probably happening is,
it's an epigenetic change in the nuclei's ability
to access the DNA needed to grow muscle.
It's effectively the analogy we used,
it's the nuclei are remembering how to ride a bike.
So it's quite funny that you said that
because it's not really necessarily
that they're being preserved over time. They have learned the sequence it takes to grow
the protein there and it goes it happens faster the second time. And we've also learned that there
are specific nuclei. We've known this for actually a while. We found this in our lab. We didn't
discover it. We just we saw this in our summer highverse, but there are different shapes
of the nuclei.
Some are more oval, some are more elongated, and the shape determines the lot of the function.
Some of them are hanging out more towards the periphery, and some of them are hanging
out right around the nucleus.
Well, it looks like there's actually probably different types of nuclei.
A lot of them that are specific to the mitochondria.
In fact, you can see on some of the imaging we have, they're just packed around the
model congeal.
And there are some that are probably specific to injury repair.
And so this is probably explaining a lot of the individual variation.
I mean, I know you've said previously, you're just a very slow at recovery.
There's a lot of things that go into that, and I would love to walk through all the buckets
maybe later into recovery.
But one of the inherent genetic variations is could be simply that you maybe have more
or less of the nuclei responsible for tissue repair.
That's something that's been happening the last handful of months that's been coming out.
We'll see if that holds up as true or not.
So as we're learning more and more almost every day about muscle physiology, what's super
fun and interesting,
and I think the most exciting,
what to do in terms of how to train and how to eat,
and how to do everything else to get these adaptations,
has been pretty well established for a long, long, long time.
We're just figuring out how, like,
what's happening in the muscle now,
but we know what to do.
So from a practical standpoint,
putting together protocols for any outcome that you want, happening in the muscle now, but we know what to do. So from a practical standpoint, putting
together protocols for any outcome that you want or don't want for any modality, you don't
have a gym, you have weights, you have dumbbells only, you only have kettlebells, you don't
want to use body weight. We can only have three days a week, you have seven days a week,
you want to maximize muscle growth, you want to get a little bit stronger
any of these variables you want to throw at me
We have a large evidence base for exactly how to get those adaptations and not others. So
While we have a lot to learn about the mechanisms and the physiology
We have pretty good legs to stand on in terms of what to do to get whatever adaptations you want
So what are the essential components of an effective strength and hypertrophy protocol?
Okay, so what I would like to actually do is is walk you through both of those because as we mentioned before,
they overlap, but the training needs to be differentiated so that you can optimize either strength,
hypertrophy, or if you actually want, you can get a combination of both. This allows you to then
get the adaptation you want, avoid ones you don't want, and then
get even a combination if that's the preference. So, you a lot of people will talk about, I want
to get a little stronger, I want to add some muscle. That's a different answer than someone
who wants to truly maximize muscle, which is a different answer from somebody who's
maximized, wants to maximize strength, which is a different answer from somebody who wants
to maximize strength, but not actually gain muscle. So, we have all these combinations. What's
important to understand before we get into the details is a couple of things.
Number one, we've been teasing this concept so far of the concepts or few, but the methods
are many.
And so I want to hit those concepts right now.
These are, as you say, these are the non-negotiables that have to happen in any training program.
And I'm referring to these in the strength
and hypertrophy conversation.
But these are true of power developments,
be development, most of their endurance,
endurance, any other thing.
These are things that just have to happen
for any training program to work.
I mentioned one a little bit earlier,
which was adherence.
And so my frequent collaborator, Dan Garner,
will constantly say consistency beats intensity.
Again, in fact, the literature will show you very clearly, and herons is a number one
predictor of physical fitness outcomes.
So we want to do something that you will engage in, you will put effort into when you will
be able to repeat consistently over time.
So that's number one.
The second one is, and this is a major reason that people
don't hit their fitness goals. In fact, I would argue outside of not doing it, the number
one mistake they make is progressive overload. So I'm going to walk you through exactly how
much you should be increasing your sets and reps and weights, et cetera, per week, per
month later. But that's the biggest thing. You have got to have some sort of overload.
The body works as an adaptation mechanism, right?
So in fact, we talked previously about the Harvard fatigue lab.
And one of the things actually people don't realize
is the concept of homeostasis is actually
comes from research of the Harvard fatigue lab.
It was a work that they did on an endurance runner.
I forget his name.
And they sort of realized that after a long period of time
working out, this is an acute exercise belt.
The body actually comes back to some stable place,
despite the fact he was continuing to work.
And that's exactly what bore the phrase, steady state.
And that actually then they launched off and said,
wow, there's this state that the body wants to be in,
and we'll call this homeo stasis
So those all concept came out of excess physiology
Which is really really cool, right?
We don't get a lot of love a lot of times scientifically, but that's a good one that we took
So why that all matters is we have got to achieve some sort of overload
without going excess
So we'll cover that later of exactly what to do and we'll potentially get an overtraining
and monitoring and monitoring things like that. But you have to have some sort of consistent
predictable overload. That's what's going to cause adaptation to continue to cause stress. If you
don't do that, you can still do things like burn calories. You can still get some of the other
benefits of exercise like improved mood, cognitive function, et cetera, et cetera. Flexibility increases, all those can happen without a progressive overload.
But if you want to see these games and strength and hypertrophy, you really need to progressive
the overload.
So that's concept number two.
The third one here is going to be individualization.
And this is where we can get into things like personal preference, you know, equipment availability.
You have kettlebells or dumbbells.
You only have bands or you have none of that.
These are all smaller details, but that's an important component to it.
The last one I really want to get into is picking the appropriate target.
And we went through this when we talked about the fitness protocol.
And if you run through something like that and you run some testing and figure out where
your biggest limitations are, that's going to help you identify where you need to go.
If you can do all those things, you're going to be in a good spot to balance specificity
and variation.
If you want to make sure you grow your biceps, you better make sure your biceps are working. Having said that, if you over rely on specificity, you're going to increase the likelihood of
overuse injuries, which is going to come back and actually hamper consistency over time.
All right?
So this is when hedging towards specificity is important, but too much can cause a problem.
If you go the other direction and you go too much variation, so imagine you're just sort of doing all kinds of different
exercises every time you work out. That's actually not enough stimuli directly on the muscle or muscle groups or movement pattern if you're wanting to learn a new movement
to get you very far. And so this is a classic problem of I'm doing a lot of work, but I don't have a very clear direction. I lack specificity.
So I'm working, but I'm not seeing a lot of improvements.
And this is like in the business world, et cetera,
this is like doing a whole bunch of different things
means you get nothing really done.
So that's the game we're gonna play here, right?
How do we overload this stuff?
How do we make sure we're balancing specificity
and variation?
How do we make sure I want to do this?
And then how do I individualize it
from my needs and circumstances
and movement restrictions and of time availability,
and my calendar, and desires, and all these things.
So those are the concepts we absolutely have to hit.
The methods that we choose run across a handful of variables,
and we call these things modifiable variables,
because as you modify them,
or you make different choices within these variables, you get different outcomes or adaptations. This is exactly what determines the nine adaptations
that we've been talking about. So the way that I like to say this is exercises do not determine
adaptation. So you can't simply go, I want to get stronger. Therefore, I'm going to choose these exercises.
That's not how it works.
What determines adaptation is the execution of the exercises.
So deadlift is my favorite example.
A deadlift is a common example that people think of when they want to choose a lower body
strength exercise.
But a deadlift will not increase your strength unless you're executing it in the proper
fashion.
I'm not only talking about technique here, I'm talking about these modifiable variables.
The same thing for power exercises will commonly see mistakes of doing
activities like a box jump, which is great. People think, oh, I'm going to get
improved my power, which we know is extremely highly correlated to
activities of daily living and particularly living
unassisted as you age, right,
is reduction of power.
So they'll do an activity like a box jump.
What they're failing to realize is unless you do it powerfully,
you won't actually increase power.
If you don't move fast, you won't get faster.
So the way that we manipulate these variables is everything
to determining the adaptation you get or again don't get.
So without foundation, I think we can kind of run right into these things and we can start
off with perhaps speed and power.
And what I would like to do is walk you through all those modifiable variables, what to do
with them, and then hit you with as many different methodologies as we really have time for.
And then we'll move on to strength and hypertrophy and kind of round the entire thing out.
And then maybe at the end we can talk some other variables like what happens if I have a training protocol
and I'm halfway through it and I can't finish my workout.
What should I do? Reduce my weight or reduce my duration or things like that.
So there's lots of what if scenarios that we can go through that potentially a lot of people listening
have questions about.
So, sound like a plan?
Sounds like a plan.
I'd like to take a brief break to acknowledge our sponsor
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that's insidetracker.com slash Huberman to get 20% off. So just interrupt briefly and make sure
that I and everybody else have in mind the proper nine adaptations that we've been referring to and
that we're discussed in detail in episode one. I have listed number one skill and technique, number two speed, number three power, which is speed times force,
number four strength, number five hypertrophy, number six muscular endurance, number seven anaerobic capacity, number eight,
maximal aerobic capacity, and number nine,
long duration steady state exercise.
Yep, you nailed it.
Thank you for that.
It was probably important clarification for everybody.
So that being said, let's jump right into speed and power.
Now, I'll do these a little bit simultaneously.
They are different.
If you're a high-performance athlete, you really need to separate these two things.
For most people, though, we can probably think about them as the same thing.
There's not a lot of pure speed training that the general public is interested in.
If you want to actually further break down speed, there are multiple components.
There's acceleration, there's top-end velocity, there's change of direction, or agility, things like that.
So we'll just kind of call all that speed and power for now.
Now at the onset, there's this 3 to 5 concept that we talked about many times where this
is really fairly true for speed, power, or strength.
Now I didn't develop the 3 to 5, it's just an easy way to help you remember
one concept that will run true across all these things. So, 3-5 refers to 3-5 days per week.
Pick 3-5 exercises and you're going to do 3-5 repetitions per set. You'll do 3-5 sets
and you'll rest three to five minutes
between each set. If you do that and you execute any of the exercises you choose
at a high intent and that part is critical. You don't get faster by moving kind of
fast. You can't improve power by moving like, eh, powerfully. You have to be trying
regardless of whether actually moving faster or not. Anytime you're talking about of fast. You can't improve power by moving like, eh, powerfully. You have to be trying,
regardless of whether you're actually moving faster or not, anytime you're talking about
speed or power, you're by definition using sub-maximal weights. So you're going to be able to
lift it. That's not the question. The question is, how fast can you lift that implement? And so
intention is incredibly important. So if you do that, the same for strength, by the way.
So if you land on that, that allows you to run the gamut
from as little as three days a week.
You're doing a three exercises.
You're going to do three sets of three, which
is a very, very low volume.
It's a very low amount of days, easy to handle.
All the way to five sets of five of five exercises,
five days a week.
So it's, again, it's just one sample that's something easy to remember and is quite effective
for a very long time.
And this has been tested quite extensively in both the coaching realms as well as the
scientific realms to be quite productive and easy to follow and grasp.
If you do that, all you need to do is slightly increase the load
or the volume, but mostly the load over time. And the number we want to look for there is something
like a 3 to 5% increase per week. So an example would be if you're going to do an exercise at
a hundred pounds, you can't necessarily just add five pounds every week. That's going to
get you pretty quickly.
And so you may have to run some a smaller increment.
If you're doing like a lower body exercise
where you might have a couple of hundred pounds on the way,
you can probably get away with adding five pounds
because it's still a low percentage of the total load.
So that's roughly the guy that we want to get to
for speed power and strength.
So that sounds incredibly simple and effective.
Yet I have a number of questions.
First off, if somebody is using the three to five approach,
does that mean they should not be doing any other
weight training of any kind in those workouts or at all?
No, you can certainly do that in combination
with anything else you would like, especially
if you think about speed and power.
Those are very non-fetiguing.
And so if you can imagine, you're going to go to the beach and you're going to take a
10 pound to 20 pound medicine ball with you.
And you're going to do four different exercises where you're throwing the medicine ball as high
as you can in the air, four times in a row, taking a break, and you two or three huts that, and you do maybe
three or four different types of throws.
That's very good for improving power, extremely good, but it's not very fatiguing.
So you could certainly finish that workout in 20 minutes and then run on and then do any
number of other things.
So you could do some high intensity anaerobic capacity work, you could do studies,
stuff, you could even do hypertrophy on top of that.
So there's two major categories of what we call periodization.
There's many, many, many of them.
But the two that have the most scientific literature
are what's called linear periodization.
And another is called undulating,
or often daily undulating periodization.
And I'm flagging these two, again,
despite the fact there are many, many, many more
because they represent two different concepts
so you'd actually just touch upon it.
So, linear periodization is a hallmarked by basically saying,
we're going to train one adaptation at a time.
So imagine going say six to eight weeks
and you're only doing strength
or you're only doing hypertrophy
or endurance for that matter.
So in that particular case,
you would not do anything else in combination.
If you contrast that to undulating periodization,
you would actually be doing multiple different styles
of training, either within the same day,
or just different days.
So it could be Monday is power,
Wednesday is strength, Friday is hypertrophy, whatever.
Or it could be a little bit of strength every single day, a little bit of hypertrophy every
day, a little bit of power every day.
And you would just change the amount of each that you do within the day to alter the emphasis.
All right.
Now, if you look at the studies, and there have been many RCTs on this, the result of both
of these training programs is generally basically the same thing.
They are equally effective.
Here's the major difference though.
One, if your goal is very specific to one outcome, you want a head-to-or-specificity.
So if you're like, hey, I'm trying to maximize the amount of muscle I can build in the next
eight weeks, then you don't really anything else besides that
is just distraction and potential interference.
Does it really matter or not, it doesn't matter,
but it's not helping anything else.
So linear periodization is fundamental
at providing focus.
And therefore, the adaptations tend to be
oftentimes larger in that specific area.
That downside is you now go six to eight to 10 weeks
of doing nothing else.
And so you are losing those other adaptations
at a faster rate.
And you can imagine doing something like speed work only.
Again, speed work by definition is non-fetiquing.
So when oftentimes we think of speed work
it's like, oh, I did lateral drills
and I did all these things and like I threw up at the end.
That's not speed work.
You just did a different type of endurance training,
which is great and important.
So true speed work is very high-rest, very low fatigue,
and actually truly trying to reach a new level
of speed or velocity.
So non-fatiguing, if you did that exclusively
for 10 weeks, you would be pretty unfit by the end of it,
because you would also lose a decent amount of muscle mass,
not because there's an interference effect, but simply because of it, because you would also lose all these synomontomusel masks, not because there's an
interference effect, but simply because of the fact you have
not stimulated muscle growth for eight to 10 weeks.
And so neither one of these is better than the other.
We're gonna see this classically across all program design
or periodization strategies.
It's just a given tick.
There are tons of different systems, and perhaps at the end
we can talk about some of the more advanced periodization styles. These ones are both effective. You could do
these with beginners, you could do these with advanced athletes, you could do them any
spectrum, but they're some of the more well documented ones. It's just a pro and con game,
right? It's what are you willing to give up? The way that you solve that problem is going
back to that fitness assessment and your analysis and really, truly understanding
what your goal is, is your goal to do a little bit of strength and a little
but okay, great, maybe undulating periodization is an approach.
If your goal is really to maximize strength and maybe you can wait on
putting some muscle mass on, maybe linear periodization is a better
approach or another style of periodization that's optimal for strength gain. So it's just simply about
addressing your things. One of the major problems folks have in addition to
lacking progressive overload is they don't have any foresight past the next
day of the training. Right. And so it's really important that you set off
blocks that are anywhere between six to 12 weeks long, where you're going to
have the specific plan. Ideally, you're going to have the specific plant.
Ideally, you have an idea for the whole year.
I actually have a structure I could walk you through for that.
But even if you don't have that,
really think about what you want the next 12 weeks
and then maybe the next 12 weeks after that.
And that's going to give you a lot of guidance
about what to do and what to focus on.
Terrific.
What about warming up?
I was taught that one should do higher repetition and what to focus on? Terrific. What about warming up?
I was taught that one should do higher repetition movements
with lighter weights in order to warm up.
And then one of the things that did make
a big positive difference for me
in terms of strength and hypertrophy training
was to do a moderate repetition warmup with a fairly lightweight,
but then to actually keep the number of warm up
repetitions fairly low and work progressively
toward the first so-called work set.
When you say three to five, that's three to five work sets,
correct?
Are you also gonna tell me three to five warm ups?
No.
Are you also gonna tell me it has to be done
between three and five PM?
So in terms of what you're friends in all seriousness, what does a good warm-up look like?
Yeah, and I realize this will vary depending on how cool your training environment is time of day, etc
But as it kind of umbrella for a good warm-up. Okay, what should people do?
The you've already sort of jumped the gun with my answer.
It is honestly very dependent upon the person.
So some folks respond very well to a minimum more.
Others I've had lots of professional fighters I've worked with,
where I actually have a major baseball player right now.
He's one of the best Patriot pictures in the game, probably the best.
And the longer we warm up, the better his numbers get.
We actually did a vertical jump test with him.
He's going to kill me because he got so mad.
I wanted to see how long it sort of took him to reach a peak vertical jump.
And most times, this takes people something like five to ten sort of reps.
And I said, take it up all the way to a maximum of vertical jump.
And then what I want you to do is continue to jumping until you have three consecutive
jumps where you're down lower than 90%. And so what we're trying to look at is
sort of when is he going to break because in baseball, he's going to throw like a hundred
pictures or so. And we're trying to figure out when is his peak velocity on his fastball going to
drop and sort of basis conditioning on that. It's a different style of conditioning. It's power
endurance. It's really what it is. He called me in the middle of it. I'm like, oh, he done whatever.
And he's just like, no, like how many of these
am I supposed to do?
And I was like, what are you talking about?
He's like, I'm on rep 130 or something.
And I was like, what?
And I'm like, what rep did you peak on?
He peaked on rep 70, something like that.
69, I think, technically, because he's goofy.
So he's a class example.
I've worked in for many, many years.
We have a ton of data on him,
a ton of biological data,
a ton of neurolimuscular stuff,
like all kinds of stuff.
And it's just the more he warms up
and absurd amount of warmup, the better he gets.
And the better he gets in power production,
and the better he gets in speed and velocity.
So his warm up prior to games is totally absurd.
And just the more volume we throw at him,
the better he does.
I have other folks.
You get past like two or three reps
and fatigue starts to set in.
And now you're actually like reducing power production.
So there is a ton of variation that goes in that.
I can give you some guidelines though.
You need to differentiate if you're training
for speed power strength or hypertrophy.
Here's what?
If we understand a little bit about
what's causing the adaptation, that's going
to tell you what you need to do or avoid.
For example, volume is the primary driver in hypertrophy.
Intensity is the primary driver in speed power and strength.
What that means is you need to preserve intensity for the first
three.
You need to preserve volume in the second one at most.
So if your warm up is so extensive in the hypertrophy training that it compromises your
training volume because of fatigue, even if it compromises the last set of the last exercise,
then you're actually probably walking yourself backwards by doing that extensive.
You would have been better off starting your first working set, slightly suboptimal, right?
Because it's not really you're just trying to accrue volume at that point. Strength and power is the
opposite. Until you're moving very, very fast or powerfully, you're not really causing
the adaptation. So there's no point starting a working set until you're really basically
at 100%. So the warm-up should be as long as it takes you to get to where your mobility is in the
right spot, like your joints feel good, you feel fresh, you feel activated, and you really
feel peak power.
Anything before that is a warm-up set.
In the sport of Olympic weightlifting, a lot of times the coaches will measure barbell
velocity.
Travis Mash has done a fantastic job with this.
He's got a lot of data on what's called velocity-based training.
Brian Mann at Missouri and Miami, tons of work here.
And generally those communities are not going to count any repetition as a working set until
you exceed 70% of your one-rep max.
Where that's changed because a lot of people doing the velocity-based stuff is now they're
basing that simply on and achieve velocity.
And so really the warm-up is irrelevant. They don't even
it's sort of just like do whatever you want and we're gonna measure the barbell
until you actually hit an outcome and now you're at what a working set. So
different ways to think about it depending on what you're training for that'll
give you a little bit of a guideline. If you're training for anything past
hypertrophy then really and especially even hypertrophy, it just comes down to,
are you feeling ready to work? Are you cold? Are you moving through the correct positions?
And if all those things are fine, I don't care if you start a little bit early and save some gas.
The end of it, especially if you're a person like you who may be a bit more inclined to fatigue
quickly, relative to Trevor who just has no response to
fatigue whatsoever. Is it useful to do more warm up at the beginning of a workout,
say before the first exercise, and then once one has achieved both local and systemic warm-up
in air quotes, then perhaps on the second or third exercise, fourth exercise, et cetera, one or maybe even zero warm-ups.
Yeah, fair point.
We generally think about warm-ups in a couple of ways.
This is a really actually, this is a very clever question.
You wanna have some sort of general global warm-up scheme.
We tend to prefer dynamic warm-ups.
So this is whole body movements rather than like sitting
and stretching, static stretching, things like that. So something that involves momentum?
Yeah, momentum or movement, right? So this is like, think about this in like old gym class.
It's like your high knees and your butt kickers and just different things like that. Where you're
moving in different planes, you're moving joints through tons of range of motion, you're getting a lot of movement there.
So you're getting the local warm up, you're also getting the total systemic activation,
everything else is going on there.
So that is what will be considered to be a general warm up.
Five minutes is a very sufficient number.
Perhaps ten, if you're a slow goer, achy, and some things like that, and you really
got to get the ankle warmed up if you're doing lower bodygoer, achy, and some things like that. And you really gotta get the ankle warmed up
if you're doing lower body stuff,
really make sure that that's moving correctly.
The hips and knees will follow.
Upper body stuff really get the shoulder blades
and then making sure you're going there
and elbows will follow after that.
So five to seven minutes of a general warmup.
A lot of the times like classic exercise science,
it will even just put you on a bike, cycling for five minutes. I don't like that personally. Dynamic movement is
more preferred. If you really just move for five to seven minutes, you'll be fine there.
Now specificity within each movement, it's very important that your first exercise of
the day is generally the thing you prioritize. That's oftentimes the most important you're
going to do for it. It times is also the most complex and
The most moving parts so it tends to be multi joint
Tens therefore you need to have a movement precision and skilled dialed right you don't typically start your workouts off with the forearm curl
Right like that's you don't need a tremendous amount of warm up to get going on that
You're gonna start off with medicine ball throws
or a snatch or some agility work.
You need to have the whole system going
because multiple joints are moving, position, matters,
technique, there's just a lot of skill requirement, et cetera.
