Huberman Lab - GUEST SERIES | Dr. Andy Galpin: How to Assess & Improve All Aspects of Your Fitness
Episode Date: January 18, 2023In this episode 1 of a 6-part special series, Andy Galpin, PhD, professor of kinesiology at California State University, Fullerton and world expert on exercise science, explains the 9 different types ...of exercise adaptations that can be used to transform the functional capacities and aesthetics of our body, and benefits each adaptation has for our health. He explains the best evidence-based protocols to optimize your progress in building strength, endurance, muscle growth, flexibility and for optimal recovery, and he provides zero-cost and low-cost tests to assess all aspects of your physical fitness. This episode provides a foundation and tools for establishing a comprehensive assessment of your current fitness level, allowing you to select the ideal fitness programs to implement toward your goals. Subsequent episodes 2-6 in this special series explain goal-directed protocols to reach those goals. For the full show notes, visit hubermanlab.com. Thank you to our sponsors AG1 (Athletic Greens): https://athleticgreens.com/huberman LMNT: https://drinklmnt.com/huberman Eight Sleep: https://eightsleep.com/huberman InsideTracker: https://www.insidetracker.com/huberman Supplements from Momentous https://www.livemomentous.com/huberman Timestamps (00:00:00) Dr. Andy Galpin (00:02:04) Assessing Fitness (00:05:40) 9 Exercise-Induced Adaptations (00:10:56) Assessing Fitness Levels per Category; Fat Loss & Health (00:13:33) Sponsors: LMNT, Eight Sleep (00:17:20) Lifetime Endurance Training: VO2 Max & Other Health Metrics (00:26:10) Genetics vs. Lifestyle, Endurance Training & Identical Twins (00:33:49) Aging, Muscle Fibers & Exercise (00:37:12) Lifetime Strength Training & Outcomes (00:39:58) Sponsor: AG1 (00:40:51) Exercise Physiology History; Strength Training Popularity (00:51:26) Bodybuilding & Misconceptions; Circuit/Group Training (00:57:22) Women & Weight Training (01:04:19) Exercise Physiology History & Current Protocol Design (01:06:15) Sponsor: InsideTracker (01:07:18) Movement/Skill Test (01:12:38) Speed Test, Power Test (01:18:42) Strength Test (01:27:16) Hypertrophy Test (01:29:38) Muscular Endurance Test, Push-Up (01:36:23) Anaerobic Capacity Test, Heart Rate (01:39:29) Maximal Heart Rate Test, VO2 Max (01:42:42) Long Duration Steady State Exercise Test (01:44:00) Fitness Testing Frequency & Testing Order (01:52:44) VO2 Max Measurements (01:58:04) Protocols for the 9 Adaptations (01:59:58) Zero-Cost Support, YouTube Feedback, Spotify & Apple Reviews, Sponsors, Neural Network Newsletter Disclaimer Title Card Photo Credit: Mike Blabac
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's episode marks the first in a series with Dr. Andy Galpin.
Dr. Andy Galpin is a professor of kinesiology at Cal State University Fullerton and one of the foremost world experts
on the science and application of methods to increase strength, speed, endurance, hypertrophy,
and various other aspects of fitness, exercise, and sports performance.
Across the six episode series, Dr. Andy Galvin pulls from his expertise working with everything
from professional athletes to recreational exercises and teaches us the mechanisms, logic, and specific
protocols for how to achieve any of the number of different
exercise adaptations that I mentioned a moment ago,
ranging from strength to endurance, hypertrophy, and
everything in between.
We get really far into details, but at all times, paying
attention to the macroscopic issues, that is how to create a program for endurance
or strength or hypertrophy or speed or one that combines all of those. We also talk about supplementation
and nutrition and how to maximize recovery for each of the different types of exercise adaptations.
During today's episode, Dr. Galpin teaches us how to assess our level of fitness and more generally
how to think about fitness so that we can best achieve our fitness, exercise and performance goals.
Dr. Professor Andy Galpin.
I'm super excited to have you here.
You're such an immense treasure trove of information on physical training and optimizing for specific
goals and outcomes with physical exercise.