So the individualized workout,
or the specific workout for the specific movement,
for that very first one, my general rule of thumb
is like whatever it takes to move perfect in very first one. My general rule of thumb is like whatever it takes
to move perfect in that first exercise. Pass that. You don't necessarily need to do individualized
warm-ups for your next movements unless it is a movement you're trying to learn or just even get
a little bit better at. I drop the load a little bit, work on some accruing some practice reps.
Fantastic. Or it's another dissimilar complex movement.
So let's say your first exercise was a front squat
and you got loaded for that. And now you're going to move into a pull-up,
but your mechanics aren't the best there, and so you really need to change
and do some maybe more specific activation of warm-ups for that,
or something else, or it's running or something totally different.
So yeah, you don't need to re-warm up for every single exercise as you go.
Jelly, once you're good to go, the same muscles that you're going to use in the next exercise
are warm, same joints, then you're good to go.
You talked about intent within the movement.
What about specific cadences for repetitions?
I was taught that one should lower the weight slowly,
the so-called eccentric portion of the movement, and then to try and explode the weight through
the concentric phase, and then also make sure that one is using full range of motion and perfect form as it were. Now of course
that is one tiny slice of the possible rep cadence and ways to approach resistance training.
Although I think it's a pretty good one. What are the general parameter sets that one
needs to consider? You could imagine lifting four seconds concentric,
pause for one, pause for two.
E-centric, I realize there's an infinite number
of variations here.
Yeah.
But is there a way to use repetition cadence
that is as a way to work through weak points
and to be strong in every position of the movement?
Yeah, a lovely question.
I think the way I would like to answer this is maybe going back just a touch to get directly
to that.
So I think if we walk through power, strength and hypertrophy, and I hit you with the concepts
that are specific to each one, that's going to lay out your answer, because the most true
answer there is it depends on the goal.
The answer for what is optimal for strength is diametrically opposed for potentially what's
optimized for hypertrophy. The same exact thing can be said for momentum. So we've classically
heard things like this. You know, don't bounce at the bottom. You're cheating. So if you're doing
a lap pull down or something, you don't bounce and rebound.
You stop at the bottom, slow down.
All of these things are thought to be truisms of strength conditioning, but guess what?
Those are all truisms assuming we're trying to grow muscle.
And that actually goes back to our conversation in episode one about a lot of the things we
think are just fundamental truths about strength training, are just fundamental truths that came from the bodybuilding world.
And they're not wrong, they're good ideas.
But there are other adaptations one needs to get from strength training that are not just
maximizing muscle growth.
So what I will lay out to you is a case for which you should bounce, a case for when you
should go fast, a case for when you should go fast, a case for when you should
be under control. All of these things are different variables we can modify and get different
adaptations for it.
Is there a way that you could lay out for us optimal repetition cadences for strength
specifically versus hypertrophy specifically, just to sort of bookend the conversation and then migrate
toward the middle in terms of replications that would satisfy the desire to have a bit of both.
We can get pretty close. Yeah. So when you're talking about strength versus hypertrophy, remember,
strength is movement. Hypertrophy is muscle size. That's the key to your answer here. So when you're trying to get
stronger, what you're effectively trying to do is get better at producing a certain amount of
force through movement. Now, force is mass times acceleration. So what's the mass in the bar
multiplied by how well I can accelerate it? Intentionally going slower is only reducing acceleration, right? So it's hard
to argue that going slower is going to improve strength because you're simply reducing acceleration.
So you need to practice lifting heavier at a faster rate. Now does that mean if you're
trying to get stronger,
there are no phases of your training in which you will slow down or pause. No, of course,
not. There are certain rules in different organizations where you have to pause the bottom
of a, like, there's, there's all kinds of little things like that. But in general, we want
to think about what are we trying to do here? We're trying to get better at moving a heavier
mass at a faster rate of
acceleration. That is more force, that is more strength. hypertrophy is not
that. The goal here is not a functional outcome. It is what is needed to cause the
most amount of hypertrophy. And when you get to hypertrophy then your optimal
cadence is up to you. You can do any combination. In fact, you could do at the same exact cadence that you did your strength training with
and get the same adaptations as I've heard from you if you modify the other variables appropriately.
Or you could go slower.
Or you could do pauses.
Or you could do a thing that is called triphasic training, where you spend the first phase
several weeks of your training, where you do eccentric only. So you're just lowering the bar and you're basically stopping.
You can then do the next phase of your training, which is isometrics. You're just holding at that
bottom position. And then the next phase of your training, you're focusing on the concentric
portion of it, right? Triphasic one, two, three, eccentric isometric concentric. So that's a fantastic
way of developing actually strength, a little bit of hypertrophy,
but you're manipulating the variables
in terms of how you execute the repetition range.
You can actually induce a lot of hypertrophy
moving the weight fast, as you mentioned,
even downslowing a control.
Now, one thing one will never advocate
is moving any sort of weight or load uncontrolled.
The assumption here when I'm saying go fast
is you're always in control.
I never want you bouncing and crushing your sternum
with a barbell of your toes.
But you can move at a lot of rates.
You can, the isometric I mentioned
because this is when things like body weight training
come into play.
You absolutely you can gain strength
and even a little bit of hypertrophy,
especially in the upper body, doing isometrics.
It's much harder to do this with the lower body.
You just, you outrun that coverage really quickly.
You need load.
But there's a lot of ways.
This is also probably why people have done things like
gone to yoga only, or Pilates, or some of these things
that are body weight based, and there's no external load,
and they've actually increased muscle size.
So I'm getting the picture there are a ton of options
in terms of rep cadence, however,
can we say that one should pick a given rep cadence
within an exercise rather than changing it
from set to set within an exercise
or that one should perhaps even pick
at certain rep cadence for an entire workout?
Suspecting that your answer is going to be, it depends.
Yeah, it is.
But if, you know, I'm not going to use that,
if you had a gun to your head kind of situation,
but if you had a gun to your head,
what would be the rep cadence that you would prescribe
for strictly strength, or as much strength
with as little hypertrophy as possible?
And in picking that rep cadence,
then it therefore has to thread
throughout the entire exercise bout.
So you're actually right.
You can, because of that
underlating periodization stuff I talked about,
you can actually do this in a lot of ways.
So you could do one exercise at the beginning
where you have a set cadence,
say a 3-1-1 is like a very one.
So that's lifting for three,
pause for one, lower for one.
Generally the opposite.
Okay, so the first number is always the eccentric.
Generally.
Okay, so lowering the weight for a count of three, pause for one.
It totally depends on the exercise.
Like a deadlift starts concentric and finishes eccentric, but a bench press starts the
opposite.
Okay, so it starts to finish.
It starts to finish is the better way to think about it. Yeah, so in, I'll clarify, actually.
When we say 3-1-1, we're generally talking about almost always,
the eccentric is this slower portion.
Regardless if it's the first or the last, right?
So whether you're doing a bench press
or the eccentric is lowering the bar to your chest,
that's the first part of the movement.
One, two, three, pause one, one up, which means accelerate as hard as you can the way up. That's the first part of the movement. One, two, three, pause one, one
up, which means accelerate as hard as you can the way up. That's what you describe.
Right. As opposed to say a row, a row, which is actually going to be starting off concentric.
So you're going to be pulling that thing to your chest as fast as you can under control,
not slamming off your chest, holding for one second and then taking three seconds to lower
it back on the rack or on the ground or whatever. So the reason we do that is somewhat intuitive,
but it is again, to make sure you're not advancing a bar
or an implement onto your physical body
at an extremely fast rate.
That's very difficult to deal with.
So a 3-1-1 is a very standard strength.
Protocol that is something you can just run with.
If that's all you ever wanted to do, it'd be absolutely fine.
Lower the bar for account with three.
It actually ends up being approximately three.
It is super.
Partly anybody is counting off.
Some seconds precisely.
I mean, it's, I suppose it's doable, but then pausing briefly.
Yep.
And that brief is almost, that pause is almost unmeasurable.
It is simply, are you under control before you transition from the
center to concentric or concentric? It's just a safety thing. So once you feel down,
you've reached complete range of motion and ready to transition, then just go. You don't
really need to go like thousand one and then go up. It's just making sure, again, we
don't slam weights off of body parts.
And that final one in the 311 is really the execution of the usually concentric portion of
the exercise. Yep, as fast as you possibly can. Okay, so that would be for the
majority of the outcome being strength. Yep. Okay, and of course we should
acknowledge again there are a ton of variations that one could implement
there, but that would be a good starting place on the opposite side side, for somebody who's mainly interested in hypertrophy, what would
be the rep cadence that, if you had a gun to your head, that you would prescribe?
I would probably do the exact same thing, but I would make the last number two.
So three, one, two.
You could also just keep three one on.
It is still very fine. Even exploding on
the concentric is still highly effective for training hybrid trees. So if you
want to keep it super simple and just make rep cadence not a variable that you
play with because you have other ones to move, that's great. If you want to add a
little bit of time to the concentric phase, fine. It's not going to make
enough of a difference
for most people if you really worry about.
I guess that's sort of the point I really want to make.
This is a classic example of we're deep into a method.
If you'd long as you get the concepts I talked about earlier,
whether you want to do 311, 323333,
try phase, this is just a method choice.
It doesn't mean they're irrelevant.
They are subtle changes within them.
It's just 80-20 rule, right?
So 80% of the benefit is gonna be
from the concept, 20% is this small thing.
If you're super into this field,
or you actually wanna work with a qualified certified coach
or something, there's lots of reasons to play with this.
If you're just on your own here and running this thing, 3-1-1 is fine. 3-1-2, totally fine. Anything like that.
You really just want to make sure that in the strength side of the equation, you're under
control and you can add enough load to stimulate strength and not get hurt with an acute trauma.
On the hypertrophy side, you're just wanting to load enough
to where you can hit volume,
because you've got to put a lot on there.
So if you want to go lighter, if you want to go slower, fine.
If you go slower in your repetition,
so maybe even like a five second eccentric,
a two second pause, a three second rise, that's great.
You can actually then stimulate the same amount
of hypertrophy and either do it with
less weight or do it with less repetitions.
So it's a variable you can play with if you're like, hey, I don't have enough weights at my
house.
I only have a kettlebell or a dumbbell.
How am I going to stimulate hypertrophy?
Your only option is really doing more reps.
Well, eventually that train runs pretty shallow.
Okay, here's the thing you can play with. The only option is really doing more reps. Well, eventually that train runs pretty shallow.
Okay, here's the thing you can play with.
Maybe just add time under tension,
this is what we're calling, right?
Just do slower repetitions, go longer ones and hold it.
So it's a variable that we use to individualize programs
rather than something that you should really be focused
on as like a core aspect that's gonna be driving
whether or not your program works.
It's just a tool we can play with in the what if scenarios.
I will use this stuff a lot when I'm traveling.
You can do a tremendous workout in your hotel room,
just doing like a 10 second eccentric,
a 10 second hold, a 10 centric concentric.
Yeah, I've had some decent hotel room workouts.
They're not my preference,
but by simply doing things like 10 second lowering handstand pushup against
the door.
Totally.
Obviously assisted for me, I can't do a free handstand pushup.
I just don't have the skill.
We're with strength or both.
You can do some sort of configured dips between the beds or chairs and this kind of thing.
Real fit elevators, foot squats are great to do
in hotels, put your back foot up on a bed
and get an amazing split squat workout done.
Yeah, a lot of glute bridges, lots of stuff.
You can do that.
Yeah, and with that jump rope,
if you've ever heard someone jumping in the morning,
yeah, may or may not have been me,
it could be any number of things,
but I am known to skip rope in hotel rooms.
Not to get overly detailed, but I think there are going to be a number of people wondering
about how to breathe during repetitions and how to breathe in between sets.
So I'd like to just briefly touch on this and this is something that I know we're going
to return to again when we have our discussion about recovery.
But is there a general rule of thumb for how to breathe during repetitions,
during work for strength, maybe even strength versus hypertrophy in a way that maximizes
oxygen input to the system? It keeps you alert and conscious, but that also protects the body
by creating some rigidity in the system, right? Because certainly being deep with all your exhale, the body is a very different beast in terms of stability than with the body full of air versus, you know, breathing during the repetition movement.
There's a maneuver that is long been labeled the Valsal a technique. So what that really means is you're trying to use air to create intra-abdominal pressure.
And what you're really trying to do
is create a cylinder around your spine.
The real issue you have to play here
is regulation of blood pressure and spinal stability.
Now, you should be able to breathe embrace.
What I mean by that is you should
be able to create total intra-abdominal pressure,
regulate spine control while breathing.
It's just very hard for a lot of people to do.
It's a skill you should absolutely work on.
You can actually do this and you can go around like I do this trick in class and students
can come and push any part of my entire abdomen and I can talk.
It's going to be a little bit labor, you can hear a little bit of a difference, but you
should be able to do that.
If you have to crunch down and you can't even muster a breath and it's going to be a little bit labor, you can hear a little bit of a difference, but you should be able to do that. If you have to like, punch down and you can't even
muster breath, and it takes that to create pressure, you're not actually, you don't really
understand the abdominal control necessary to create that stability. So step number one,
that's the goal. Now, with the blood pressure thing, we have to be careful because a standard
blood pressure, ideally, if we sat around around right now it was probably something like 120 over 80,
stolic versus diastolic, that's a normal number right, high blood pressure is
something over that. Well with an acute bout of exercise you can see that
number reaches high is like 450 over 350, which effectively means you have total
blood occlusion, right? Your blood pressure so high blood is not moving anywhere and
so in the middle of a very heavy set,
especially complex movements,
especially when they're loaded on your body,
this can be an overhead press or squat, variations,
and like that.
Blood pressure is gonna be a problem.
And the reason why that matters
is that's what's gonna make you pass out.
It's not the fact that you ran out of oxygen in three seconds.
It's the fact that blood pressure got so high, you blocked out.
And so we wanna have to play this game
of releasing a little bit of the pressure
so we can actually get blood to move a little bit,
making sure that we don't lose spinal stability
so we can finish our workout.
That's really the question you asked, right?
How do I play this game of,
oh, I have several hundred pounds on my back or my chest,
and I don't wanna exhale, right?
So that I don't lose spinal stability,
but at the same time, I don't wanna to exhale, right? So that I don't lose spinal stability, but at the same time, I don't want to pass out,
which is a problem.
So kind of a couple of rules of thumb.
If you're going to be doing something
in which you can complete the entire exercise
without a breath, and it is of a maximal or close to load,
that's probably your best strategy.
So in that particular case,
you'll see a lot of breathing techniques
where you're gonna take a very large inhale. Ideally, this is done through the abdomen, not the shoulders. So, we shouldn't
see in clavicles rising during this thing. You'll see a common mistake of the bars on
their back and you see people do this like big inhale thing and all they do is elevate
their clavicles. That's not necessarily going to increase pressure through the abdomen,
which is what you're looking for. So, you want to be thinking about belly moving out
in all four areas, in front of you, to
your left and right, and to your back.
That's that quadrant sort of idea of stabilizing your spine.
You can do that independent of your clavicle's moving.
Your shoulders don't need to rise for that.
You don't really need the oxygen for metabolic purposes.
You're just using the air for a brace.
That's really all you're after.
So you're trying to visualize your torso as more or less a cylinder, and you're trying
to fill it with air, the logic being that if I were to push down onto a, say, a full
unopened can of soda, water, for all your sugar foams out there, soda water.
And then push as hard as I could,
it's gonna be hard for me to crush that can,
but if the can were empty,
or if it were a little bit kinked in the middle,
then I could likely crush that can.
Yeah, what you're really doing is,
you have your spinal erectors in the back, right?
And then a whole series of abdominal exercises.
And you actually have some neural control,
systematic control of contracting those.
But you don't have muscles on the inside that you can do.
So you're basically bringing in air and saying, I'll use air to push from the inside out
and I'll use muscles to push from the outside in to create this brace.
And I don't want over compression with the muscles.
This is a, if you see people that have just enormous spinal directors, sometimes that's
an indicator of actually a poor breathing or
bracing strategy, because they're using spinal directors to create all their compression
and not actually using the inside of them.
It's not always the case, but it's sort of like a thing to think about.
So over compression through the spinal directors is not necessarily ideal.
If you want the best scenario is a little bit of a brace of both.
So we use some air to push this side, we use some musketeer to press that way.
And then that spine is just nicely held in position.
Again, not in a position where I've locked on my diaphragm
and I can't get any air out.
I should be able to get that brace pattern
and then be able to speak.
In fact, I'm doing it right now.
And you'll see a little bit of a,
you give your really paying attention to my voice,
you can hear a little bit of a subtle difference,
but I should be able to do this for quite a long time.
Right, like I could take a maximum rep right here
in this position, whether I'm over at pressing,
doing some sort of row, like anything,
and feel very braced in the entire quadrant.
This is very helpful.
I'm going to work on it, but can we say that
an effective way to start off in terms of breathing
during repetitions would be to take a gulp of air during the lowering phase, the eccentric phase,
and then to exhale during the concentric exertion phase? I ask that because that's what I've been
doing for a while, and it makes me feel safe. I don't know if I am, and it allows me to exhale as I exert the
hardest portion of the exercise. And perhaps I also borrowed that from martial arts where one
tends most often is trained to exhale on the strike. Yep. If you're going to be doing, again,
the number of repetitions can be completed without a breath. A lot of times you're better off saving that exhalation until you complete.
Wow, but you don't have to.
But for a reasonably heavy set of hack squats
or even leg extensions and giving that I already can't
leg extension my body weight is established.
And maybe this is why.
The idea of holding my breath for an entire compound set.
So again, I'm glad I'm going you know, like, where is my insurance card?
Who's going to drive me to the hospital?
This kind of thing.
In all seriousness, what if I want to breathe during the set?
Yeah.
So I'll clarify, I'm generally meaning if you're doing like a one rep max or something like
that.
Okay.
Well, that's certain like it holds my breath for a one rep edition maximum. You know, maybe like rep max or something like that. Okay, well, it's certain like it holds my breath for a one rep addition maximum.
You know, maybe like a double or something like that,
depending on what you're doing, like maybe a triple bench press,
you can probably do three and get away with it.
Esquat, it gets harder deadlift.
So it kind of depends on the exercise.
You want to take that breath the prior to the eccentric portion,
not during.
So, free, free then lock or, and now start our movement pattern,
wherever it's going to be. X-hailing on the concentric portion during it is fine. It's no problem,
especially if you're not extremely heavy. And what are your thoughts on grunting and screaming?
Yeah, fine. I don't care. I don't tend to do that. I'm occasionally known to squeal or whimper.
But I do it very personally. But I do it very quietly. I think I'm occasionally known to squeal or whimper. But I do it very, very, very, very, very quietly.
I think of you and I think squeal whimper, absolutely.
Thanks.
If you're going to be doing multiple repetitions,
what we actually do for the NFL Combine
is we teach them a very specific Excel strategy.
So there's one test that they do,
which is they bench press 225 pounds
for as many reps as possible.
A lot of these people will get 25 to 40 repetitions.
So we have a very specific reading pattern.
It would be something like,
if we think that they're gonna do around 25 reps,
say that's like our goal.
We might say, okay, do the first 10 without a breath.
And then exhale, reset and then do five breath,
and then you might do five breath, three breath, two breath,
and then one breath per rep until we can't get any more.
So we'll have very specific strategies for them.
So what I would say is think about how many you're going to complete,
and then breathe according to that, and it tends to increase in frequency as the number gets closer
to failure because you're going to want that, that air a little bit.
But you just want to make sure that when you're breathing back in, you're in a safe spot. So you don't want
to be catching that like, re-breath when the weight's on you. You want to be in a locked
out position or away from you when you're standing. So it tends to be like at the end of the
exercise, not in the middle of it, which is going to be a recipe of problems if you take
your breath then. One of the reasons I'm so happy to have you here having this discussion is we can really get into the weeds
but also hit a number of questions that I hear a lot.
How does one contend with the first attempt at a lift
not working out?
Is it too heavy?
Something goes wrong, hopefully not injury promoting wrong
but something goes wrong.
Do you count that?
Do you reset the workout?
And then the counterpart to that question is, what do you do if it's too easy?
You went wrong because you didn't put enough weight on the bar to pick up a heavy enough set of dumbbells.
Do you abandon the set and replace it with another? I guess this is really a question of how much margin for error is there in volume when
doing this three by five program?
Sure.
Two things that I like to start with.
Number one is, I talked about linear periodization and undulating periodization.
There's actually a new model, a new-ish model called auto-regulation, which basically
says you're going to go in today and depending on any number of biomarkers, performance markers, or your performance,
you will adjust your training based on how you're feeling that day. And so 70% is not maybe, for
example, not necessarily 70% of your one-on-petition max highest ever, is 70% of what you can actually
do that day. And so it actually allows you to auto-regulate your training based on actually what's
happening. And so you don't have to have as much long-term planning in your program design
because it'll sort of figure itself out as you're going.
You can use velocity to determine this auto-regulation.
You can use actually this like taking it up to close to a max with a day
and then basing all your percentages on that daily max or a lot of different ways.
So that is actually one of very effective strategy.
And there's a lot of research coming out of auto-regulation. There's a lot of different ways. So that is actually one of very effective strategy.
And there's a lot of research coming out on auto regulation. There's a lot of different ways to do it. So that's one thing to say. Another thing to say is this, three to five. Okay.
It depends on if we're going for speed, power, or strength because while all those other variables
are the same for three to five, the core difference between whether that is a power workout or a strength workout is the
load, right?
So if you are at a moderate load, say 30% of your one repetition max up to about 70%.
That's going to be a power based adaptation, assuming you're going with high intent.
Can you, sorry, I have to interrupt.
Maybe just clarify what intent is.
Yeah.
You're attempting to move the implement or go through the movement pattern as fast as
you can.
Great.
Thank you.
If you're trying to go for strength and you're below 70%, you're not really going to be
improving strength because the total mass is not heavy enough.
And so really when we say strength, we're assuming you're at least generally 70% or higher.
Now, if you're new to training, totally different thing, right?
But if you're moderately trained to highly trained,
you're gonna be in the way on the worth of 70%.
So anything below that, we don't really count anyways.
That's, those are warm ups, that's basically.
All right, so one thing to actually give you
some very specific numbers here,
and I don't have all of these memorized,
who can perhaps provide a chart later
or send out something to them,
but there's a chart that you can look up
called a prolipin chart.
How do you spell that?
PRIL, I-L-I-P-I-N, prolipin.
And there's actually been a few studies on it.
It's been around for a very long time.
It's sort of in the coaching realm.
Not a handful of studies out in New Zealand came out
verifying and validating a lot of it.
But what it effectively does is, if strength is the goal,
and this comes from the powerlifting, weightlifting,
sort of communities, or optimizing for strength,
then how much time do I need to spend
at each intensity range?
So 70%, 80%, 90%, et cetera, because specificity is going to say this, if you want to get
better in a muscular guy at shooting a basketball, the most important thing you could ever do
is shoot a basketball under the exact circumstances that you're going to do it, right?
Specificity always wins. If you want to get better at strength, the most important thing you're going to do it, right? Specificity always wins.
If you want to get better at strength,
the most important thing you need to do
is that exact movement at that load.
And in this case, if you wanted to get better at bench press,
lifting at 100% of your max on a bench press
is the most specific thing you could ever do.
The more you can do that,
the faster you will increase your bench press max. However, that's very hard to do without getting hurt. It's also not addressing
what I call your defender. So if the reason you can't bench press higher than
whatever you're benching now, it may not be your pure strength. It may be any
number of things like you don't have enough muscle or technique or things. Okay,
great. So specificity over here, variation on the other side.
So we're playing this game we've talked about of how do I make sure that I can have enough
specificity in my training without leading to an overuse injury?
How do I maximize or how do I reduce my chance of injury while getting enough specificity?
And so we have a classic paradigm over here.
One actually training protocol you can look up
is called the Bulgarian method.
And the Bulgarians were amazing
at the sport of Olympic weightlifting.
Probably, in fact, the patriarch of this entire thing
recently passed away, I've been a bit, Iba J.
Yeah, Neum summa monoglu, pocket Heres, one of the greatest weightlifts of all time,
came out of the system, and they do a lot of things.
But one example in the Bulgarian system is you're going to do a one-repetition maximum
snatch.
You're going to take a little bit of a break.
You'll do a one-repetition maximum clean and jerk.
Take a little bit of a break.
Do a one-repetition maximum front squat.
Take a little bit of a break, and you're going to repeat that two to three times a day
every day.
That's specificity, right? Those people get extraordinarily strong. Now they don't do that all year round. They don't do that with all their lifters, but this is when we're trying to peak for a major competition like the Olympics. We are going so far
into specificity and that was very counter to the Russian system at the time, which is much more of our classic
is very counter to the Russian system at the time, which is much more of our classic periodization sort of approach.
Okay, specificity is tremendous, but in doing that, the Bulgarians just brutalize a lot
of athletes, right?
Because it's very difficult to handle something like that, and you can't really do that
that long without getting wrecked.
And they're the goal is to win medals.
The goal is to, it's a totally different thing than longevity out of here, right?
Like we're trying to push the boundaries of...
Or aesthetic changes.
Unless someone has a naturally balanced physique
in general, if people do one sort of movement,
I find that they tend to resemble the equipment
that they did that movement with over time.
Right.
That was a joke against kettlebells.
Of course, of course, of course.
I got it.
So, we know specificity is technically optimal,
but it's not realistic.
Not for that kind of
an extreme situation.
So how do we balance these things?
Well, that turns out this prolip and chart gives you guidelines for how much time, and
by the time I mean how many repetitions to stand in each of these rep ranges so that you
get kind of the best of this world.
You're going to find the same thing, by the way, when we get into endurance training.
There's only so much training you can do at 95% of your heart rate. Before it starts
to become quite detrimental, you need to actually spend a lot of time at those lower intensities.
So the Pilipin chart walks you through how many sets and it gives you a range. I think
that the bottom of it is how much time do you spend at 60 to 70% of your one-route max?
And it says a, you know,
minimum of this set to maximum of this set,
but the ideal number of reps per set per week is like 18.
And it'll walk you through.
And so there's four criteria on it.
I think it's 55 to 65%.
Again, how many reps there?
It's like three to six reps per set.
18 to 30 reps total.
And I think the ideal rep range is like 24, something like that.
So it gives you a 55 to 65, 70 to 80, 80 to 90, and the 90 plus percent.
What you'll see is the 90 plus percent number is more like one to two reps per set for
a total of about seven total repetitions.
If you start cruising past that, other bad things start to creep up in there.
So that's a really effective chart.
What it really highlights though is even somebody who's trying to maximize strength, you're
going to spend something like 35 or so percent of your training time between this like 55
to 65 percent range.
So you're asking her like, well, do I even count that one?
The answer is yeah, you know, in that range if it's below
55 60% you probably don't count it. Now again, some coaches don't count unless it's even about 70 fine
It's not a major distinction, but you're gonna spend the bulk of your time
You know accumulating some some technique basically and skill and tissue tolerance very important
Then next up up is like
28% I think
is sort of the cutoff of how much time
you spend between 70 and 80%
every one of our max and then it jumps
down to like 23% and then all the way
to 70%.
So you can walk yourself through that
and that gives you an extremely good
guideline and you'll notice all of these
are still in the three to five range.
It's just really, you're manipulating it
by total sets or total exercises. So that can give you the three to five range. It's just really, you're manipulating it by total sets,
or total exercises.
So that can give you some instruction to play with.
We will provide a link to the Prilipin chart
in the show note captions.
Training to failure when the goal is strength.
Yeah.
Should one do it, should one avoid it, or does it depend?
Well, yeah, it always depends.
The way that I'll generally say it is,
because of what we just outlined in the Braille Pinchard,
you don't have to go to failure to see strength things,
especially early or even moderate.
And I'm talking maybe five plus years
in your lifting career.
Would you call beginner zero to five years of training,
intermediate five to 20 years of training? Yeah, something like that. And then advance would be people that really put the time and energy into fine tuning their program. The vast majority of people who think their advanced are really what we call it our media.
In all domains of life. It's quite rare to reach that number of your dance. So I actually don't have any problem going to failure quite often.
I'm also finding people who don't want to go all the way there.
You can get most of what you need getting what we call technical failure.
So this is like, okay, that was really challenging.
Boy, you started to have some breakdowns of technique.
We're going to call that good.
The only exception here I want to point out is
people who are either novice or beginners, they really have no concept of what 100% means.
And so I think it's actually very fruitful to take them to 100% just to give them a guideline
of where it's at. Now of course, do this on exercises that they are comfortable with or close,
and maybe this is on a machine, maybe this is a single joint movements or whatever
it takes for them to have confidence.
But I actually don't think you should be scared of these.
They're not really that much more dangerous than anything else.
I mean, think about it.
If you're going to do a front squat or any exercise and you're 1.0 max is 200 pounds. Is it really that much more dangerous
to do one try at 205 pounds
than it is to do five tries at 190 pounds?
Like, is it really that much more?
No, like it's not.
So you can do like we talked about in the first episode,
you can do a repetition max estimate
where you get to like 85 to 95%
and where you think you are.
And then instead of adding load,
you just do as many reps as you can.
Google that number and that'll tell you the conversion
and estimate of what your on-run max is, that's fine.
But also, I have absolutely no issue.
In fact, I generally encourage it to take people up
to that level.
Certainly not day one or anywhere close to that.
But at some point, let's see what you actually got.
I'm just gonna cut it off early.
What I'm gonna consider to be one of it max,
anything more than a minor technical breakdown
is for that crew we're gonna stop and call that good.
And ideally with a spotter, especially bench pressing,
don't bench press alone in your basement kind of thing.
A few people die each year
from bench pressing alone in their basement.
We'll use dumbbells if you're gonna do that.
It's hard to die using dumbbells.
And I suppose you could drop them on your head
or something, but not get stuck under them.
Exercise selection and frequency of exercise
implementation across the week.
So I can imagine what this three by five routine
done three to five times per week. You can imagine changing up the exercises every workout.
Although, considering that most of these 3x5 routines are going to be done with compound movements,
the sooner or later one runs out of movements, if the goal is to hit all the major muscle groups. Yeah. However, let me give an example and ask if it's okay.
To, for instance, do the three by five routine
where one of the exercises for back is a bent over row,
you do that Monday, Wednesday and Friday, okay?
You know, I can imagine one could do that
and still recover and improve over time,
but five days a week, bent over rows five days a week.
Is that okay?
I mean, can one still progress?
And there I could imagine it's a strong answer of depends because some people recover
more slowly.
And others, I'm very comfortable doing hitting muscle groups once directly per week and
once indirectly.
That's worked for me far better than two or three times per week.
You know, I get, you know, looks of sympathy when I say this, but it's actually, it's just
how my physiology works.
Kind of.
Yeah.
Well, and maybe I'm not optimizing a number of different features, but the point being
that some people really do seem to be able to train a muscle every day and still make
progress. Other people seem to have trouble when they train a muscle every day and still make progress. Other people seem
to have trouble when they train a muscle every day. So how does one establish exercise selection
when the goal is to make progress? And this brings up something very important and we're
going to have a whole episode about this, but local versus systemic recovery. That, you
know, is the whole nervous system becoming fatigued
and is the muscle group and the related musculoskeletal systems
becoming fatigued?
We're gonna go back to thinking about
when you make these comments about it takes you three to five days
and you've got better results in there.
The assumption that you're probably running under
is your training style is more reflecting
that recovery time than it is your physiology.
It's not you.
It's how you're training.
So, if you look at, again, all the Olympic weight lifters that are competing, they're
going to be squatting or some variation of squatting every day.
That's going to happen.
Like, a lot of the times you're training multiple times a day.
And they will be doing some basically barbell full squat multiple times a day every day,
six days a week, you know, something like that.
They're the best in the world at getting powerful.
They're tremendously good at getting strong.
You can do it, right?
It comes down to what does your volume look like, what type of movements are you doing,
what rep range, what overall volume are you hitting, and how are you doing it. If you
look at athletes, they train their legs every day. When they're running around,
they're doing speed and agility training every single day. They don't need, you
know, three days to recover. Can you imagine a basketball player trying to ask
for like three days to recover between practice?
Right. Well, to be fair, as you chuckle at me, I'm doing other things on the intervening days.
So, I'll train a muscle group like legs and then I'll give it four days before I do an
indirect, what I call an indirect exercise for legs, which for me would be sprinting,
then it get two days and then I'm training them again.
But then the lesson, athlete has to do that every day.
Right.
Right.
So the answer is you absolutely can train any of these muscles every single day.
It really comes down to volume, right?
And it comes down to movement type and how are you getting it?
So in the case of weightlifters and athletes, what we tend to see happen is there's not
a, there's two things.
There is a long period of conditioning, and I don't mean endurance.
What I mean is tissue tolerance and conditioning.
They're not going to start off their career at that pace.
Their career might start off at five days a week, but maybe every other of those days is
a PVC pipe only.
And you're just training the movement patterns.
You're working on technique, et cetera.
And then eventually maybe after six months or a year, those PVC pipe
days turn into barbell only days. And so now you went from, you know, a pound to 45
pounds. And eventually as your years go on, that that wraps up. So it depends on the
style in general speed and power stuff is so light, it almost required because it's
non-pitying. It requires almost no recovery.
So if you were truly doing say like,
when you say it's funny,
because when you say, I do legs on Mondays,
you don't even realize it,
but an athlete does legs every day, right?
But you're saying legs,
and what you're really saying is,
I do hypertrophy legs Mondays.
Pretty much that I don't wanna get into what I do
specifically because it's less important
than what other people choose to implement
But the repetition ranges anywhere from four to 12 correct
So you're covering it pretty. Yeah, you're smack dead in the peak soreness
Longest recovery rate volume is relatively low intensity the very very high. Yeah, work out to very ratio
So if you were to switch that and you were to stay under four repetitions
Higher quality higher rest in between them So if you were to switch that and you were to stay under four repetitions, higher quality,
higher rest in between them, I would be willing to bet a large amount of money that you'd
be fine the next day, certainly 48 hours.
And if you were to actually go way lower and keep three to five, and keep it very, very
light and trained for speed, you would have absolutely no issue the next day.
So it really comes down to the function of training.
You're right in that hypertrophy zone, which is something that you probably need 48 hours at minimum to recover from. Because
what you won't see are bodybuilders training the same muscle group on multiple days, like
very often. At most, it will be indirect, but generally, they're not going to do that
every single day for the same reason. So you're training in that style. That's what it's
going to take to recover. If you trained in a different style, then it wouldn't take that long to recover.
So for the person starting out, would you recommend they pick three to five exercises and
stick with those so that they can get their skill and movement and positioning and breathing
all that really dialed in and then start to experiment by varying one or two of those
exercises over time.
That's great.
If you look at the conjugate model,
so these are the strongest power lifters
as a collective group that ever existed.
What they're very good at is they keep
almost the exact same weekly structure,
but they make a very small change in exercise variation.
So for example, say Wednesday is bench day, right?
They're going to always bench on Wednesdays,
but maybe this week they're gonna do close grip bench. And then maybe next week it's going to be maybe a
special type of barbell. And then maybe the week after that it's, you know, maybe they'll
change the range of motion a little bit. So it's actually the exact same exercise when they're
making a very small variation. And that change alone allows them to do enough specificity,
but also gives them enough variation where it's not the exact same stimuli in the exact same spot
over and over and over. And that's what allows that group
plus lots of other assistants.
But it's what allows that group to train very, very, very heavy,
very consistently, not have to worry about too much planning
for beardization and other stuff like that.
They get there back off by making small variations in exercise.
I will say a major mistake folks do make is they change their exercises entirely way too often.
If I were to have to pick one or the other, I would say don't change anything on your exercises for six weeks.
Probably really sick maybe even 10, the 12 weeks. And then you can make some changes.
You should not be changing every single week.
The general public, you're just you're not gonna see progress. It's gonna be very difficult to do that.
So it's going to take you three weeks,
generally, to figure out the groove of the exercise, to figure out how well you can load it.
What's too much to where you woke up unbelievably stored? That was a train wreck.
How much do I load it at? How up position? How long is this gonna take?
It's gonna take you three or so weeks.
And then you can really start pushing there.
So changing it before that or in that time frame is you're not going to be able to progressively
overload because you're just not going to know exactly where you're at on all the exercises.
So it's very important to create standardization within them and then see some progress in
a movement or a muscle group, whatever you're going for, and then make some changes. So, before we dive into our discussion about hypertrophy, can we just get a brief recap
of the general parameters for an excellent power and strength training program?
Okay, let me hit you with these rapid fire, and then you can maybe come ask questions along
that.
Remember, those modifiable variables.
Okay, so let's go through them in order, and then what they mean specifically for power versus strength.
So modifiable variable number one is called choice. So which exercises do I select for strength? In general for power or speed or strength, we want to select compound movements.
You don't often see people doing maximum strength work for like a tricep kickback, right? It's typically multiple joint movements
and typically complex movements.
In selecting these compound movements,
we generally wanna actually think about exercise selection
of movements rather than muscle groups.
So this is an important distinction
because we'll see this as a different answer
when we get hypertrophy.
What I mean by that is, when we think about, again,
strength training, we tend to think about bodybuilding concepts.
We go to the gym and we do things like,
I gotta make sure I get my chest today
and I gotta make sure I get my hamstrings
and now you're selecting exercises
based on a muscle you wanna work.
For strength development and power,
we wanna think about movements
rather than individual muscle groups.
So there should be like things like,
I need to train explosive hip extension, which is like a vertical jump or something like that.
I want to train pushing or pulling movements,
or I want to train rotation,
which is a whole area we haven't gotten into,
which is very important for overall health
and wellness longevity.
So we want to select big movements,
buy the muscle, the movement patterns that we want to introduce,
and we just want to select a reasonable balance between these.
I don't care what the exact ratio is.
You just don't want to go an entire six months without doing anything in this rotational
area or an entire eight to ten weeks without doing something that's a lower body hinge.
So any number of
examples there. So just think about the rough movement patterns, upper and lower,
push and pull, and then some sort of rotation. That puts you in a pretty good spot.
If you're using three by five method and you're going to pick as little as three
exercises, just pick one from each one of those groups. Pick a rotation, pick a
push, and pick a pull. I can easily think of a push and a pull.
So for example, bench press or shoulder press,
row or chin for pull, and then squat or deadlift for hinge.
Yep. What would be a good example of a
quality rotational movement?
Yeah, so anytime you can use a cable machine,
like at the gym and you can do, it's how to hard describe this exercise,
but basically you're gonna stand facing the cable,
and you're going to pull it towards yourself,
and then rotate like you're pivoting,
like you're either swinging a golf club,
or hitting a baseball bat.
So you're facing one direction, I'm facing you right now,
I'm pulling the cable towards myself,
and then I'm gonna spin to a 180 degree pivot,
and face exactly away from you when I finish.
And then return it back the same spot.
So that's a rotation.
Great, we will provide a link to an example of that
that you consider a quality example.
A medicine ball throw, any number of things like this
are a great rotational exercise.
Alright, so we select our exercises based on that.
We generally then, because of that as a case,
we don't worry about things like
eccentric versus concentric because you're deadly doing a whole body
athletic movement, right, which the eccentric concentric portion is going to be
folded into that and you really can't separate them out, all right, so that's exercise choice our first variable
The next one is exercise order so because that everything driving power and strength is quality based, you want to do
these at the beginning of your workout.
You would not want to do anything fatiguing before this.
So no cardiovascular training, no other repetition to fail your stuff.
If you do those before and now you're slower, all you've done is practice getting slower. And so these need to be done when you're fresh.
You also need to do them when you're very fresh
because they are the most neurologically demanding.
They're complicated.
They tend to have multiple steps
and they're often in multiple plans
and coordination is a difficult thing.
And if you're trying to do all that at maximum speed,
your nervous system needs to be tremendously fresh.
And so any amount of fatigue here
is only going to compromise results.
To kind of recap that, one of the major mistakes when training for strength and especially
power is people worry way too much about fatigue. Those things should not be part of the
equation. And in fact, if they are, that's a very good sign you're not doing this correctly.
These are non-fetiguing movements, especially speed and power. So choice, order is next.
The next one after that is volume. And we sort of hit volume and intensity,
which is the other one.
We talked about that.
The volume is basically identical
between power and strength.
The general number we're gonna look at here
is something like three to 20 sets.
Total per workout.
Per workout.
But that would be like 20 would be
a little bit of a special case.
Three to five is when I told you earlier, right?
I'm just saying like sometimes you can actually go
quite higher in this case.
But that's the general range.
And when somebody finishes the three by five workout
for power or strength,
if they decide they wanna throw in some calf raises and curls
and a forearm work or a little bit of jogging
on the treadmill or something, that's okay.
Absolutely.
There is a very little risk of interference
for things like speed and power.
Strength, you have a little bit of a risk only
because now you're introducing fatigue,
which if you're really pushing strength,
that might compromise your recovery.
I could imagine doing the three to five routine
for strength or for power,
and then somebody finishing up with 10 or 15 minutes
of hypertrophy arm work,
and then being very seriously compromised
if they try and come in the next day or even the next day.
Correct.
And do those big compound movements for speed and power.
That's right.
Not just because they're sore, but the muscles may actually still be damaged.
And I know later we're going to talk about the somewhat tenuous relationship between
soreness and recovery.
Yep.
So that's a really nice heuristic to pay attention to is you can, but just be careful.
Energy starts to matter at that point.
If you're really truly trying to maximize strength,
you would do nothing at all outside of that training.
If you're just like, I kind of want to get stronger
and some other things, and you're willing to lose strength,
you know, 5% of your strength gains,
then you're totally fine.
The same can be said, by the way, for supersetting.
So supersetting is an idea that says,
like, wait a minute, you're telling me, dude,
I gotta take five minutes in between each set.
Well, that's not so much your problem nowadays
with phone, smartphones,
because people are filling their interset intervals
with social media and texting.
Correct.
You don't really have to go that long.
In fact, there was actually a study that came out in the last month that showed, you know, like really two minutes is probably sufficient
for most people. Having said that, if you really are trying to push maximum strength adaptations,
like three to five is very, very reasonable. Those training sessions are long because you have to
take, you're spending more time not doing anything than you are doing something, but you're trying
to maximize quality. So that's just sort of like part and parcel. If you're spending more time not doing anything than you are doing something, but you're trying to maximize quality.
So that's just sort of like part and parcel.
If you're not super worried about it, you can actually do super setting, which is, let's
imagine again, you're going to do some, some lunges.
And while your legs are resting doing their three to five minutes, you can go over and do
an upper body row or pull.
And when you're upper body's resting, you're going back the legs.
So that really cuts your time in half. Is it ideal? No, we actually ran a study, maybe 10 years ago in
our lab. And we looked at that specifically. And we did see a reduction in strength performance
in the super setting group relative to the group who did not super set. The question then
it becomes like, is it enough for you to care? So if you were to, if I were to say, hey,
I can cut an hour off of your workout time, but you will lose 5% of your strength gain. Almost everyone would take that exchange.
With the exception of people who are getting close to competition or really trying to set a new
lifetime PR or something, then you might say, no, I don't want any interference there. That last
little margin is what I care about. Give me the extra rest. Great. So it's not a, does it work,
does it not work? It's always a, what are you willing to give up versus get?
The practicalities of supersetting or staggering push pull,
push pull, in my mind are real,
because you have to take over large segments of the gym,
which oftentimes leads to a situation
where your rest times are too long or highly variable
because people are working in.
Or you can't finish your set because someone jumped into the machine.
Right.
Totally.
You lose three to five of your friends because it's obnoxious when you're taking
over all the equipment, but in all seriousness, I think it's wonderful if you have the space
and the format to do it, but at least in my experience and observation, these people
know who they are.
It's not practical to do on a regular basis
if you train in an open commercial gym.
Yeah, tough to pull off. So we've covered choice, order, volume, and intensity to a sufficient
level. The last one is frequency. And we've already sort of indirectly talked about that.
Where frequency can be as high as you'd like in this area, it really depends on your recovery. If you're really truly pushing maximum strength, you probably do need a few days to recover,
although that's dependent upon you.
But speed and power can be done multiple times a day, almost every day, basically.
The one exception would be maximum sprinting speed.
You need to be careful there for things like hamstring, and especially if you're pretty
fast.
So you want to be a little bit cautious of that.
But if you're doing easier movements like medicine ball throws or kettlebell swings or something,
you could do those quite often as long as the volume is staying pretty low.
Last little piece here is progression.
How do I progress over time?
So I mentioned this earlier, but just want to fill this gap right back in before we head
over to hypertrophy, which is 3 to 5% increase per week
of intensity in general.
And you can do upwards of about 5% increase in volume per week over time.
And I generally recommend running that for at longest eight weeks, but probably most
realistically you want to go about five weeks or so and then have some sort of a de-load
or back off week.
If you do that, you're generally going to be a pretty good spot.
So those are like the core concepts.
Now, there's a whole bunch of fun methods you can play with in all these categories.
And I would like to actually cover just a couple of them if we've got a little more space
for that.
Sure.
I'd love to hear about those.
I'd like to also just queue up one, which is while I joked about people texting and doing
social media between sets.
That's not a joke.
Well, I confess I stopped bringing my phone into the gym because of the urge to take my
mind off of the workout.
I just started enjoying my workouts a lot more.
And the workouts go far better that way.
And there's just much more efficient.
It, for me, I realize that some people,
their careers take place in the gym.
And so I don't look down upon anyone
using their phone at the gym,
but that really tends to help me.
But I do wonder whether or not there's an optimal behavior
or mindset in between sets.
I've heard before that pacing around can actually help diffuse some of the lactate and
other metabolic byproducts of work and exertion that can lead to better performance.
I've also heard that shaking the muscles out, I mean, there's all sorts of gym lore
about this, but maybe there's also some decent science.
I'm just curious, if you have any specific recommendations that people could play with
or try?
Yep.
So for speeding power, you want to walk this balance of stiff but fresh.
And so if you literally finish a repetition sit on a bench for five minutes, you would stand
up after that fairly stiff and you wouldn't feel so resummoned. This is all non-science. This is all
practical application, right? Anicidata. Anicidata, there you go. Strength is a little bit different,
but it's the same concept. You're walking that line. In general, a lot of the times, if you see
power lifters and weight lifters in between sets, they're going to sit down and not move. For
Hyper-GV, it can be a little bit different because you're getting towards fatigue.
So the factors you mentioned like a clearing lactate, well first of all, lactate is not actually
causing fatigue. That's a giant myth that will...
Which is why I teed it up. No, I'm just kidding.
But in the case of against speed and power, you're not going to fatigue. So fatigue management
is not a really an issue. You want to make sure that you're getting complete neurological
recovery, which is a little bit slower than muscle.
And energetically, you're not out of any gas whatsoever, right? You are not a
lack of fuel, you know, doing three repetitions of a vertical jump.
Yeah. No cloning glycogen. Totally. What about stretching between sets?
Yeah, you probably don't want to do that either. There are very clear
examples of pre-exercise stretching, static stretching,
being quite detrimental for maximum power production. The same thing for speed and strength.
And that's been shown actually a number of times in a number of laboratories, which is
like a classic hallmark any scientist looks for, of like really jumping on board with an
idea. If it's shown not only multiple times, but in multiple laboratories for multiple
scientists, and they're all seeing the same thing.
You start to get a lot of confidence that that's real finding.
And that's been shown.
We've done that in our Center for Sport Performance, not myself, but one of my colleagues has
done a lot of stretching research and he's seen that a lot.
And everything from vertical jump to isoconnection of monitors and enforce velocity curves.
We've seen this sprinting, we've seen this in speed, we've seen this in loaded stuff.
So you don't want to spend a ton
of time stretching, statically stretching a muscle.
If you do that and you have to do that, say for example,
you've finished that, you're just feeling really tight.
Yeah, go ahead, like you need to get in the right position,
especially for most people where,
are you willing to sacrifice 10% of power
to make sure you don't get hurt?
Yes, that answer is almost always yes,
outside of some very specific athlete scenarios. So if you're't get hurt. Yes, that answer is almost always yes.
Outside of some very specific athlete scenarios.
So, if you're not in the right position,
I actually remember having this conversation
with Kelly, Kelly started a long time ago,
which is like, yeah, fine, I'll lose 5%.
If that means I'm not going to get in a bad position
and hurt my back.
And I totally, totally agree.
So, if you got to open up a hip or an ankle or something
to get in the right position, number one, We'll live with the 5% reduction in power. And if
you do, just reactivate. So before you go to your working set, go do something fast again.
A vertical jump, a short sprint, an acceleration, and sort of get that system cleared back up.
If you didn't stretch it for long enough, and you didn't hold it for long enough, you
should be able to be just fine. So when it comes to hypertrophy, you can really stretch like one because it's not driven
by intensity or outcome.
It's being driven by an insult into the tissue.
And so if you're prefatiged for hypertrophy, it doesn't matter.
If you're pre-stretched, that doesn't matter.
We're not going for quality of outcome.
We're going for quality of internal signal, which is not going to be changed by your
force output. So it doesn't really matter. You mentioned a few other things that one might
consider in light of the list that you provided of choice, order, volume, frequency, and progression.
Right. So starting off with power, I just wanted to hand the listener's here with a whole
bunch of different methods to go play with. So as long as you get those concepts, the repetition range for power 30 to 70% of your
one repetition max depending on the exercise and your training status, you're going to
get the power.
As long as you're attempting to go fast, it's going to be great.
A lot of things you can try.
Applied metrics are a great example of things that are effective for power development.
We've mentioned medicine ball throws, short sprints.
You can even do sprints on an air bike, which is a great super safe activity.
You can do them from a rolling start, where you get going a little bit, and then you explode
for five seconds to see how fast you can get, or a dead start.
Both of those are very, very acceptable.
Weightlifting movements, those snatches and cleaning jerks
are tremendously effective.
In fact, they are pound for pound
by far the most effective exercise choice
for power development, without question.
So those are good ones.
Clapping push ups, speed squats.
These are all whole host of different things
that you can do for speed and power development.
Depending on your kettlebell swings, another great one, all these can be done depending on your preference,
exercise availability, what's not your jam or not jam, any of those things.
If somebody is more focused on strength as opposed to power,
what are the additional variables they should consider again within the context of this overarching theme of choice, order, volume, frequency, and progression?
Absolutely. It's almost identical with a couple of small exceptions. Number one, you probably can't do as many working sets per week for strength, because now you're introducing a heavier load, and that's going to represent some sort of fatigue load on the tissue, all
those things.
So you could probably get away with doing 20 sets of two of a vertical jump for five
times a week.
You probably couldn't do that at a 90% on squat, right?
So the total amount of sets and the total amount of weekly load you can get to just needs
to be lower.
And then the intensity, right?
So we talked about that needs to be generally higher than 70% with some portion of that being working sets
and some portion of that really truly being at 90% plus.
Everything else is pretty identical.
You still want to emphasize maximum speed.
Despite the fact you may actually not be moving faster
because you've introduced load,
you still need to be attempting that,
but you're gonna be picking complex exercises.
You're generally going to be hedging more towards marbles and machines.
This is a case where body weight training can be effective again, particularly for the
upper body, but at some point, you're really going to have to move past that because there's
just a certain amount of load you can't put on the lower body with just your body weight.
You get limited by how much you weigh, or I mean, there's a couple of things you can't put on the lower body with just your body weight. You get limited by how much you weigh or I mean there's a couple of things you can do
but you're going to run out past that pretty quickly.
And so when it comes to strength they tend to be less athletic movements because you
know we have to have a barbell on us, we have to have a we have to be on a machine or
something like that.
And so that's a subtle difference in exercise choice.
We need to also be careful about the eccentric portion
and things like that where we don't have as much risk
in a speeder power line.
So some of the different things you can play with there,
we've talked about doing things like pushes and pulls.
I also love carries.
So a farmer's carry, pushing a sled, dragging a sled,
all kinds of things, a yoke lock,
all kinds of carry modalities
that are very, very effective for strength.
There's eccentric overload training,
which we really haven't gotten into,
but it's a really advanced technique
where you can actually load at greater than 100%
of your one repetition max,
but you're only going to do the eccentric portion of it.
So physiologically, you are much stronger
eccentrically than you are concentrically. For a variety of muscle tissue
reasons actually. And so imagine if you can do a bench press at 200 pounds. And
what you might actually do is load it to 220 and you would have a spotter and
maybe even use it in a rack and you would lower it down under control all the
way to the bottom and then stop. Your friends would lift it back up the top and
then you just practice that eccentric portion.
You would actually be able to lower say 220 pounds effectively
despite the fact that you wouldn't have
to know the lift it back up.
You don't need to start there,
but that is a very effective method for inquiry.
In fact, one of my doctoral students right now
is doing a project on this at USC,
and he's focusing directly on this.
And it's quite clear this, often times more effective
at strength development than anything else,
because you can actually, just like in the speed example,
where you want to actually practice moving faster.
So instead of practicing 100% of your one arm extra strength,
you actually practice that higher than that,
to get better at it.
So that's another much more advanced tool.
Please don't let me get sued by saying,
like folks, be careful.
Make sure you're doing the proper exercise
and you're positioning in like caveat, caveat, caveat, okay.
But outside of that, it can be,
it's totally fine and safe.
Yeah, with it, when people get injured,
they can't train, you can't train, you don't progress.
You lose progress.
So certainly that's worth highlighting.
So two more little more advanced techniques that I want to throw out there.
And one of them is called cluster sets.
So cluster sets are, there's a bunch of ways to do it, but imagine taking a mini break
in between every single repetition.
So say you're going to do five repetitions in a row.
What you're actually going to do is do one repetition, set it down, pause for five to
10 seconds, and then do the next one.
Pause, do the next one, pause, pause, pause, pause.
So you can imagine doing like a squat, and you're going to go down, explode up, and you're
standing, you're going to rack it out.
You're going to kind of like shake back out, catch your breath, walk back in, do another
one, rack another one.
Rack it out.
You'll repeat that until you've executed your three or four or five repetitions.
Then you take your three to five minute break before your next set.
That is an incredibly effective way for both strength, power, and actually even hypertrophy.
You can keep the quality, the force output, the power output very, very, very high.
You're getting these little high, because you're getting
these little mini breaks and you're not getting fatigue setting in by the time you hit
your say third or fourth or fifth repetition in that set.
After repetition one, you start to see very small subtle reductions in power up, but because
you start to see a little bit of fatigue.
You take those five to ten seconds off, even up to twenty seconds, you can actually do
it.
You don't see any drop and force output over the course of the five.
What you really have done is you've gotten five in this example, first repetitions, which
is the way that we would say it.
All five of those had the same quality as rep number one, which is, again, as we're talking,
that's the driver in strength, and so that's the one we want to preserve. So it takes a little bit longer.
For some exercises, it's not very good.
It's great for like a deadlift, because you set it back down, shake it back out,
re-grip, hard to do with a bench. You got to re-rack it back in, then re-rack it back out.
That's like kind of a pain in the ass. So there's some exercises it doesn't work well with,
and some that it does. But cluster sets and a lot of research on those very effective.
Would you recommend if somebody's doing cluster sets, if they do them for every session within
that week or just this is an occasional thing?
You could do it.
This could be your training strategy.
Yeah, absolutely.
So you can really take it that serious.
In fact, like if you look at again, the weight lifters, they will do cluster sets by default, not even trying. So they'll say they'll do like a clean and they'll drop the way back out.
They're supposed to be doing say a set of three, but almost always they're going to like shake
it out, re-grip and then pull it again. And sometimes they're set of three takes like a minute.
And then it's like, you hear it's funny because it's like, I set a triple PR. You're like,
no, you did three singles. What's the difference between doing three singles and a set of three
when you took a minute between these wrap, I don't know that community.
So yeah, I mean, give me your strategy.
Like, it could be like, hey, for this five week block,
this is all my training, especially for your compound movements.
If you're gonna go to start doing some
of the smaller movements, maybe you give up on that.
It could also just be something you do
for your one primary exercise for the day.
So do that thing that is the most important first and just do it for that one and the rest
of them, you can kind of ditch it if you need to save a little bit of that time.
It can also be something you do by feel.
So you know, you're two reps in and you go, guy, like I'm not feeling like Poppy here,
like, re-rack it, get to my breath for a quick second and do it.
So it doesn't have to be ultra planned.
I guess what I'm doing is I'm giving you an excuse to make sure you're
super fresh for every rep. It matters. The last one I want to talk about here is what's
called dynamic variable resistance. So dynamic variable resistance is fixing the problem
we have with what's called the human strength curve. So theory of constraints again, you're
only as strong as you are in
your weakest point of the movement. So depending on the movement you do, this happens at a different
range of motion. Well, the deadlet disease is example. It's also because we've done like
research in my lab using this stuff on the deadlet. So I can speak to it very directly.
When you go to pull it off the ground, some people are going to fail right at the bottom,
meaning they won't get the weight off the ground at all. Some people will feel just below the knees,
that's like kind of like the hardest transition period. And then some people will feel right at the top,
just before they can lock out. Okay, great. So what that means is at some point of that lift,
you're going to only be limited by your strength in the weakest area.
You're going to only be limited by your strength in the weakest area. All right?
So, if you have a constant load on the bar in those other two parts of the range of motion,
or you are not the weakest, they're never truly being tested for their maximum strength,
because they're always being limited by the previous one.
This is the same argument that we would get into if people ask about, what do you think about using straps?
Strapping your hand to a bar for deadlift, things like that.
There's pros and cons here.
There are times when you want to use a strap
and there are times when it's a bad idea.
So what dynamic variable resistance is,
is either using things like a heavy band
or chains on the bar if you're seeing people do that.
So in my lab, we actually have a force plate on the ground
and then we have built in basically hooks in the front and the back so we can actually set a barbell on
top of the force plate where you stand on it and then run bands from the back to the
front running over top of the weights. And so when you stand up, as you're going up vertically,
the bands are getting tighter and tighter and pulling the weight towards the ground. So
the weight is getting heavier and heavier as you stand up.
So as you start to gain mechanical advantage in your positioning, you start to increase
load because the bands are getting tighter and tighter and tighter.
So this allows you to train that full part of the strength curve and to challenge your
stronger areas with heavier weight and your weaker areas with lower weight.
You can do the same thing with a bench press. you can do it with a squat and any other exercise
variation.
Dynamic variable resistance is incredibly effective for a number of things.
You're going to give up a little bit because the total load you can put on the barbell
is lower because you're going to be adding, you know, in large cases several hundred pounds of band tension. And so it pros and cons,
it's always a game, it changes the curve, but it's a very good technique
that people, it's fairly easy to implement, it's fun, and in fact if you try to
just on a bench or squat, you're going to be like the first time you give it a go, you're like,
oh my god, because the bands are pulling you all over the place, so you have to get very stable
very quick.
Been shown a number of times a handful of studies
out of many laboratories to be a very effective
training technique, a little bit more advanced,
but I wanted to throw that in there for the folks that
are maybe just tired of sort of doing the same
barbells and dumbbells and machines
and you want to try something different,
a very effective technique.
Sounds like fun.
Yeah, it's great.
With your permission, I'm going to read back my summary list of training for power and
training for strength according to your description, and you can tell me where I'm
right and where I'm wrong.
I'm going to pick three to five exercises, and these should be compound exercises, so
multi-joint movements.
I'm going to perform those exercises for three to five repetitions each.
I'm going to do three to five movements total per workout, and I'm going to rest three
to five minutes between sets.
Okay.
If I'm training for power, the weight loads on the work sets are not the warm-up sets,
but the work sets are going to fall somewhere in the range of 30 to 70% of my one repetition maximum.
Yep. And the larger the movement, the higher that number goes. So on a squat, you're okay getting 50 or 60%.
On a bench, you would not want to go that high. You would want to stay close to that 30 to 40% range.
So the way you scale that up and down is dependent upon the difficulty of the movement.
Great. If training for strength, I'm going to have my work sets be
70% or more of my one repetition maximum. Yep. And the only thing to add there is in the case of I actually all of them, it's okay to go less than three reps per set. So a single
or a double one or two reps is also fantastic. So we use three to five as the concept, but
less is okay. Going more than that is generally not a good idea. So less is okay, more is
generally not.
Okay. And then you listed off a number of really valuable, I don't even want to call them
fine points, but important points
to keep in mind within each and both of these programs.
One that really stands out in my mind is this idea of if I perform this 3x5 program, but
I'm also including some hypertrophy work for arms or calves or muscle groups that might
not be hit as directly as one might like during
the 3x5 component, that's okay, but do that after the 3x5 training.
And keep in mind that additional work can potentially compromise recovery for the 3x5 power
promoting or strength promoting program.
The example being, for instance, if one does arm work on the first workout of the week,
or even the third workout of the week,
or the fifth workout of the week,
and that arm work is higher repetition,
high-perturbed, directed work,
it's reasonable to assume that it might impede
some of the three by five power promoting
or strength promoting training in the subsequent workout.
So just to be mindful of that that and perhaps throttle back on the intensity or the volume
or if my goal is strictly power or strictly strength, probably best to leave out other
forms of training.
Yep.
Love it.
One last little thing I don't think we did justice is intention.
And the reason I want to go back to this now is because we've talked a lot about specific
loads you have to hit.
And that's generally the case.
But if intention is there, you can fudge those numbers in terms of how much load goes
on the bar.
In fact, you can get as low as no load on the bar.
A great example here is like a playing exercise.
So you can do a plank in what you get in a position and you simply contract the least amount necessary
to hold the position. Also, you could contract as hard as possible, pulling your
scapula down and back, squeezing your core, squeezing your quads, squeezing your
glutes. That is actually going to still help strengthen production because you're
attempting to contract very, very hard, even though, quote, unquote, the load is the same.
That thing extends to weight on the bar.
So you could theoretically see large improvements in strength at 50% of your one at max, if
you're contracting as hard as possible.
And so there's lots, lots and lots of different ways you can train for strength
that are outside of this weightlifting, weight training spectrum. And if you hear things like this
and you're like, wow, I know I read this book or I saw this other coach who, you know, I got so
much stronger that way. Well, if intention is there, those are absolutely possible. This could be anything from body weight style of training.
It could be very low load implement stuff.
So a kettlebell, a light kettlebell, or a ball, it could be single leg training.
It's like all kinds of different methods.
They will only work for strength though.
When you're past your first, you know, handful of months of training, if intention is there.
And if it is, then these specific numbers and protocols don't matter as much.
So don't get too caught up in them if you're not worrying about exercise quality.
And this is very, very important because you mentioned earlier about how you stopped
taking your phone into the gym with you.
One of our former students, Ramsey Nijim, is the head strength edition coach at the University
of Kansas.
And he made a great post a couple of days ago
where he gave sort of a tip of,
how do I improve training quality?
And one of his tips is, set your playlist
before you go to the gym.
And the reason is, people spend so much time
in between sets just finding the next song that they like.
It makes their workouts so long and so unproductive.
So that is one strategy or do what you do which is ditch the music entirely.
When you don't have music or a phone to look at, you only have one job.
You only have one thing to pay attention to and what you'll find is the quality of
the training will go up exponentially. You will feel kind of quote-unquote board,
but that's just means you'll go back to training and you'll get a lot more done
because you have one thing to focus on. And you'll get a lot more done because you have one thing to focus on.
So you can get a lot more done
when you avoid those distractions.
And when you're doing strength
and especially power work,
since it's not fatiguing,
strength will be a little bit, but power won't be.
People tend to get very bored.
They're used to either feeling a pump or a burn or a sweat
and that's their like perception
of my quality of workout.
These exercises will not hit that for you.
So there has to be another metric you're looking at,
which is I'm going to try to move
as well as I can as hard as I can.
That's going to produce your results.
If you can't do that,
then you might as well just not do these workouts.
Go do something else.
You're just gonna be wasting time.
You're gonna be burning a very low amount of calories. You'll have wasted an hour and you're going to go right back
to the place you were. So be very intentional. There are actually some studies showing that music
can enhance performance. We've done some of these on our lap. So what's that mean? It's not about the
music. Proceeds about the focus and intent and do whatever it takes to be very focused and intent
and you can actually get in and out very quickly
and get a lot of work done and see a lot of results.
Love it.
Okay, let's talk about hypertrophy.
The topic that occupies the minds of so many youth, young men,
but also a lot of women.
I think one of the really interesting progressions
that's taken place in the last decade or so
is that far more men and women are using
resistance training in order to evoke hypertrophy, growth of muscles for aesthetic reasons and for
all sorts of reasons. What are the ways that people can induce hypertrophy?
So not to correct you or insult you, but probably a better way to think about that question is really
What stimuli do I need to give the muscle to induce hypertrophy? Now there are
hormonal factors that are important there are nutritional factors, but just to stick with the context of training
This is really going to frame a lot of our answers and as you'll see
It's one of the reasons why I call hypertrophy training kind of idiot-proof.
In terms of programming. Now, the work is hard, difficult, and all that. But the precision needed
is a lot less than what we saw in power and strength. And so if you know it there, it's very important
that you do it in this style with this intent and within these parameters, and if you're outside of the parameters,
it's not gonna be it.
Hyper-Chavy has a very broad range
in terms of your actual applications.
And this is why you have,
and we'll continue to see countless styles
of training that all work.
I mean, I know you were mentored earlier in life
by one of my favorite people in this entire field,
Mike Menser, just an absolute character.
His style was completely different than what you would see in a classic textbook or any
unnumber of different influencers or coaches or individuals.
If you've ever thought to yourself, why is it all these programs work?
People love to jump to things like, well, that's the steroids. Like, just get that
out of the equation for now. Independent of that. That's not even
part of the equation. You're still going to see results. And the
question is like, why? Well, that's because what's driving
changes in strength and power. Are the adaptations of
specificity? What's driving changes in hypertrophy is much more well-rounded.
And so you have options to get that. Remember, you're training a movement, and now
you're training a response and a muscle to cause the growth. That's very, very
different. So if we look at like the classic dogma, we have to basically
challenge the muscle to need to come back in this case specifically bigger,
and the nutrients need to be there to support that growth. The nutrients aside, perhaps we can come,
and a few more minutes and talk about that. So all we really have to do is going back to our
our dog of activation of something on the cell wall. We've talked about this earlier, that's got to
induce that signaling cascade, that's got to be strong enough to cause the nucleus to react to it, to go to the ribosomes
to initiate this entire cascade of protein synthesis.
Okay, so that signal has to be one of a couple of things.
Either it has to be strong enough one time, it has to be frequent enough, or it has to
be a combination of these things.
All right, so I can get there with a lot of frequency
and a moderate signal.
I can get there with very low frequency
and a large signal, like more akin to what you did
with Mike back in the day, I'm sure.
And still train that way.
Still train that way.
Each and also group mainly wants a week,
directly and wants a week indirectly.
So all you have to do there to not fail is to make sure the training is hard enough, and it's week indirectly. So all you have to do there to not fail
is to make sure the training is hard enough.
And it's gonna work.
If you choose the frequency path,
then you actually have to make sure you're not training too hard
where you can actually maintain the frequency.
The only wrong combination here is infrequent
and low intensity and low volume.
That's it.
As long as one of those three variables is high,
you're gonna get there.
Because the mechanisms that are needed to activate that signaling cascade are wide-ranging.
And this is why when we even see things like blood flow restriction training, right, this
is when you put like a cuff on your arm or your leg and you block blood flow and you use
no load or as low as say 30% of your maximum.
And you take it to fatigue failure.
That actually is an equally
effective way of inducing hypertrophy. Despite the fact that you're using 3, 5, 10,
maybe most 20 to 30 percent of your one-hour max, why? Because you went through the route
of metabolic disturbance. Okay. Other ways, say, a higher load, maybe as heavy as you
can for, say, eight repetitions, is, is gonna get through what's called mechanical tension.
And so there's these different paths
that we can get to the same spot.
Now eventually, these things have a saturation point.
So you don't need all three of these mechanisms.
The third one, of course, being muscle damage
or breakdown.
And I know we want to chat a little bit about that,
but none of these three are absolutely required.
You can have multiple of them in a session.
You don't have to have breakdown at all. That is a complete, well, really it's a flat out lie
that you have to break a muscle down to cause it to grow. That's just not needed at all.
You have to have one of these three things, though. And so again, this allows you a lot of flexibility,
which is why crafting your program, which is best for you, is actually fairly
simple when it comes to hypertrophy.
You just have to make sure you do the work.
And you want to make sure you have a few standards in place with the exercise choice and some
other things that will, wait a minute, just a second.
But that's really the fundamental way of getting to it.
Making sure either that signal is loud enough or frequent enough to give the nuclei a convincing
enough reason to spend the resources because you have to remember two things. In order
to grow new skeletal muscle, you need amino acids which are your supply. And then you need
primarily carbohydrates as the energy source to power that synthesis process. So you remember
basic chemistry says, if you're gonna take two atoms
and you're gonna pull them apart or put them together, right?
That's going to take energy, typically,
and most of actually metabolism,
when you split a bond, you're gonna get,
it's called extraonic,
you're gonna get energy from that.
But when you put them together,
that's going to take energy.
This is why we call that protein synthesis, right?
So you have to convince your nucleus that one,
invest those resources in energy,
primarily carbohydrate, but number two and more importantly,
invest that supply.
There's a ton of possible ways to get energy,
but there's a very low amount of amino acids available,
and you need them for many more things
than just taking your biceps from seven hinting-to-inches
to eight inches, right?
It's not going to do that if you're in a position to where again, you can't sustain immune function than just taking your biceps from seven hinting t-inches to 18 inches. Right?
It's not going to do that if you're in a position to where, again, you can't sustain
immune function.
If red blood cell turnover needs to be higher, or any of the other, like, tons of things
that you need proteins for.
So you have to be able to say, like, are you sure?
You really want to spend these resources and build it into muscle because once we do that,
it's very difficult to go backwards,
break them back down and bring the amino acids back
into that availability pool so we can use them
for either another function entirely
or even another muscle group.
That's called protein redistribution,
by the way, when you say,
maybe you don't do a lot of upper body work in your training
and you're not eating enough protein or a minimal amount
and you're doing a lot of lifting in your legs.
You'll notice your legs will get larger,
but that's actually a lot of times you're pulling
the protein from, say, your upper body in this case
and redistributing it back down to the quads.
So that's what you have to get to.
And in terms of application, what numbers to hit,
we can go through each one of our modifiable variables,
just like we did with speed and strength and power, and walk through some of our best practices in each category.
Yes, so I'd love to talk about those modifiable variables as they relate to choice of movements, order of movements, volume, so sets and repetitions, and frequency of training.
And I'm particularly interested in frequency of training because that relates to the so-called split,
where typically one is not training their whole body every workout, although there are,
I'm sure hypertrophy workouts that are whole body workouts, but where people are dividing on their body parts on to different
days. So we'd love to go through this list one by one, starting with exercise choice.
Cool. Great. So in the previous section, we pretty much said exclusively choose your exercises
by the movement patterns. And you want to balance between pushing and pulling and rotation
and things like that. In this particular case, you have the option to do either.
Here's my recommendation.
Most people default almost exclusively
to choosing by body parts here.
I'm going to do calves and shoulders today and chest
and back, whatever combinations of things they want.
That is clearly effective strategy.
However, many studies have actually
been done where you choose by movement patterns,
and that is actually equally effective. Now, one studies actually have actually been done where you choose by movement patterns and that is actually equally effective.
Now one little caveat I actually should have said a few minutes ago, when we talk about
the research on muscle hypertrophy, it is important to distinguish the fact that the vast
majority of this research is coming from a novice to moderately trained individuals.
There's actually more and more research coming out on train individuals, but that's still
moderately strange, right, even those ones. So what happens in those people that are actually way past that point? We don't know scientifically. It's very difficult to do research there. So it's
an important caveat. I will acknowledge when I say, hey, you don't need to do this or you have
to do this. You're resuming a training status of moderate to low. May or may not be true.
Past that, we don't know scientifically.
I have certain thoughts personally, but the science will only take us that far.
So, that being said, you can actually choose by muscle or by movement pattern here.
Whichever is your personal preference, and this is actually where you can just become a good coach,
whether you're coaching somebody else through this fitness journey or through yourself.
And give them a little bit of autonomy.
So maybe you select the first three exercises and then let them select one every day.
And so if they especially want to make sure that one muscle group grows, let them target
that muscle.
And maybe the rest of the day you've actually split it up as push pull or something else
like that.
All those strategies are effective personal preference. as long as the total amount of the
volume on the working muscle is equated throughout the week,
which we'll get to those numbers in a second,
then you're going to be in the exact same spot, no problem.
I would actually generally encourage people to choose
exercises in a variety of fashions.
I actually think that it's important that you do some
number of combination of what
we call bilateral and unilateral exercises. So bilateral being think about it like a squat
or by meaning to lateral you have two feet on the ground moving in sequence here. Unilateral
is one. So this could be something as simple as a rear foot element is but squat. It could be a
single leg leg press or single leg curl. It could be a pistol squat.
Something where the individual limb
is moving one that time.
You need to have a combination of bilateral
and unilateral training.
That's good to do for strength as well.
Probably not super important for power,
but I'm also very important for making sure
for hypertrophy sake, you're not getting any imbalances
as you progress, especially through months and years of training.
So make sure you're doing a little bit of a combination.
Whether you want to pick specific implements, that's really a methods question and a preference
question, then it is concepts.
So dumbbell, great, kettlebell, fine, barbell, awesome, band, doesn't matter, body weight,
none of these things are as important
because all you're trying to do
is create a certain insult in the tissue
and the implement is just whichever one
you feel best doing it.
And this is where actually machines come into play a lot.
Machines are greatly underappreciated.
There are a fantastic resource, especially somebody
who's either early in their fitness journey, or
somebody who really is having a hard time targeting a muscle group with a bigger compound
movement.
So, when you're choosing exercises for hypertrophy, you're going to want to start with those
bigger compound movements.
That's going to drive a lot of the adaptation.
You can get to these single joint movements, like a little bit later, but having said that,
because of the way that people move differently, their anthropometrics and their biomechanics
and even their technique, the same exact exercise will not necessarily work the same exact
muscle groups for multiple people. So if you and I both went and did a back squat,
if you did it a little
bit more of what we call a high bar squat. So this is the bar is literally setting up
higher up on your neck. You're keeping your back more vertical. And because in order to
do that, you shift your knees much further past your toes, keeping of course your whole
foot on the ground in good position. Okay. That's going to generally put more of an emphasis
on the knee joint. Right. And so that's not a bad thing more of an emphasis on the knee joint, right?
And so that's not a bad thing.
You tend to see a little bit more work in the quads there, a little bit less work in the
spinal directors and back because you're actually not supporting the weight horizontally,
which is a, it's a much more difficult position.
It's vertically stacked.
Okay.
If I were doing the classic low bar squat, which is again lowering the
bar down, further down my back towards, one more like my shoulder blades, I probably take
a little bit of a lighter stance. And when I squat, I drive my glutes back further away
from midline. In as, in fact, as a general rule, if you take the midline of your body, the
thing that move is a farthest away from that midline is likely to be the thing that's
activating the most.
So in the case of the front squat, you're not generally going to be using your glutes
as much if you're not in front squat, just that high bar squat where you're very, very
vertical.
Your knees are going to be moving very far over your toes.
It's just fantastic.
Therefore, it's a little bit more knee dominant, as can we say it.
The other version here, you can keep your shins really close to vertical.
You move your butt backwards,
you're going to have to then lean forward with your torso, which means it'll be more low back, more glutes, and a little bit lessening. Now, that's a general statement. It's not necessarily
always true, but as a guideline there, that is one exact exercise where you may be going, man,
I'm trying to improve this clear weakness I have in my quads. I can't even leg extension my body weight, I have a significant problem there. So maybe in your particular case, if I'm hammering you or you're
hammering yourself on a squat exercise and you're wondering why your quads aren't getting any
stronger or are growing any size, it may be because of the style of the movement. So I may need to
go, Andrew, alright, look, squats in general, if you look at the research, are an excellent exercise for quad development.
But for you, they're not because of the way you stand or just because of neural activation
that doesn't matter.
I need to take you to a machine and isolate that muscle group so we can make sure we see
development in that.
If you're trying to grow a specific body part, area individual muscle, it's very important
that you're actually seeing progress there.
And don't worry about, well, in the textbook, the bench press is supposed to be good for
your peck. Because if you're not actually moving the right position or depends on the angle
in which your sternum actually sits in your body, a bench press may actually be doing
very little for your peck. And you may need to adjust to say an incline bench or a decline
bench or a peck fly. So machines can be fantastic at letting you isolate without having to worry about things
like stability, your low back position, getting hurt or your neck at.
You can really concentrate on just the movement, concentrate on the muscle and let everything
else go away and ensure you're getting training in that specific area.
Those are excellent recommendations.
One thing I wanted to ask about is prioritizing specific body parts and therefore specific exercises. And here I'm
not necessarily referring to trying to bring up a so-called weak body part, you
know, an area that tends to be either genetically deficient, because in some
cases I learned for instance, having seen a lot of competitive track and field
championships. I love
Watching track and field as a spectator of the Hayward field in Oregon whenever there's a meat. I really love that the sprinters are amazing
They have some of the highest calves in the world that I've ever seen. I mean like little like micro calves
But they're fast as hell
They're right behind the knee and they have a very long distance
between that calf and their foot,
which makes a propulsion excellent.
Right, they wouldn't stand a chance
as a competitive bodybuilder,
but because something different
is being selected for in bodybuilding,
but obviously they're magnificent for sprinting.
Most people, of course, reside somewhere
between the extreme of very long muscle bellies
from origin to insertion, or very, very short muscles. Usually people have one or two body parts that
they want to emphasize for whatever reason, you know, these days it seems to be, um, people
are really, whether they sang now like glutes or the new biceps or biceps or the new glutes
or I don't know. Anyway, you see this stuff. I love them. By the way, I am so pro curls in
the squat rack.
There you go.
Love it, right?
There you go.
Nobody killed me.
So everyone has their thing, but the, that they would like to emphasize.
But I have a question because we're specifically talking about hypertrophy, which is, should
people give themselves permission to not train a body part if their goal is balanced hypertrophy?
I'll give a couple of examples. One of the reasons
why I've for instance not done a lot of free weight squatting is because despite my quadriceps being
rather weak according to you, they tend to grow rather easily relative to other muscle groups and
the goal for me has always been balanced development. And so I emphasize hamstring work, and I emphasize a calf work and hamstring work.
It's not that I don't train my quads at all,
but I do far less for them,
and I avoid the big compound movements for them.
I occasionally do them.
And again, this is not about what I do or don't do.
But I think that in the context of a conversation
about hypertrophy, is it appropriate
to give people permission to say, listen, if you're just genetically strong, large lats, doing
a lot of chin-ups and rows might actually be the worst thing for you if your goal is
balanced development.
And I ask because I don't often hear anyone, any credentialeded people give people permission to completely avoid training a given
body part if their goal is balanced development.
And yet I think most people who are resistance training are seeking balanced development.
I don't know anybody that actively wants to have big upper body small legs.
I think that comes from neglect and laziness.
In most cases, sometimes injury related or other things.
But I think this is
an important point to raise that any good program for hypertrophy I would think would have to take
into account people's genetic and natural variation sport based variation in which muscle groups
just tend to grow easily for them and which ones require a lot more focus and work.
Yeah, absolutely. First of all, you have permission to do or not do anything
you'd like to do in terms of, of,
I urge you to be training.
I generally would not recommend disregarding
a muscle group entirely.
I know that's not what you actually suggested,
but just to make sure that people didn't hear it that way.
What I would do is, in this example,
is I would continue to do those big movements.
I would just keep the volume low.
So I might do two sets or something, twice a week.
There's a whole bunch of reasons.
You want to make sure that those motor patterns are there.
You want to make sure that the,
especially the benefit of these compound movements
is you get to work so many complementary muscle movements
at the same time.
So in the case of like loaded squat,
you're not only working stability in the hip,
as well as the knee, but you're also working upper body, your rhombies are keeping in position, your neck has to stand position, your toes, everything is working. And so it's really difficult
to get those things when you take that movement out and you replace it with, say, a machine hamstring
curl. That whole element of balance and neurological control
is very, very important to maintain over time.
And that just gets removed
with if you go to machines only.
So I would keep some of those things in,
maybe even not all year round,
but maybe one quarter of the year, two quarters
every other rotate at something like that.
As long as you're not,
if the reason you weren't doing say those squats was,
because you're like, oh, it hurts my back my back, okay, great, then leave it out.
But if it's just simply, you don't want your
squats to go too much, I would just keep that volume low
and do something, just to kind of touch it,
keep it activated, and to maintain all those other things
like flexibility, range of motion, I would bet anything,
your adductors were probably underdeveloped.
Now, you can get those by doing your squats,
because you're not really doing, I'm sure,
in much adduction training.
And so there's things like that that just get lost
when you're only thinking all big muscle groups
that come inherent in doing the larger movements
and so you don't have to worry about them
or train them separately.
I appreciate that.
And in reality, I do two to three really hard work sets
of hack machine squats per week, which is plenty for me
to maintain and even get a little bit stronger. But per our earlier discussion about a year ago,
I shifted to doing very low repetition ranges to main strength in that move. But I am actively
avoiding hypertrophy in that muscle group. Yeah. Or another solution would actually be do something
like one set to failure a week.
Not even extremely long, just do something in the eight to fifteen repetition range at
the end of all that strength set and just give a little bit of pump there. And then just
so just so that those muscles can touch that level of fatigue, touch that level of strain
and mechanical tension, lock away. Great. thank you for that. What about exercise order?
Amazing, so implicit in this exercise choice thing,
it's what you're gonna notice is these
modifiable variables interact with each other, right?
And you can clearly see how when we talked about volume,
and to clarify volume is the repetitions
multiplied by the sets.
That's typically how we express volume.
Well, that's gonna be directly influenced by intensity.
The heavier load you put on the barbell, the less repetitions you can do,
and the inverse, right? Rest intervals, the shorter you keep your rest intervals, then
either the lower the weight has to go, the intensity or the lower the rep range has to
go. Order is the same thing. Choice is the same thing. So all of these things modify each
other. They play a little bit of a hand and, and whatever thing else does. So with the
exercise choice thing, rolling into exercise order, you get to play a little bit of a hand and and whatever thing else does. So with the exercise choice thing rolling into exercise order,
you get to play a couple of games here. When we talked about strength and power,
I basically said stick to the big movements, most complicated and compound
movements first. You don't have to do that with hypertrophy. You can do this in
a couple of ways. You can do the thing you're just simply most interested in.
First, you can do this thing called pre fatigue. So say you're thing you're just simply most interested in first. You can do this thing called pre-fatigue.
So say you're going to do a back day.
You could go in and do nothing but isolated biceps
as your very first exercise and then roll into your pulling movements
because what you'll see is during most pulling activities,
the biceps are a secondary or tertiary muscle group.
But you've pre-fatigueed them.
You've guaranteed that muscle of most interests,
it's most training in and everything else is secondary. So you can start if you want prefatig them. You've guaranteed that muscle of most interest. It's most training
in and everything else is secondary. So you can start if you want with single joint movements,
you can start with isolation stuff or you can start with compound stuff. Either way,
it just really comes down to preference and what you're specifically trying to develop.
Now, this also goes back to the exercise choice question, right? Because it's sort of the
same thing, right? Like which one am I choosing?
And where I wanted it, the cap that's was the exercise splits.
And so we just sort of talked about
am I doing body parts splits?
And I know a question I get a lot here is,
well which ones should I package together?
I'm not really concerned with it.
What you all you should worry about is
how many times per week,
and in fact, total volume you achieve
on a muscle group
per week and I don't it doesn't really matter how those things are folded in it. It's really a
personal preference issue. One mistake that we see here commonly is grossly under-appreciating
that the legs are not a muscle group, right? So the legs have a whole bunch of muscle groups in them. So we see a
class exploit like I'll do shoulders and chest Monday. And then I'll do, you know, biceps
and forearms Tuesday. And then legs Wednesday or whatever. And then back to upper body. And
it was like, you're like, wait a minute. You have four days dedicated to the upper body
and one for a quote unquote legs.
Well, like you hope you can see the imbalance that's going to happen over time is you're going to
do far more of a body than you are lower body and that's not appropriate.
So you just want to think about your lower body like you would do.
If you're going to do body parts splits then include those things as well and don't just chunk everything in as legs once a week.
If you want to do that, that's actually okay, but that day has to be very, very challenging, and you probably
should do quite a bit of volume there, because you're almost surely not going to hit the
total weekly volume needed to optimize muscle growth. If you're literally only doing once
a week of your quote unquote legs.
So along those lines, let's talk volume. Yep. How much volume does each muscle group need per week in order to generate, and for that
matter, maintain hypertrophy?
Right.
So, the kind of a minimum number we're going to look for here is 10 working sets per week,
correct.
Per muscle group, correct.
And just to make sure that everyone's on the same page, if I do a chin-up or a pull-up,
I'm going to mainly be training my back muscles, my lats,
if I'm doing it correctly.
Lats and rhombods and biceps.
And so, but they'll be indirect targeting of the biceps.
So, would you include indirect targeting?
So, for instance, if I, you said 10 sets per week,
let's just use biceps
because it seems that that's the go to generic muscle. Why is that, by the way, that when
people ask somebody to, you know, flex their muscle, they always flex their bicep. They
don't flex their calf or their quad or their glutes or something. I guess there's some,
you know, public decency issues. I can tell you with my children, that's the very first
muscle I taught them to flex. They're glutes? No, they're biceps.
I got what you're gonna say, aren't they?
Good.
Good.
Healthy parenting advice from Dr. Andy Yelpin.
So if it's 10 sets per week for biceps in order to maintain or further grow the biceps,
but does that mean if somebody does 10 sets of chin-ups or tensets of chin-ups in rows
that they are checking off any of the boxes for biceps, assuming that they're doing the
movement properly and targeting the major muscle group that a given movement is supposed
to target, which in my mind when you're doing chin-up, you're supposed to mainly be using
your back muscles and then there are secondary or secondary activation of other muscles. But of course some people their arms grow like
crazy when they do chin ups and their back doesn't grow at all. So this is where we're
back to the kind of genetic preloading of the system, if you will. So how does one meet
this 10 sets per week minimum when dividing different body parts and thinking about this
direct and indirect activation.
So there's no specific exact rule here.
And this is why these set ranges are ranges.
And this is why we don't say like 10 is, so 10 would be sort of the minimum number you
want to get to.
The more realistic number that most people, especially if you're advanced or even intermediate,
is more like 15 to 20 working
sets per week.
Now, if you're very well trained, you probably want to even push more towards like 25, and in
fact, past that, there's not a lot of research.
So, the optimal number may be 30.
We don't really know.
It's just hard to get that much work in.
It may actually even be detrimental.
And here we're referring to natural athletes, that is people who, for whatever reason, either
because they're not taking any prescription drugs or maybe if they are whose levels of steroid
hormones, mainly the Androgens, like testosterone, etc.
Do not exceed the normal reference range values either because that's what they are naturally
or that's what they're replacing through pharmacology. Whereas when we think of technically
someone could be taking exogenous hormones to replace a deficiency and then there's still
a normal range. Okay, but I just want to clarify because you work with athletes in
number of different sports where drugs are and are not tolerated, etc. and the general
population that what we are talking about here is for the general population,
not for steroid using athletes.
Correct.
Yeah, great.
So, 10 was sort of that like absolute minimum number to maintain, which is actually pretty
cool.
If you think about it this way, if you went in and you did three sets of 10, three sets
of 10 repetitions.
Correct.
You're already at three. You do that three days a week. You're at your nine. That's almost 10. It's a very standard. Three sets of 10 repetitions. Correct. You're already at three.
You did that three days a week.
You're at your nine.
That's almost 10.
If you also just went to gym one day a week, you did three sets of 10 and you did three
exercises.
You're at nine, working sets.
You're basically done.
So achieving 10 sets per week per muscle group and now we're not even talking about indirect
activation of a secondary.
So you're going to hit 10 fairly easy. Accents you to that. Hitting 20 is actually still not that
hard because of what's actually going to happen there. So in your example, if you're doing
your chin ups, well, with the biceps count, there's no exact rule there because there
could be technique issues. It could be hand position. So you mentioned chin up very specifically.
A chin up is actually going to put your hands in this position where your palms are facing
up, right?
This is supination and pronation.
So you're going to be there.
Well, that's actually quite different than a pull up or your hands are in the opposite
direction.
So, but chin up actually is going to be pretty good activator in your biceps for most
people.
So you would expect actually to probably count that
because it's gonna be very difficult
to not see some fatigue in your biceps
depending on your mechanics,
depending on, and by that I mean,
just the segment lengths of your bones.
Like that's where your muscles are originate and insert.
There's nothing you could do about it.
It's not even a technique or a focus issue.
It's just simple fact, the matter of,
that's how you pull best in that area. The position of which your hands are on the
Barbara wider grip, more narrow grip, is going to change muscle use. So we talked about
earlier, I think in the previous episode, that exercises do not determine adaptations,
applications, too. But exercises do determine things like the movement plane that you use, and typically the eccentric
concentric sort of ratio, as well as oftentimes the muscle groups involved.
So there's just not a lot of things you can do depending on how you are built of some
exercises activating a secondary group and you don't want it.
So it's not always a technique you should, it may just be that's how you're built, right?
The same could be true for a squat.
The high bar versus low bar, sort of example we talked about earlier, it's, you know, you
can see plenty of evidence on muscle activation studies where people even doing the vertical
back squat style have tremendous glute activation and folks doing the low bar have tremendous
squat activation. So, a lot of it depends on
personal mechanics. So what I counted is the question. Really you just have to ask yourself number one,
do you really care that much? You know you have a range to get to. If you're anywhere between 10
to 25 working sets, you know you're fine. So if you count it or don't count it, it's just going to
change the difference between whether you did 17 working sets or 23. Either way, you're fine.
So I don't really care.
Number two, are you actually feeling anything there?
So if you're doing your chin ups and your biceps are blowing up, I'm counting that.
If you're doing it and you're like, no, I don't feel any fatigue there.
It's all my...
Then I'd probably say, okay, we're not going to count that as towards it.
So you can just let that guide you a little bit towards your count.
Yeah, I've always noticed that there are certain muscle groups that are very easy to isolate
when under load.
And those are almost always the same muscle groups that are easy to contract very hard without
any load whatsoever.
Bingo.
You know, that's actually really insightful.
So you can kind of use this heuristic of like,
if you can contract your lats just standing here,
you're probably going to contract them very well
when you lift.
If you can't, you can probably assume
about the same thing's gonna happen.
So yeah, you'll know.
This is actually, the lats are actually really interesting
because they tend to be one of the more difficult
muscle groups to learn how to activate.
So if you're in your journey and you're just like, I have no idea and you can look up like a
lat pose. So how do you like, how do you puff your last set, how do you show it? And if you do that
and you're like, wow, there's no movement here. Just recognize that's extremely common. And that
is probably going to take you many, many, many months of trying before you start to see some movements
and probably even a few years before you really start to see activation.
So you're not some sort of like specific, like special geninic anomaly.
It's very, very common.
It's uncommon to not be able to activate your biceps, right?
That everyone can do that.
But if you're just like, man, I can't get this here.
I'm just going to stop doing it.
Do not do that.
Just keep at it.
And just keep concentrating and thinking about that muscle group.
It will take some time. It's very common to have challenges activating lots.
Yeah, I've noticed that many of the muscle groups that were responsible for a large fraction of the work in the various sports that I played as a young child are muscles that are very easy for me
to selectively isolate and induce hypertrophy in.
I suppose I'm one of those mutants
where my lats happen to be one such of those muscle groups,
but I think that's because I swam a lot when I was a kid.
Literally going to ask me to swim.
Yeah, I so...
That's like a telltale song.
Yeah, every kid in my town swam and played soccer.
There you go.
And then later I, you know, I skateboarded and did some
not-
You generally hear that answer is that.
So you either were a swimmer or you were a wrestler.
So it's like that pulling and pull toward us
is thousands of repetitions allowed you
to get very good at contracting.
But because I also played soccer and skateboarding,
but I didn't do any baseball, basketball or football,
muscle groups like deltoids are very challenging to activate nicely.
So I do think that early development is superimposed on a genetic template that predicts which
muscle groups are going to be easier or harder to isolate and train.
It's also a very good case for why it's important to do as many different athletic activities
as you can in your youth.
Yeah, and if you do skateboard, definitely learn to ride Switch.
Because every skateboarder I know has one leg that's larger than the other,
one calf that's larger than the other.
And actually, for that matter, people that do martial arts that don't learn to,
if they're not South-Paw, if they don't learn to switch up and do their work South-Paw,
you see the same thing. I mean, you're building an asymmetry into the system.
And it's not just muscular, it's neural.
Oh, strong.
Strongly neural.
So yeah, kids, parents, get your kids doing
a bunch of different things.
I suppose gymnastics would probably be the best sport
all around in terms of movement in multiple planes
and activating all the different muscle groups.
Yes and no.
There's a lot of benefit, no question about it.
There's a lot of other things though that it has limited ability.
So, almost everything, not like Jim has to say, but almost everything in that is pre-planned,
which is a major downfall.
So the joy of skating is there's so much pro-perceptive input that you have to make decisions very
quickly in small windows. Now you have a little bit of that when you're flipping in the air, you have to land, but
you gymnasts tend to have a very specific routine that they're working on and they work
on that routine for years.
And go ahead.
So, for me, it was transportation, it was freedom and it didn't require any coaches or
parental oversight.
Yeah, yeah.
Ball sports have the beauty of reaction and things like that.
So, all of them were wonderful.
Yeah. It's good to have the beauty of reaction and things like that. So all of them are wonderful.
Yeah, good to do a lot of them.
You've established that 10 really to 20 sets per week.
Yeah.
Is the kind of bounds for maintaining and initiating hypertrophy?
Yeah.
If I were to like flag one of them, I would say 15 to 20.
Is this sets that you want to get working? Now, it gets complicated when you ask, well, how many reps per set do I have to get to?
Okay.
Well, we also can complicate that by repetition type and tempo.
Just sort of let all that go for now.
And just think if you're getting close to that range, you're in the spot.
And all you have to do now is balance two things.
Recovery and continued training.
Okay, so if you're somewhere in this 10 to 20 working sets range and you're in a position
where you can continue to do that, you're not so sore and so damaged and beat up that
you can't maintain that volume for, you know, eight weeks at a time or at least six weeks
at a time, then I'd probably say either the style of repetitions,
the amount of repetitions per set you're doing
are too much, the volume is getting to you.
However, if you're not seeing adaptations,
then I'd say maybe the repetitions aren't enough.
And so that's the kind of game you're running.
Now there could be plenty of other factors.
Intensity.
Of course, yeah, intensity, intent.
And then of course the other things, sleep, nutrition, et cetera.
All these other things that go into our visible stressor category
that we always analyze.
This sort of brings up this idea of responders and non-responders.
So we get this one a ton.
So why is it some people, my gym buddy, my roommate,
we go to sleep the same time, we're on the same nutrition plan,
we work out together, she triples in muscle size,
and I don't have no gain whatsoever.
Well, there's a lot of work that we're trying to do
to identify the molecular mechanisms behind
responders and non-responders, because they clearly exist.
In fact, this is one of the reasons why every paper
basically will ever publish again, if I do,
always reports individual person data.
So rather than group averages, you get to see if there's 10 subjects in it, you get to
see how each of the 10 responded because the group average can get confusing.
What you really want to see is how many actually people got better, how many got worse, how
many maybe change.
So we'll always report those individual data because when you go to the train, you're
you. You're not the good beverage. That's very important to know.
So if you do that, you can see a beautiful line of these hyper responders, the bell curve
in the middle of the normal responders, and those folks who, like through any training
study, just won't get any better. If you can tease out what you can't, but let's say
in science, you could tease out all the extra factors, total stress load, hydration, sleep, etc.
What you often see is non-responders, a lot of the time, it's not that they have a physiological
inability, it's just that they need a different protocol.
A lot of times they just need more volume.
So if they can handle that and they're not accessible to beat up, just give them more volume
and they tend to see a lot of breakthroughs.
You see the same thing with plateaus.
So typically it's just like, okay, the routine you're on, you've been on it for too long.
We need to either go to the other end of the hypertrophy spectrum for intensity, which
means like if you've been in the like 60 to 70% of your one repetition max range, maybe
we actually need to go heavier.
Take our repetitions down, maybe even our total volume down to go heavier,
try that, a great way to break through plateaus of grain if all the other boxes are checked.
The other one is do the opposite, which is like, okay, we're going to go higher. We're going to go
sets of 20, set to 25, very high repetition range, and really get after it, not to do as much damage
because you don't tend to get a sore from those really high repetition ranges.
You'll get more sore from the lower repetition higher intensity range than you will typically the other ones.
And see if we can bust through some blattos there.
So it just generally means you need to do something a little bit different than your training partner.
So we've talked about exercise choice and we've talked about the number of sets that one needs in order to induce hypertrophy per week.
What about repetition ranges? You've mentioned pretty broad repetition ranges.
How many repetitions per set is required in order to induce hypertrophy?
Yep. So there are two caveats here before I give you... Well, the number is somewhere between like four
to 30 reps. 30 repetitions. Absolutely.
In fact, I think you can go much higher.
The first 20 have to be feel exceedingly light.
Correct.
And during those first 20 or so repetitions, is the goal still to contract the muscle as
hard as possible on each repetition?
So this is the caveats here.
So caveat number one is there is an assumption that by the end of the set, you're getting
somewhat close to failure. And so you don't have to go to absolute failure to, to end do
this mostly per tree, but you also have to get kind of close. So if you're going to do a set of
25 and you finish it and you're like, oh, yeah, like that was kind of starting to get hard at the end.
That's not going to be enough.
If you're going to do a set of five or six and the same sort of expression comes
out of your mouth, it's not going to be a, so in that case, it doesn't matter.
We were up range.
If you're not getting somewhat close to failure, again,
it doesn't need to be complete failure.
A good number to think about is like minus two,
which is what we call reps and reserve,
which is sort of like, I got what we call reps and reserve, which
is sort of like, I got within two or so reps of failure, and then I stopped.
And can we define failure, at least for sake of this portion of the conversation, as the
point at which you can no longer move the resistance, your body could be a weight, machine,
et cetera, that you can no longer move the resistance any more
in the concentric phase of the exercise movement in good form.
Correct.
That's a really nice, momentary, muscular failure is how we typically define it.
There's a wonderful review.
I think it's open access.
That just came out in the last handful of months, Eric Helms' team at New Zealand.
Eric is a great scientist and a very experienced physique coach and a competitor himself.
So he knows a lot about this area.
And that paper went through all the exact definitions in detail, all the caveats that we're
not going to have time to get into today.
So I would recommend folks like check that out at the Walmart information, but I'll try
to get the highlights of it right here.
So what they basically showed is going all the way to failure
in the defining failure like you just did, right?
So momentary muscular failure,
you can't complete another repetition
through complete range of motion,
through whatever range of motion you determine prior to,
as well as with good technique.
So other body parts aren't being compromised,
sort of, et cetera.
And doesn't need to be total failure that minus two. Failure is still needed in caveat two, which is,
again, very, very highly trained individuals. You won't see people who are like Eric or
other folks who are six to eight to ten years into very serious training who don't have
to go to failure probably a little bit more than what I just said.
So the layout that they brought in their paper was very nice.
And they basically said, okay, here's a couple of scenarios in which going to failure is
maybe the best way to do it.
Number one, you probably should do it on a little bit of the safer exercises.
So maybe taking your back squat on a barbell to complete failure and doing that as like a standard protocol multiple times a week
It's maybe not the best choice
So maybe if you're gonna do barbell back squats you take that to your you know
Your one or two reps in reserve
Stop there. It's a lot of work. It actually going back to our discussion of the prolipin chart
It's a similar idea right where you're gonna spend most of your time
in these working sets, 70 to 90 sort of percent.
And then you're gonna take that failure
to maybe the Hacksquat machine,
or maybe even the Lake Extension machine.
So a little bit of a safer exercise,
they also contend to be single join exercises,
don't have to be.
But they're just ones that are not as complicated
and you're not likely to injure other body parts
when you're doing it.
So that's one way to go about it. Another way to go about it is simply doing it on like the last movement of the day. And so again, you're not going to do it on your first three or four exercises,
but whatever your last finisher is, you'll hit total failure on that one. And that kind of keeps you
in a range of, yeah, you hit some failure. You got a lot of
overall work done. So that's a lot of stimulus. That's a lot of noise going to that nucleus. This
says grow, grow, grow, grow, grow, but you didn't totally obliterate yourself. Especially if you don't
have the assistance of metabolic steroids, right? That's very, very important. If you have those,
you can push this a lot harder because your recovery would be significantly enhanced. If not,
you kind of want to walk away from that.
I have to assume that 99% of people listening to this
do not, and yet among those who are not taking anything
in terms of antibiotics, I think is a large range
of recovery quotients out there.
Some people just tend to recover better.
Some people, I think, also are far more diligent
about what I would call the necessary, but not sufficient variables of adequate sleep, proper nutrition, limiting stress, and so on.
Yeah, I can't wait to break all that stuff down.
I've got a whole very long discussion for all those things.
We will get into it in all its practical realities and actionables
Before long. What about rest between sets? Great. This is the interplay now So one actually thing we said for a long time is you want to stick between 30 to 90 seconds of rest
Between sets of ripertrophy and that's because you're trying to
It activate this metabolic disturbance or disruption
You need a little bit of a burn a little bit of a pump to go there.
More recent research, a lot of these out of Brad Shown, Thel's lab, and others have shown
that that doesn't seem to be the case.
Again, for moderate to newly trained individuals, whether that's the case for the highly trained
folks, I don't necessarily know.
I don't think there's any difference here. So you
can take up to three to five minutes, arrest in between sets, and be fine. The caveat here
though is this, if you're going to arrest longer, that means the metabolic challenge is lower.
So you need to then increase the challenge in either mechanical tension, which think
about as weight, load, or muscle breakdown.
So you can't lower one of the variables, keep your
hands the same and expect the same result. So if you're going to have more rest,
then you need to either preserve the load on your bar or the volume.
One of the two has to happen. So this gives people a lot of opportunity.
I generally tell people, if you're going to train for hypertrophy, it's probably best to stay in the two-minute range at most. You can go
longer, but a lot of people have a hard time actually coming back and then
executing that next set with enough intent to get there and or it's going to
make your workouts tremendously long. So you can stick to the shorter one. You don't
have as much mechanical tension, but that's okay.
You can get there. But in reality, you can do whatever you would like.
Tell me if this is a reasonable structure given what you've told us.
Three exercises per muscle group. First exercise, slightly heavier loads. So repetition ranges
somewhere between, let's say, five and eight, with perhaps hitting
failure or close to it on the last set. Rest periods of somewhere between two or let's get wild and say
five minutes. Okay, so it's a little bit more of a strength type workout at that point. But then
moving to a second exercise of three or four sets, where the repetition range is now eight to 15, shortening the rest
periods to 90 seconds or so. And then on the third exercise, repetition ranges of 12 to 30,
this number 30 kind of makes me wide eye-douin. I can't remember the last time I did a set of 30
thinking it was for hypertrophy, but what you're saying makes absolutely sense and is research back. So very short rest intervals, maybe 30 seconds between sets. Would that
allow somebody to target all three forms of major adaptation? I mean, in my mind, it works,
you know, you're talking about mechanical loads, you're talking about stress and damage, and you're talking about metabolic stress. Is that better than to,
for instance, do all the high repetition work in one workout per week, and then higher
loads in the other workout? It doesn't matter if you divide them up or combine them.
It would not matter. I would say it matters in the sense of your personal
Practical situation. Well long rest for me. I love training heavier with longer rest, right?
But I'm hearing that there's real value to doing these higher repetition ranges. Yeah
So the formula you set up there in a second is great if you want to do it the other way. That's fine You really it's kind of idiot proof
You can set this up. How are we like you could to do it the other way, that's fine. You really, it's kind of idiot proof. You can set this up however you'd like.
You could actually do the inverse.
Theoretically, you could do the sets of 31st and then move to your sets of 8th.
It doesn't really matter because we're trying to just get to a certain total stimuli and
you're going to hit it eventually.
So, you have a lot of room to play here.
You also have a lot of room to adapt based on your circumstances.
God, I'm based on your circumstances.
God, I'm short on time today. Typically, my workout takes me 60 minutes for this plan I have.
I've only got 35 today. What do I do? Well, if you're training for strength, that's a different
answer than if you're training for hypertrophy. If you're training for hypertrophy, you need to make
sure you hit that total volume. So in this particular case, lower the load,
lower the rest intervals, and just get to the burn
and get going as much as you can.
If you're training for strength,
I would rather you cut your volume in half.
Get those few repetitions done at that high load
and just don't do very many sets today.
That's a better result.
So the goal that you're going after
is going to determine what we call chaos management, which is that thing like that. Running out of time today, my
time is short or you don't even think my time is short, something I cut off, I'm
not feeling it today, I'm in a hotel, etc, etc, etc, which is life, right? That's
going to be 10 to 50% of your workouts is going to be chaos management. Well, how
you make those decisions is going to go back to understanding, number
one, what goal you're going after, and the number two, what are the physiological consequences
we call these physiological limiters for each one, and that's going to tell you what to
select and prioritize the volume, the intensity, or whatever else.
I'd like to ask about frequency, but I'd like to frame it a little bit differently than that. I'd
like to ask about total workout duration, which dovetails with frequency, because if one
is hitting the appropriate number of sets per week and one is combining different muscle
groups on the same days, well then workouts are going to be a very different duration than
if one is doing a different body part each day, for instance.
And so I feel like any discussion about frequency has to be within the context of workout duration
and vice versa.
Yeah.
If you are a lifting junkie and you're very consistent, you're scheduled, I'm actually
okay with body parts, but most people are not that.
And so the concern there is if you say are isolating and waiting to do your glutes
on one day the week and something happens on that day, you might go another 13 days
now before training it between workouts.
And that's really difficult to maintain.
The frequency won't be high enough unless the load and volume on that one day is astronomically
high.
It's just not going to happen.
So while if you look at the research,
frequency in terms of how many days per week doesn't matter that much,
as long as the total load and failure are equivalent,
practically it's a challenge.
So it's hard because life gets in the way for most people,
especially if you have kids
and a job and all these things over there.
So I actually prefer doing something more like three days a week of total body.
And if something happens, you've just missed that body part for 48 hours, 72 hours.
I like that a little bit for most people, not because it's more effective, but just because
it's a little bit more resilient to life.
And you can get there. If you wanted to actually do a little bit more resilient to life and you can get there
If you wanted to actually do a little bit of a combination
So if you wanted to do like two days a week of whole body and then two days a week of a little bit of a body parts split
Then you're actually sort of hedging against all risks there
As long as you get to that total number there now there is actually some evidence in a couple of ways that maybe a little bit more
Frequently is a little bit better
But the difficulties now going back to the practicality question of
like how many people really can train just their strength training six days a week.
That doesn't count any of their long duration stuff.
It doesn't have their high heart rate, their flexibility, they're okay.
It's just really, really, really hard to get all that stuff in.
So it tends to be easier on folks in terms of execution and long-term
adherence, in my opinion, to get that volume accomplished in a little bit more frequent
patterns, but not once a week. So I like to kind of have it right there for most people,
not again, not because it is technically, quote, unquote, more effective, but because
you're less likely to fail to progress
because of skipping a workout, something popping up,
your power going out and your garage door
being locked on your...
Whatever.
Imagine that that happened to me this morning folks,
couldn't get out of my driveway
because the electronic gate was down
because the power was down.
Anyway, solve that problem.
The way you describe it, my sense is that workouts
will last somewhere between one and two hours
of real work.
Is that about right?
It doesn't have to be nearly that long.
I mean, you could certainly get enough
to work done in 30 minutes.
If you do a whole body workout.
Yeah, yeah, absolutely.
So if you're doing that three days a week,
so remember the numbers we're trying to hit here.
Let's say we're trying to hit 15 working sets
per muscle group per week. That's five working sets per day for muscle groups.
So if you did one exercise for that day, let's say you did squats, you did five sets.
You did that three days a week. You're done. There's your 15.
But there are other muscle groups to hit on the same day. You're doing squats. Are you
doing a whole whole body? Yeah. So you've gotten them all ready. And so like all leg muscles
in that example are taken care of.
So you would not do separate hamstring work in a certain period.
You wouldn't need to.
Now hamstring is actually a little bit of a caveat.
Like that's a good example of an exercise or a muscle group.
That's probably really good to make sure you isolate.
It's challenging to get with your standard dead lift and squat.
It's one of the probably ones that's most important to go target outside of that.
But in theoretically though, outside of that,
you would get most of your leg muscles done
with even a single exercise.
And even if you wanted to change it up.
So you said, all right,
Monday I'm gonna do a squat variation.
Wednesday, the next day I left,
I'm gonna do some sort of deadlift hinging variation.
And then maybe Friday, my third day,
I'm gonna do some sort of unilateral, maybe rear foot elevators, foot squat or something like that.
All right, maybe even a lateral lunge, maybe a different plane.
Okay, you're in a pretty good spot.
You're going to hit most of those muscles to your 15 working sets, especially if you
take sort of that last set each day.
It's a pretty close to failure.
That's going to get some serious work done, but you're not going to be so fatigued, you can't come back and
train in a couple of days later, and you'll be fine.
You could even split that up into two days a week.
Now all you really have to do is hit something like seven working sets.
Maybe that's two exercises per day, maybe some sort of a leg press and a leg hinge, three
to four sets each.
You're going to hit six to eight sets that day.
You did that three days a week.
Now I'll send you out that 20, 24 sets
about having a bit of them.
Same thing with the upper body.
I just gave lower body examples because, you know,
I like the lower body more.
So it's not that challenging to get to those numbers
and split and those workouts can be extremely short.
So if you were doing that three days a week,
you're doing that one exercise a week, you're doing
that one exercise, everybody, one exercise lower body, that certainly shouldn't take more
than 40 minutes.
I'm happy to hear that not because I don't like training. Please excuse the double
negative, but I found that resistance training workouts that extend longer than one hour of
work and certainly longer than 75 minutes of work, leave me very fatigued.
Oh, sure.
And fatigued to the point where concentrating on
cognitive work throughout the day
can be challenging, need a longer nap in the afternoon.
I'm a big proponent of naps in the afternoon in any case,
but requiring longer naps in the afternoon, et cetera.
So at least for me, restricting the resistance training
workouts to about 5050 50, to 60 minutes
of real work for me three or four times per week has helped tremendously.
So it's a case where doing higher intensity work in a shorter period of time and actually
hitting muscle groups less frequently for me.
That's again, once directly, once indirectly, as worked really well.
And as you mentioned earlier,
this could very well be explained
by not my recovery quotient as some sort of genetic
or physiological variable,
but the way that I'm training.
And indeed, I like to do a few four straps
and go to failure on too many sets.
And you know, weaned in that genre of training.
It's also fun, like to just train hard.
It is, it's really fun.
It is, I think that I've learned a lot
by training to quote unquote to failure. Of course. I think there's a lot of learning in there,
um, provided it's done safely. But what you're describing actually inspires me to at least give a
try to these other sorts of splits and ways of training for hypertrophy and strength, because
this notion of not necessarily having to go to failure and still being able to evoke strength and hypertrophy adaptations
is a really intriguing one.
There I even say a seductive one.
And that leads me to a question that is based on findings
that I've heard discussed on social media,
which means very little if anything,
unless it's in the context of people
who really know exercise science and you're one
such person and that's this idea that because resistance training can evoke a protein synthesis
adaptation response but that adaptation response is less about 48 hours before it starts to taper off
that the ideal in in quote, frequency
for training and giving muscle group for hypertrophy is about every 48 hours.
Is that true?
Yes, and no.
So a couple of things there.
Remember, in order to grow a muscle, there's multiple steps here.
So you have a signaling response, which actually happens within seconds of exercise, and can
last, depending on the marker,
up to an hour or two hours.
Step number two then is gene expression.
And when we see that,
that's typically peaked around two to six hours
post-sector size.
And then you have following that protein synthesis.
And that's that longer time frame.
Some are between 12 hours there.
It's certainly not peaked for 48 hours.
It may be still there 48 hours from now,
but it is absolutely coming down at that point, depending on sort of a number of factors.
So, that part of it is sort of true. So, this is a combination of like some half-truths
and some like maybe just pedantic things that aren't really that important to differentiate.
The real question I think is, is it okay to train sooner? Is it better to train sooner, or actually is it better to wait longer?
There's no real reason to think that you need to train
if the goal is hypertrophy,
any sooner than 48 hours afterwards.
I can't think of an advantage that that would confer.
I also can't think of any practical applications,
athletes, physique, bodybuilders, coaches that ever found
tremendous success doing that.
So I would be very skeptical that that is,
at any way better.
Now, could you do it in some instances of say,
you know, you've got travel coming up like that
so that you just, yeah.
You want to preload the system by destroying the muscle.
Totally.
No problem.
And then waiting seven days or 14 days,
I've known people have done that before.
I do the occasions or layoffs.
Every time, like every single time.
So annihilate themselves and then take a total week layoff.
Yeah, and it's like there's no benefit there
other than psychological.
Like I just love it.
Like it feels great to be super sore.
I feel less crappy not training for those couple days
because I'm like, I'm super sore anyway.
You need the extended rest.
Yeah, of course.
And it's just like, it's just a crappy justification
in my brain that like, excuse to do something really well
and that I totally don't need and get way sore
that I should get.
Dr. Andy Galbin suggestions of what not to do,
but that he does.
Yeah, 100%.
So do as I say not as I do,
the famous words of every research professor.
Yeah, I think 48 hours is a reasonable time to wait.
Can't think of any advantage going sooner than that.
There's really not a tremendous amount of advantage of waiting much longer than that.
Certainly 72 hours is fine.
As long as you're hitting these concepts we've talked about, you can let really life determine
that.
I mean, there's situations too with like, particularly our athletes where we have to
kind of break that because of schedule obligations.
So they're playing every fifth day, every third day or something like that.
And you're just going to have to lift them back to back days.
And you're just going to have to get it done.
But yeah, I can't think of why I would go out of my way to do that.
The second part of that question is, let's say somebody trains a muscle, they train it
properly, they hit it in their appropriate
rep ranges and appropriate rest, et cetera.
The stimulus is there, the adaptation is set in motion,
they're getting somewhere at 48 hours or so,
a protein synthesis peak, that's gonna taper off.
But they don't train it 48 hours later or 72 hours later.
They train it five or six days later, not because they're lazy, not because they don't train it 48 hours later or 72 hours later They train it five or six days later not because they're lazy not because they
They don't care but because they have other priorities that are woven in with
Getting hypertrophy in this muscle, right?
There are people who exist only to get hypertrophy in a given muscle group, but let's be fair most people would like to grow that muscle group
But then does it necessarily mean that the muscle starts to revert to its pre-hypertrophic
state?
That is, does it atrophy and get smaller again?
Because if it doesn't, I could see a lot of reasons for hitting a muscle group once every
five days or seven days provided you hold on to the hypertrophy that you initiated five
or seven days ago.
Yeah, there's no reason to think you will lose anything in that sort of a time domain,
five to seven days. The only challenge with training that infrequently is can you actually get enough total volume done?
So if you're gonna train the muscle once a week, you either have to go to real failure,
real damage and so on as, or you have to figure out a way to hit 20 cents that day in that muscle.
Not at all impossible, especially if you think, well actually all I have to do is 15.
I'm gonna do five sets of three exercises.
That's not outrageous, not at all. So, so like, absolutely possible. If you're wanting to go
more towards 20, we're going to be closer to that 25. Like, now it starts to get pretty challenging.
So, scientifically, the research was to just, it's going to be equally effective.
Practically, it's challenging for people to hit sufficient volume without just being
so demoralized afterwards because they're in so much pain they can't get out of their
car because their legs are so trash.
They can't sit in the toilet and get back up without crying from pain.
So that's not good.
No, that's not good.
I say that because those are the actual examples that have happened in my life.
Yeah, I'm realizing as we're having this conversation
about ways to stimulate hypertrophy
that I've sort of defaulted to more intensity
as opposed to volume because of the time factor.
I have a lot of other things going on in my life.
And so within that hour, I can't get enough sets
in across all the muscle groups I need to hit
and I'm only gonna do it about once a week.
And so it's at least for me, more advantageous to just train extremely hard.
I actually use the pre-exhaustion technique that you mentioned before, or pre-fatigue as
you refer to it, of hitting something really strong with an isolation exercise, then doing
compound exercises.
I'm starting to think based on what you've told me, that pre-fatigue and then a compound
exercise, in some ways it's not really two sets. that pre-fatigue and then a compound exercise.
In some ways, it's not really two sets
because if you're going to failure,
and force reps, you're kind of pushing past failure,
then you're doing a compound exercise
and you're doing that two or three times,
well, that sounds like four to six sets,
but the force repetitions are almost like an additional set.
Right?
And so it's not 20 sets, but it's four to six really,
really hard sets that go beyond what we normally think of as a set.
Totally.
Okay. It's sort of the difference between running on concrete and running on sand.
When I go for a sand run, it's a very different experience.
Totally.
Yep. And this is why I should have mentioned this is a very,
very beginning of our chat today.
But all of these numbers that I'll give you for any exercise adaptation, you cannot think of them as hard
lines.
They are gradients.
And so when we think about the number for hypertrophy, the terms of repetitions, I said
four to 30.
What do you think happens at three?
Do you think hypertrophy just stops?
In fact, the number you'll see in literature is more like 6 to 30. I actually slide it down to 4 though,
like personal preference because of that.
But it just fades away.
What do you think happens at rep 31, 35?
There's just fades gradually over time.
So you actually sort of brought this up
when you hear other questions.
And I'm not sure if you were even thinking about this
or maybe you were, I just babbled on about something else.
But if strength happens between this like one to five repetition range
And I perchrophy typically happens in this like eight to 30 range
What happens if I were to do to sets of six or God forbid seven like seven and nine are these numbers
You just absolutely don't do a strength training, right?
It's just like sets of one two three four five six got eight ten twelve like do not program a set of thirty now
And I'm training sets of seven and nine It's great So that's a one, two, three, four, five, six, got eight, 10, 12, like do not program a set of 30.
Now when I'm training sets of seven and nine, it's great.
Right.
We'll use sets of seven a lot with weight left because you can actually count numbers more
effectively.
But what happens in seven to nine ranges?
Great.
So this is actually a wonderful area of these like five to eight repetitions where you're
going to get a nice combination of a lot of strength gains and a lot of hypertrophy. So someone who's coming in going, man, I want to get stronger and I want to add muscle.
What do I do here? Well, that's actually a really nice answer. Train pretty hard in that like four to eight
repetition range and you're going to get a lot stronger and you'll still induce a lot of hypertrophy. If you want to
really maximize hypertrophy, I would probably spend most of your time
in the eight to 15 repetition per set range.
You can go up to 30, admittedly though,
I don't think it's optimal to spend most of your time
at more than 15 reps per set.
It's very challenging to maintain the focus required
at rep 27 to actually get sufficient failure
by rep 30.
You just give up way too early. It's hard to do.
The same thing at the bottom and that spectrum in terms of, of really heavy
to get there. So I really honestly think eight to 15 is still, it's
cliche. It's that textbook number. But that's a reason that's a
textbook. It is tried and true and very, very, very effective. If,
for instance, you want to get stronger, though, and not invoke a lot
of hypertrophy. You have a couple of tricks you can pull. Number one, stay south of that
five repetition range. You do sets of one, sets of two. Go as heavy as you can with all
appropriate considerations, and stick with them maybe even up to three reps per set. You
start getting the four to five to six. Now you're going to start itching towards that hypertrophy
range.
So stay down there.
Do a lot more total sets.
So a classic example would be something like eight sets
of three.
You're going to get a lot of practice.
You're going to get 24 very high quality reps with a lot
of rest in between.
You go from there, you go to managing caloric intake,
making sure your protein is still on point. You go from there, you go to managing caloric intake, making sure your protein is still
on point you want to recover, but if your total calories aren't greater than 10 to 15% above your
maintenance needs, then you're not going to be able to put on a whole bunch of muscle mass because
you just don't have the fuel for it. You can also then space your workouts out, so that stimulus
isn't coming extremely often. So if you do that thing a couple of times a week, it's not enough frequency in that signal. So remember that signal has
to be frequent or loud. You didn't make it super loud, and now you're not making it super
frequent. You can get very, very, very strong like that and put on very low amounts of
hypertrophy if that's sort of the choice.
So you told us a lot about volume and frequency and how that relates to protein synthesis and
recovery to evoke the hypertrophy adaptation response.
How should people think about systemic damage and recovery?
Because obviously the nervous system and the way it interacts with the neuromuscular system
is the sight of all the action here, or at least a lot of the action.
And the nervous system can, in fact, become fatigued.
It has a great capacity, but the whole system
that we're talking about can be worked to the extent
that even if a muscle group, like the biceps or the back,
is being allowed to rest while you're training legs
and other muscle groups, that your whole neuromuscular system needs rest.
How does one determine whether or not your entire body needs complete rest or low level
active rest or exercise of a different kind?
Yeah, yeah, sure.
So I want to actually tackle this because we're on the topic of hypertrophy.
I'm assuming that that's the goal in mind here.
Yes, here I'm asking specifically within the context of hypertrophy.
I realize that for other training goals, the answer to this question could be quite different. Yeah, okay. So we actually do this in the context of hypertrophy. I realized that for other training goals,
the answer to this question could be quite different.
Yeah, okay. So we actually do this in a couple of different ways.
Let's start local and work back to systemic, right?
Because number one, what you're really concerned about
is at the local muscle level,
is am I going to create excessive damage?
And I don't necessarily mean muscle damage.
I mean injury, right?
So the kind of rule of thumb we use is like three out of 10
in terms of soreness.
If you're more than three out of 10 in terms of soreness,
we're gonna start asking questions.
If you're higher than six out of 10,
we're probably not training.
This is subjective measure.
Total subjective measure, right?
And you'll know very quickly, right?
If you're like, if you can barely graze your peck
with your fingertip and then you're like,
ah, I don't care what you score that,
we're not training. There's just no damage. If you're three out of fingertip and then you're like, ah, I don't care what you score that, we're not trying.
There's just no damage.
If you're three at a time, if you're just like,
oh, I'm kind of like a little bit stiff here,
but once you get warmed up, you start feeling okay,
you're probably okay, I'm sure proceed there.
So that is a very easy way to just think about so-and-a-so.
You're gonna be a little bit tight
depending on your training frequency.
Now, zooming out to systemic, we use a whole host of things.
So we actually have a whole host of bowel markers we use.
You can get a lot of these from blood.
So you can look at things like creatine kinase.
That's the very common one marker of muscle damage.
We'll actually look at LDH, we'll look at mild globulin.
That's just like, if you think about hemoglobin
is the molecule that carries oxygen throughout your blood,
the mild globin is the part of that that's actually in muscle.
So when muscle gets broken down,
that gets leaked out and put in your blood.
That's one of the markers actually
is going to be associated with things like rabdo,
which is like you're going to see your urine is purple.
And it's extremely dark
because you've got so much muscle breakdown
that happens and kidneys get a problem
and you put a bunch of stuff in there.
So we'll use those biomarkers.
We'll actually also look at probably a couple of things
you're familiar with ALT and ASD.
These are excellent biomarkers of muscle breakdown.
So if we are actually suspecting that this is a chronic problem,
we're gonna actually go and then pull some blood.
If it's just like I'm super sore today,
we're gonna use that subject to a marker.
But if we're seeing this as constant, like,
man, are we really pushing you way too much?
Is there some sort of systemic problem? We're going to blood and we're going to look at all those different things. Now,
AST to ALT is really specific and I don't want to take us too far off track here, but the
ratio to those things is actually very important as well. So if you look at the AST to ALT
ratio, typically the number we'll look at is like 1.67 as that ratio is like higher than
that. You have a pretty high risk of muscle damage. But really, between me and you and a few of these listeners, anytime we start seeing
AST outkick ALT, we're immediately thinking, as in the ratio being higher than one, we're
immediately thinking like there's something happening muscle damage wise.
So that's actually sneaky, get indicator of just total muscle mass because the vast majority
that's going to be in muscle.
So those are actually some markers that we like a lot.
If muscle damage is the thing we're concerned with,
if we are more concerned with things like total training
of volume, systemic overload,
then we may turn to something more like sleep.
There's a lot of information we can actually
get glaine from changes in sleep behavior and function.
You could also look at things like HRV,
heart rate variability,
which is a very classic marker, and much more sensitive to changes with training than
something like a resting heart rate, which is one thing you can actually do that's totally
cost-free. Just look at your changes in any elevation, resting heart rate over time, especially
more than three to five consecutive days. It is indicator, but HIV is much more sensitive
to things like training induced overload.
So that's a quick version of stuff
that we're gonna pay attention to.
The last one I would add there is simply motivation.
So if you're really training hard
and you like training hard
and you just like cannot force yourself to go anymore,
that and of itself can be a good indication of,
it's maybe not the day, maybe not the week.
With all of these things, you wanna be careful about overreacting to a single day measure.
Again, we need to look at at least a trend of more than three days.
Honestly, I'm looking at more than five days.
I'm going to pull back from that and think about what phase of training we're in, what
part of the year we're in, typically with our athletes, we're in the season, pre-season,
post-season, off-season, et cetera.
To make our decision about what we're going to do about it,
are we canning the entire workout,
are we doing a modified lower version, lower intensity?
My default generally, if hypertrophy is the goal,
remember, volume is the driver there.
So if I can, like can we get in, can we go real light?
Let's go to six out of 10, RPE,
so relative perceived exertion.
Maybe we'll reduce the range of motion.
Maybe we'll make it a little bit easier.
Maybe we'll go to machines or instead of going a squat,
we'll just do, you know, like extensions,
something like that.
But I want to still get enough volume in there.
That will keep you on target.
And again, even going at 50%, not to high repetition,
you know, 50% for a set of 10, three sets.
Just get a nice blood flow in there,
get it in, get it out, aid in recovery,
and then move on and come back the next day.
That's probably what I would do
rather than canning the entire session.
How do other forms of exercise combine
with hypertrophy training?
For instance, can I do cardiovascular training
for two or three days per week,
provided that cardiovascular training
is a low enough intensity
and not disrupt hypertrophy progression?
And can I do that cardiovascular exercise before
or after the hypertrophy training,
or does it need to be separated out?
The answer to this is really what we call the crossover interference effect.
It's really an energy management issue.
So the only time endurance exercise starts to interfere or block or hinder,
attenuate hypertrophy is in one of two broad categories.
Number one, total energy intake or your balance is off.
So you can emiliate this by just eating more.
If you do that, then the interference effect generally goes away.
The second one is you want to make sure you avoid exercise forms for your
endurance training that are the same working group and specifically the
eccentric portion. So for example, we see much more interference with running
on leg hypertrophy than we do cycling. Right? Less eccentric pounding and loading, less
damage, less things to recover from. The tissue seems to be totally fine. The only other thing
you need to worry about here is total volume of your endurance work. So if you're doing a moderate
intensity for a moderate duration, say 70% of your maximum heart rate for 25 minutes.
It's unlikely to do much damage in terms of blocking hypertrophy.
You're totally fine.
Can you do it before or after your workout?
It's probably not going to matter that much.
So pre-fatigue is okay for hypertrophy.
So if your pre-fatigue is coming from endurance, then you're totally fine.
Not a big deal.
Afterwards, cool.
You want to break it up into multiple sessions.
That's probably better.
So if you do your endurance work on a separate day, that's probably best case scenario.
If you can't do that, but you can break it up into two workouts.
Say you lift in the morning and then you do your quote unquote cardio at night.
Maybe that's second best.
Third best is doing it at the end of your lift and finishing it.
That's fine.
Just make sure that you're maximizing your recovery on all the other tricks we'll talk about later.
Make sure the calories are there,
make sure you're not doing a lot of eccentric landing
in that endurance stuff, and you'll be just fine.
And where does higher intensity cardio fit
into a hypertrophy program?
So higher intensity cardio, for instance, in my mind,
is getting on the assault bike and doing eight intervals of 20
seconds, sprints and 10 second rest in between, or perhaps going to field and doing some
bounds and sprints and things of that sort, not going all out, not running for one's
life, but getting up to about 85% of running for one's life.
So we have a lot less information on the potential interference or not of high intensity.
The stuff we do have suggested, it may actually aid in hypertrophy.
And that's because if you think about it, one of the potential paths to activation of
muscle growth is this metabolic disturbance.
You're going to get that a lot with the high intensity and your little thing.
So it's not a terrible thing to do.
I wouldn't do it to the level that it compromises your ability to come back and do your primary
training.
So if you're so fatigued, your legs are super heavy, they're depleted, you now have to
ingest extra carbohydrates to replenish muscle glycogen to be able to handle both recovery
and continue training, etc.
That could then lead to a problem.
But in general, we really don't see any reason why that is going to completely block or make it such that your training was going to
quote, quote, wasted or it didn't work.
And the fact actually, a very recent study came out where they had individuals perform
six weeks of purely aerobic endurance, steady state, long duration endurance.
For six weeks, I think prior to starting a hypertrophy phase,
compared that to individuals who did not do that.
And those folks that did these six weeks of just,
I think it was cycling actually,
just endurance work had more muscle growth
at the end of their hypertrophy training
than those folks that did not.
So this shows you very clearly,
there are a lot of advantages that come with being physically fit to growing muscle.
So folks that also have actually hit plateaus a lot. One of the things you may actually see some benefit from is actually doing a little bit more endurance work,
whether it's a steady state stuff, maybe it's the higher intensity stuff. Certainly if you're starting a training phase, it's a pretty good idea to do that.
And there's a number of physiologic reasons of why that's potentially occurring.
But the lowest hanging fruit here is weak sort of joke.
You know, like if you're so unfit that you're tying your shoes and you're warm up and you're
already breaking a sweat, you probably don't have enough fitness to do enough training
to get enough hypertrophy.
So that is in fact your limiting factor.
You're not recovering, you're super fatigued
and damaged and sore because you're so unfit.
So get fit first and then you can actually get more gains
a week later.
So you have to kind of kick the can down the road
for a few weeks, but 10 weeks later,
you'll be in a better spot than you were
by investing a little bit in your conditioning.
So as you pointed out before,
and I can only assume you're referring to me,
hypertrophy training is idiot proof.
Meaning there's a lot of leeway in the variables,
but not so much leeway that people can do anything.
It's bounded by these general principles.
So with your permission, I'm going to do a brief overview
of my notes based on your description
of the modifiable variables that
will direct somebody towards hypertrophy.
Keeping in mind this backdrop of exercise choice, exercise order, selecting appropriate
volume that sets and reps, training frequency, and needing some metric or way to have progression,
either by adding more weight or by more tension or more metabolic
stress and so on.
In terms of exercise choice, it sounds like the choice of exercises is not super critical
in terms of specificity, but that the ideal circumstances that people are targeting all
the major and, frankly, secondary and minor muscle groups, if you can even call them that, across their exercise choices,
that they're picking exercises that they can perform safely,
and that they can generate enough intensity
so that they're getting close to failure
without placing themselves into danger, right?
So, for some people, that might mean including large compound
free-weight exercises like squats and deadlifts
and bent over barbell rows, as well as isolation exercises.
And for some people, there might be a bias toward more isolation exercises and machines,
but of course, machines don't necessarily mean that you can't use heavy loads.
In fact, plate loaded machines like hammer strength machines will allow for quite substantial
loads. So picking two or three or more movements per muscle group
can be valuable, but that overall consistency is going to outshine variation in the sense
that you don't need to hit muscles with a different exercise every workout. Coming back to
the same thing has a benefit. And we heard about this in our discussion around strength and power as well.
Okay. In terms of order of exercises,
there too, it sounds like there's a lot of flexibility.
One could do the large compound exercise for, let's say, quadriceps and hamstrings
and glutes, first like a squat or a front squat,
or could deadlift for that matter.
But then if one deadlift did and primarily hit the glutes and hamstrings, then you might
want to target the quadriceps more directly with leg extensions or if one squatted and
was loading the squat bar, carrying the squat bar in a way that was predominantly quadricep
and less so glute and hamstring, then leg curls will be a good choice, etc.
Okay. Entrene your choice, etc. Okay.
And train your calves, folks.
Very important.
Unless you're a genetic freak, of course.
It's actually a good opportunity to say,
unless you're a genetic freak or you just have a genetic
predisposition, or you've done sports
and you have a genetic predisposition
that gives you very large calves that don't require
any training at all.
I know people like this.
They're somewhat rare, but they're out there.
And those folks sometimes want to stay away from or minimize their training. You told me that
even if you have a muscle group that's a hyper responder in terms of hypertrophy, getting at least one
or two good hard sets per week is good because you want to keep functionality in that neuromuscular
system. Love it. Okay. In terms of volume, again, we have a large round of
variation is what I'm hearing that the total number of sets per week is a
strong driving force of program design and selection that ideally you're
performing 10 to 20 and probably more like 15 to 20 sets per week and that
could be divided up across multiple workouts,
we're done in one workout, but that's 10 to 20 sets per week
per muscle group.
Not really taking into account indirect activation.
So that would be 10 to 20 sets, four biceps.
Your back work is gonna hit your biceps a little bit,
maybe a bit more depending on the exercise selection,
but it's really 10 to 20.
And given that hypertrophy
can still occur and maybe it occurs better with more volume, then don't include the indirect
work unless something about the architecture of your body and the inability to engage
certain muscle groups makes the pull up really an arm exercise for you.
Do I have that right?
The way that I would maybe define it is typically with movements we consider to be there
to be primary movers, secondary movers, and then tertiary movers, right?
If it is a primary or a secondary, I'm probably counting it.
If it's tertiary or less, I'm probably not counting it.
Got it.
So going back to our example of a pull up.
So an example of a pull up.
I probably wouldn't count the biceps in a pull up, but I would probably count the biceps
during a chin up. Would you count the rear deltoid of a pull-up, I probably wouldn't count the biceps in a pull-up, but I would probably count the biceps during a chin-up.
Would you count the rear deltoid in a pull-up?
Probably not, maybe.
It just depends, probably not though.
Okay, train the rear delto also.
That's only the reason I answered that, is because most people don't do anything for
the real delts anyways.
But they should, right?
Absolutely.
That's why I didn't want to count it.
I wanted you to go out of your way to make sure you did something specifically for the
real rear delts. For aesthetics and for didn't want to count it. I wanted you to go out of your way to make sure you did something specifically for the real it
Weird doubts for aesthetics and for functionality and for health and balance across the shoulder totally neck shoulder all of it
I'm so happy to hear you say this. I'm a huge fan of people doing rear deltoid work for all the reasons you described and
neck work for that matter
I think people forget that the neck is the upper part of your spine. Yeah, And for postural reasons and for stabilization and safety reasons, it's really critical.
But I think most people aren't familiar with how best to train the rear deltoids and neck.
And I know a number of people are afraid of getting a big neck, which for reasons that
are still unclear to me is referred to as no neck.
But let's leave out that, no neck comment for the moment. What are some good exercises for targeting the rear deltoids and neck safely?
That people can perform for stabilization and for hypertrophy.
Yeah, I would recommend people check out Eric Cressy. He's a wonderful strength edition in coach. He actually is, I think the director of pitching
for the New York Yankees now.
Is that spelled C-R-E-S-S-I-E?
C-R-E-S-S-E-Y, I believe.
And he's got a facility in, I believe, Boston,
as well as in Florida.
So he's very, very involved in pitching,
as well as hockey and things like that.
So he has so many free videos and resources
on so much of the shoulder girdle,
mostly because he's dealt with overhead
and throwing athletes.
So the precision required there is tremendous.
So you want to be very careful when you start playing
in this area because the wrong positioning of your scapula
can cause a whole bunch of problems in your neck
and low back.
And so he would be a great resource to go take a look wrong positioning of your scapula can cause a whole bunch of problems in your neck and low back.
He would be a great resource to go take a look at that.
Depending on how your scapulas are gliding and sliding and the way that you want your
rotator to come firing, your rhombloids, it's very complicated very quickly.
You want to learn more about that.
As a very, very quick couple of answers, One of my favorite exercises is lying on a bench or
putting some bench and then just doing a reverse fly, basically. The reason I like stabilizing
the rest of the body so you can make sure you can focus on just using those rear dual
toys and putting your scapulas in the right position. Now there's a specific set of queuing
that you want the scapula to move down and back for. Again, check out Eric or any number of
folks in that area to do it.
But that's a very simple way, the reverse flight,
to get there.
Great.
And then in terms of neck exercises,
I was told to avoid bridges because they can cause damage
to the discs as that.
I will probably never do it,
whichever the rest of my life.
So isometrics are a great exercise for that,
because if you think about what you're asking
muscle groups to do.
And the neck, you mostly want it to be able to do a certain
type of rotation, a little bit of flex and extension
and some other movements.
But in general, it should be being stable.
So you want to walk through these joints,
asking kind of what they do.
Are they a moving joint?
Are they a stability joint?
In this case, you want it to do there.
So isometrics are going to put you in a much better position.
There are some actually pretty cool devices that you can wear and you can put them on your
head and you can do all kinds of movement and get some great training there.
Those are great stars.
But if you don't have any of that, just basic isometrics are a great way to go about it.
Neck bridges would not be on that list for me.
No neck bridges, folks.
In terms of sets and repetitions, we briefly touch on this, but anywhere from, I believe,
six repetitions all the way up to 30 repetitions, but probably more in the eight to 15 repetition
range for hypertrophy.
Most of the time, yeah.
And I'll just throw in there because I love this idea that if you want to get a relatively balanced adaptation
related to strength and hypertrophy, that seven to nine range, the no man's or then no
woman's land of training repetitions.
I always joke in class.
I'm like, okay, we go to the whole thing, right?
You're like one to five strength, eight to 12 hypertrophy, and you're like, great.
And then I'm like, okay, so six to nine means nothing will happen at all. In the case of just like writing it down, like,
right.
Good way to for everybody to remember that there are adaptations triggered in the six to
nine rep range and it's a balance of strength and height. You'll just get thrown out of
any gym that I'm a part of.
Fantastic.
You do that. So, but the important point is to get close to failure and occasionally hit failure.
Maybe occasionally throw in a forced repetition or a rest pause where you rest and then do
a few more or something like that, but those intensity increasing maneuvers will require
a little bit more attention to recovery, either time or attention in some other way.
And here's a little bit of care, I'll throw up people. Because people generally don't like to be told
to not go to failure that often, right?
So there's a handful of, like half the folks are like sweet.
I don't have to train that hard to get there.
And those folks, it's like, well, yes.
But I also said you just can't like do a half workout.
You have to get pretty darn close to failure.
And most people don't really know what failure means.
So for that group, it's actually,
it's still probably harder than you think you want to train. The other group, though, like
wants to completely blow themselves out every single time, dragging them back is more
the key. Now, for those folks, here's what I can say. If you make sure that you're hidden
the stressors and visible stressors are completely taken care of, you can go to failure
a lot more often. And so you need to dial those things in,
and then now you can go hammer yourself because you'll recover so much quicker.
And we see this very commonly in all of our programs with our athletes and our non-athletes
that when we get that the rest of the hidden invisible stressors taking care of,
their training volume goes up so much because they'll just start coming back and then it's like,
oh my god, I'm not so anymore. Oh my god, I'm not nearly a sore.
I mean, did this exact workout countless times before
and now I'm doing it and I'm not sore all anymore.
What the hell?
Like, we didn't do anything different
with the programming or really the nutrition,
but we got the rest of that allostatic load
under control and boom, things take off.
There's a lot like drivers.
So many people seem to be riding the brake
and so many people seem to be heavy on the accelerator.
Yeah, that's actually one of the ways we describe it. It's like you want to go faster. People's
inclination step one is to hit the gas. Our our step number one is making sure your left foot's
not on the brake. You'll go faster with less resistance, which means you'll actually wear down
the system a lot slower by just taking your foot off the brake first. If you're then not going
fast enough, now we can push the accelerator. But I'm not pushing that accelerator
while your foot's still on the brake.
You're gonna go a little bit faster,
but not as fast as you should be going with that much work,
and you're gonna start wearing down brake pedals
and things like that.
So I like that analogy.
So hitting that 10 to 20 sets per week,
repetition range is pretty broad provided.
You get close to failure, hit failure every once in a while, could be the final set of checks or size or maybe do one workout where you
hit failure on everything, but then you don't do it for a few more. Again, there, it sounds
like there's a lot of play in the system here. Rest ranges anywhere from 30 seconds all
the way up to three or four minutes, depending on how heavy you're training and how close
to failure or to failure, maybe even quote, quote, unquote, beyond failure. If there is such a thing, you're training, um,
throwing in negatives and things like that. We didn't get into really high intensity techniques,
but people, again, very in extent to which they're pushing the system, but
there does seem to be some value to mixing up the rest between set ranges across exercises
and across workouts,
but you could combine them all in the same workout
as what I heard.
And then in terms of progression,
it sounds to me like the goal with hypertrophy training
is not necessarily to add more weight to the bar,
although that's one way, one could do it,
but that the progression actually can arrive
through this really extensive
kit of changing the speed of movement, changing the number of sets, adding some volume, maybe
changing the split so that you go from a three-day week full body workout to more of a body
parts, one or two body parts per day, every other day or two on one off it.
Any number of different variations that are out there.
Sounds like all of these can and will work, provided that people are obeying the general
principles of this hypertrophy adaptation-inducing protocol that you described, and that they
are meeting the necessary but not sufficient variables as well, such as sleep, nutrition, and managing the stress in the rest of their
life.
Do I have that correctly?
Yeah, that's really, really good.
One more thing I'd like to add is this is a situation for hypertrophy in which there
are some exercises that I actually don't think are good ideas.
So I want to make sure we included those in the conversation.
That's not necessarily a case for strength. You can really do kind of whatever one you want.
And that is specifically plyometrics.
Although, in fact, if you look at,
there's a recent review paper came out showing
that plyometrics are effective as well.
For example, it's like one can do almost anything
as long as it falls within this parameter set.
The concepts for you and the methods are many.
And the methods for hypertrophy are many, many.
In general though, plyometrics are not my first second
or even like a hundredth choice for hypertrophy.
They, if they're a part of a total training program
and you get some of my hypertrophy as a result,
cool, you're lucky.
Not the first place I'm going on.
The other major category are weightlifting variations.
So then when I'm saying weightlifting,
I mean specifically Olympic weightlifting as in snatch, clean and jerk,
and their variations. Those are just not a good exercise choice. It's not that they don't work.
It's just the risk, the benefit ratio starts to fall pretty fast in the negative favor.
And so it's not worth doing sets of 10 of a snatch unless you're in a sport where that's
like the competition or whatever. But if the goal is simply hypertrophy, choose different exercises than that.
Great.
Now I realize that we are going to do entire episodes related to nutrition, supplementation,
recovery, et cetera.
But I'd like to just touch on two or three specific topics and questions that come up
a lot around the question of hypertrophy specifically, and that probably also relate to
strength training and training for speed. So I'm going to ask these in not rapid fire.
Sure. I'll give you shorter answers. So I'll ask these questions now, but with the caveat that
we will get into these topics in much more depth very soon. The first question is about the use of cold showers
and ice baths and cold water exposure,
which I know many people use for resilience training
to increase their dopamine, which it does,
and for recovery.
But there's also this issue of when one should use cold,
that is deliberate cold exposure,
relative to hypertrophy training specifically.
And that's because I've heard that if deliberate cold exposure
is done too soon after I have hypertrophy adaptation
inducing workout, all the sorts of things
we've been talking about, that the hypertrophy response
can be blunted, reduced or eliminated.
Is that true? we've been talking about, that the hypertrophy response can be blunted, reduced, or eliminated.
Is that true?
And if so, when could people do deliberate cold exposure, while still also including hypertrophy
training in their program, and still get hypertrophy?
Great.
So, you know I'm a lover of the cold.
I still have a deep freezer in my house that is filled with water at all times that I
plugged in and is a frozen chamber, right?
I still do the old-school style of it. Please unplug it before you get in it each time. Oh, yes
Absolutely, and then don't do it by yourself so that the lid can close on top of you and then we don't see you sort of ever again
Hanas the Han Solo effect. It's time for me to upgrade me one of these new fancy ones, but I've been using this for so many years
So I love it
Obviously, I've been involved with XBT and Gabby and
Laird and Brian McKenzie and these folks. So I've been doing this stuff for a
long time of but I don't even know how many hundreds of folks into the ice and
then a lot of reasons. So there are a lot of benefits and we could talk about
those later. However that that being said, it is very very true. You do not want
to get in the ice post-hyperture training. You wouldn't want to do that immediately
after the workout. You probably don't want to do in the ice, post-hyperturgy training. You wouldn't want to do that immediately after the workout.
You probably don't want to do it before the workout,
and you probably don't even want to do it that same day.
It's just not worth it.
It will blunch hypertrophy.
And specifically, we've talked earlier about
what's driving muscle growth is that signaling cascade
through that gene expression,
through that muscle protein synthesis.
Cold exposure blocks that signal.
Remember, adaptation comes from stress.
You've put in a stress run, now you've blocked that stress, you've literally blocked this signal
that tells your body come back and grow larger size. So not a good idea to do it. If you're
trained for some other purposes, maybe strength, maybe there's an argument there, although maybe not.
For speed and power, maybe you can get away with it.
Endurance may be a separate conversation.
If you're in season, I have no problem using it
immediately after a game.
The goal is entirely different.
Even if we did a hypertrophy type of training program,
we're not doing it, try to maximize growth.
In that particular case, our priority for recovery
is higher than our priority for muscle growth,
so we choose optimization in that category.
You can only make those choices though,
when you truly understand what is the goal for the day,
the week, the month, the phase of training,
and really what part of the year you're in.
We have that all plotted out for all the people we work with.
So I know when we want to choose one over the other,
it's not a, this is the choice you always make,
the situation, that's not how we operate. We need more precision than that. So that being said, we're generally
not going to do it. If we want to do a lot of icing during a phase in which we're using
a lot of hypertrophy, we're going to do a couple of things. Number one, we may just not
use it. So there are phases in our training where I don't want to maximize recovery. I'm
not going to give you any tricks here. I'm not going to do ice or any of the other methods we're going to talk about.
Why?
Because the whole point is to cause overload.
That's what's going to be the stimuli to cause adaptation.
If all I'm doing is blocking that stuff, attenuating it, smashing it back down, I'm
undercutting myself.
I'm choosing to feel a little bit better, to have a little bit better performance right
now, knowing that's going to compromise the results,
I'm going to get six, eight, 10, 12 weeks from now.
So I'm not gonna choose it at all.
In reality, if it is,
if I really am trying to maximize hypertrophy,
I'm probably not doing any ice work
through that whole phase.
Maybe like my off day.
I know that's similar to a setup you have,
like one day a week when I'm not training,
we'll jump into some ice, maybe even do some hot cold contrast.
I love the XPC protocol. It's, you know, we've probably talked about it before. That's a great setup.
Or does not do it at all, right? It's just not something we need. When we move into another phase of training,
where we're trying to maximize adaptation or maximize the result and get the benefit of that training,
now we're going to hedge more towards recovery and we're going to bring in some of these
strategies and techniques and not worry about causing the most stimuli there because we're
trying to attenuate or we're trying to actualize the work we did six, eight, ten, twelve
weeks before.
What about cold showers?
Do those have the same hypertrophy blunting effect as well?
In general, no.
In general, you can do cold showers.
That's not going to be a problem.
You're not going to be in there very long,
and you're not going to get nearly as cold as you will submerge
in 30 degrees ice water, like the way that we do it, nonetheless.
So I have no problem standing in the shower for a couple of minutes,
using it for other reasons if you want to.
That's no issue.
I'd like to talk a little bit about nutrition and supplementation
as it relates to hypertrophy.
Dr. Lane Norton, who's been a guest on the Hewerem and Lab podcast and we both know throughout
a number range related to protein intake on the backdrop of how much protein synthesis
can occur by meal across the day, et cetera.
A lot of research done there and some important work by him in particular.
And then the value that he threw out was 1.6 grams per kilogram of body weight
being the lower end of the range up to, I believe, is it was as high as 2.4,
maybe even as high as 2.7 grams of protein per kilogram of body weight per day.
That's a pretty broad range, but it's on the higher end of what I think most people think
of in terms of protein intake.
And then again, some people might already be right there or maybe even above that value.
Of course, this all depends on whether or not people are omnivore, vegan, meat based,
et cetera.
We won't even go there.
But assuming people are getting enough protein per day,
so somewhere in that range, and they are spreading out
that protein intake to accommodate the fact that the body
can only assimilate a certain amount of protein
in any given sitting, what do you like to see people ingest
at some point post hypertrophy inducing
workout in order to
get
the protein synthesis
Advantage if you will yeah, that is stimulated by that workout
Earlier you mentioned the you know the post-training feeding window that you know in the 90s and probably earlier people talking about
Oh, you know within the first 90 minutes, you have to get 30 minutes for a while.
Yeah.
30 minutes of, excuse me, a certain number of grams of carbohydrate and protein, et cetera.
I think now the understanding is that that window is much broader and how broad, et cetera,
is still a matter of debate.
But when somebody is training specifically for hypertrophy, assuming they are getting
enough protein
from quality sources in their other meals and assuming that their overall macronutrient intake
and caloric intake is high enough, that is they have enough of a caloric surplus that they
have the raw materials for hypertrophy, what do you like to see people in just at some some point, post-workout in order to facilitate
muscle protein synthesis and recovery?
This could include nutrition and supplementation, or if you want to divide those, answers out,
feel free to do so.
Okay, great.
So, ton of work came out of Don Laman's lab, which is actually a Lainz mentor, as well as
Stu Phillips at McMaster.
So, a ton of work there, and we can answer a number of things here.
So Lane's numbers that he recommended,
also known as about a gram of protein per pound of body weight.
It's a great start.
Now, once you slide below that,
one gram per pound.
Right, and earlier,
which is also making sure,
because we're changing units here,
it was 1.6 grams per kilogram of body weight,
all the way up to you. I think it was 2.4, but maybe it's highest 2.6 grams per kilogram of body weight all the way up to you.
I think it was 2.4, but maybe it's highest 2.7 grams of protein per kilogram of body weight.
So 2.2 in that unit would be the same thing.
So 2.2 grams per kilogram is the same as 1 gram per pound.
So depending on which or you're listening to this at one of those maybe easier than the other for you.
If you start getting below that number, now you do start running into questions of
protein quality, protein type, and protein timing.
This is one of the reasons why I actually fully agree with Lane is just get that number
higher than you think, and then all those other variables don't matter.
If that number is low, then you need to start paying attention to a bunch of other stuff.
You've added now complexity to your program, things you've got to pay attention to.
Just stay high and you need to it doesn't matter.
And so you can just leave a lot of those things off the table.
That seems to be fairly clear in the work of some of those gentlemen I just mentioned
that as long as you get to that total number, the question about timing and types and quality,
it seems to matter a lot less.
In fact, a stew's recent work in non animal-based proteins, it really
showed that to be fairly clear that those are quite effective, assuming total protein
intake is high enough. The amount of loose scene and other amino acids in those actual
proteins matter less if the total threshold is just super high. So just do that and you're
fine.
Now the other caveat we have to say here is timing of macronutrients seems to be somewhat
irrelevant for protein, but that is not the case for carbohydrates. So that timing does Another caveat we have to say here is timing of macronutrients seems to be somewhat irrelevant
for protein, but that is not the case for carbohydrates.
So that timing does matter.
Replenishment of muscle glycogen is very specific, and you want to make sure that that is around
a lot if you're doing either maintaining training quality or you're sliding into endurance
type of work.
Nutrient timing does matter with carbohydrates, maybe less so, but protein is certainly less
so with protein if the total protein ingestion is high enough.
It depends on what we're going after in terms of a training goal and where we want to get
where all these things.
In general, the way that we like to think about this is if you're doing a strength type
of work where you're truly targeting that, then a one-to-one post exercise,
protein to carbohydrate ratio is generally
what we're gonna go after.
So this would be something like 35 grams of protein
and 35 grams of carbohydrate.
It doesn't have to be post,
it can be pre or my favorite is actually mid or post,
but somewhere in that range,
especially if you're training in the morning
and you have not consumed anything prior to your workout.
And that's not necessarily eating in the middle of the workout that's drinking calories.
Yeah, it's going to be a...
I see someone eating a sandwich on.
In the gym, although I'm sure it's happened.
So one to one is that like sort of standard number here.
If you're going to do sort of more of a really hard conditioning workout, that number slides
up to something like three or even four to one, which would be carbohydrate
to protein ratio.
So if we wanna stay at 35 grams of protein,
we're gonna go maybe as high as like 100
or 140 grams of carbohydrate,
and depending on what type of training we're sort of doing.
If you're gonna do a little bit of a combination,
then you, like a little bit of strength,
a little bit of conditioning,
and kind of a standard workout,
which is probably something that a lot of people will do,
then you maybe want to go to something like two to one.
So, you know, 35 grams of protein, 60, 70 grams of carbohydrate.
And those are just kind of just like rough numbers
that you can go by.
And for pure hypertrophy training,
would you like to see people ingest
from carbohydrate post training?
For pure hypertrophy training,
I want to see that as many of those nutrients
around the training is generally possible.
Now, again, I may change my mind
when our fasting study comes out,
but as it stands now,
there is no advantage to not fueling around the training.
And there are some known
and some other potential advantages to fueling.
So I just see no reason to not do it.
In fact, most people are generally going to do better.
Now, this is not science.
This is just my coaching experience.
And this is with our athletes and all of our non-athletes that we've worked with and
do work with.
They're just going to be better spreading those meals out generally throughout the day.
And they're going to be better if they have those nutrients either pre-mid or post. And so they're going to get even for hypertrophy, they're going to get something
like that one, three to one ratio of carbs to protein. Personal preference. Some people don't like
the before they train. Some people have to eat before they train. Some people can't, you know,
put in food in their belly immediately after work around that. You can play based on personal
preference, but we want that fueling in there because we want to maximize the potential growth and we
want to just get a jump start on recovery because we're going to be training again pretty
soon.
Supplementation is a huge topic and one that we will go into in great depth and soon to
occur episode. But if you had to pick one supplement that can benefit most everybody,
if not everybody, for their training directed toward strength, power, and hypertrophy,
what would that supplement be, and how would you like to see people use it, meaning how much
should they take, and when should they take it? Sure. If you don't count protein and carbohydrates
as supplements, they technically are, but we'll
just walk out of it.
Right.
Sorry.
I should be more specific.
I'm not referring to non-food form protein and carbohydrates.
So powdered protein and powdered carbohydrate, et cetera, it technically are supplements.
They're highly processed, but they're, but I'm not including that.
I'm referring to non-macro nutrient type supplement.
Yeah.
Does testosterone count?
Well, in the context of this discussion,
it's testosterone that people are manufacturing themselves.
Oh, okay, the cheating kind, the endogenous kind.
No, I mean, Cretian is the answer here without question.
It is the most well studied, it is the most effective, and it's benefits are robust,
meaning they're going to confer positive adaptations across multiple physiological domains. So we
could certainly have a very long chat about some of the interesting things that people, in fact,
we just had Daring Kandow on our Barba Shrug podcast, and he went into extensive detail about all the benefits of creating that people have no idea about
Including things like bone mineral density. You asked about that earlier
It's it creating is actually fairly effective for that. Let alone the thing the benefit and things like cognitive function decision-making memory
The work that there's being done there for
neurological disorders
Depression a whole host of things that that creatine is being studied for.
Some of those studies show a lot of benefits, some of it show maybe a little bit, some
none, but there's just a lot of things creatine can do.
So when we can talk about muscle recovery or muscle hypertrophy, that's where the bulk
of the research is and is very effective.
In terms of type, creatine monohydrate is still the best one.
And that's just because it has the largest evidence space.
You can maybe make some margamists for some other types, but you're really going to reach
saturation pretty quickly within a matter of weeks and there.
Add a dose to the gym anywhere between like 3 to 6 grams per day.
Now 5 grams is the very standard number we give. Reality, we're going to have to pay a lot of money for the amount of money
we have to pay for the amount of money
we have to pay for the amount of money
we have to pay for the amount of money
we have to pay for the amount of money
we have to pay for the amount of money
we have to pay for the amount of money
we have to pay for the amount of money
we have to pay for the amount of money
we have to pay for the amount of money
we have to pay for the amount of money we have to three for the smaller, a girl boy doesn't matter, just physical size.
If you're one of our 275 or 330 pound offensive right tackles
and the NFL, you're not gonna get the same dosage as everybody else.
So that number's gonna go up to 7, 8, 9, maybe even 10 grams today.
So that's this kind of a scale.
In general, if you wanted an easy answer,
five grams is the standard.
Taking after training.
The timing doesn't matter, totally irrelevant.
Take it in the morning
breakfast, take it at night, take it anytime you want, take it pre. We tend to put it in a lot of
people's workout shakes just to make sure they get it in the day. But the timing is irrelevant.
Great. Well, thank you for that very informative answer. And I look forward to
much more discussion about nutrition and supplementation and recovery and all the rest in the episodes to come. This was incredibly informative. Thank you so very much.
I appreciate the opportunity. I had a great time doing that. I love talking about these things. I also really like talking about what we're going to get into in our next conversation, which is the physiology of endurance, metabolism, and phallus. If you're learning from Endor and join this podcast,
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Thank you once again for joining me for today's discussion about fitness, exercise, and performance
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And as always, thank you for your interest in science.
you