I'm curious, however, so many people have different levels
of fitness.
Some people are professional athletes, of course,
but most people are not.
Many people exercise regularly.
Some people are trying to do that more.
Some people are doing too much of that.
They're overtraining.
They're not recovering enough.
If we were to take a step back and each and every one of us ask, how fit
are we? With the word fit, of course, being a very broad and composing word, you know,
couldn't encompass endurance. Certainly it does strength, the ability to run fast, even
if for short distances. It might even include hypertrophy or directed hypertrophy,
trying to balance one's musculature, to offset asymmetries, recover from injuries, etc.
How should I or anyone else for that matter? Think about their level of fitness. I know my
resting heart rate, but what do I do in terms of really assessing whether or not I'm as fit as I could be and should be,
both for sake of health and performance. And here I'm asking you the question not as an athlete,
but as somebody who's been pretty consistent as an exorciser. But if we were to throw our arms
around this question of how do we assess our fitness, What would be sort of the different levels of assessment that we should think about and
do?
When it comes to exercise, people generally have two major goals in mind.
Gold number one is achieving some sort of appearance.
This is, I want to be big or I want to not be too big or I want to be lean, something.
It doesn't matter what that goal is, but there is an aesthetic component to almost everybody.
They want to look a certain way or not look a certain way.
The other one is functionality.
So I want to be able to perform a certain way.
Now again, that definition differs per person.
So I want to be better at strength.
I want to be better at mobility.
I want to be able to have energy throughout the day.
Whatever it is.
So there's some sort of appeal to aesthetic
and there's some sort of appeal to functionality. So within both of those categories, we want to be in a position where we can understand
where do I need to go with my exercise training so that I can be as fit and as healthy and
achieve these goals that I want now, as well as being a position where I can maintain
them for a long period of time.
So this blends both immediate
goals. So say you're just interested in squatting a lot of weight. So you're interested in running
a 5K time the best you want. It doesn't matter. It blends that with the ability to desire to have a
long wellness span, to be fit throughout life to achieve all those things for as long as possible.
So then the question kind of comes back to saying, how do I know which area I need to focus on the most?
And why am I not achieving these goals,
or how can I get there more effectively?
And if we look at the big picture,
we have to understand that there are several major components
to physical fitness that are going to be required
in all of these categories.
And to achieve that, there are a handful of components
that have to happen to be able to hit those goals.
Now, there are infinite methods.
So the saying we actually use here a lot is
the methods are many, but the concepts are few.
So what I'd love to do today is over the course
of our discussion is hit exactly what those concepts are
and then cover a whole bunch of different methods
and we could do that for hours.
But we'll cover a number of them for various goals.
So one of the reasons I went into neuroscience and not into exercise science is because
of this thing, neuroplasticity, the nervous system's ability to adapt.
But the more time I spend with you and the more I learn from you, I realize that many,
if not all of the organ systems of our body, have this incredible ability to adapt.
And when we're talking about physical exercise,
there are incredible adaptations that, of course,
involve the nervous system, but also involve muscle
and connective tissue and so many other cell types
and tissues.
That said, when we talk about fitness,
what are the major types of adaptations that underlie this
thing that we call fitness?
And later I know we're going to get into how different forms of exercise can trigger
different types of adaptations.
But what are the major adaptations that one can create in their body using exercise?
There are many reasons why one should exercise.
And we could perhaps cover that later in our chats.
But the physiological adaptations can be bucketed really in a nine areas.
So the very first one is what I call skill or technique.
So just learning to move better more efficiently with a specific position and timing and sequence,
or whatever that is, this could be running more effectively.
This could be practicing a skill,
like shooting a ball or an implement,
swinging a golf club, anything like that,
I call that skill development.
The second one is speed.
This is simply moving at a higher velocity
or with a better rate of acceleration.
Okay, that's very similar to the next one,
which is power, and power is speed multiplied by force.
The next one, then of course, on top of that,
is force or strength.
Those are really synonymous terms, right?
How effectively can you move something?
Now, this is often confused, strength rather,
as a muscular endurance.
So what I mean by that is, strength truly
is a marker of what's the maximum thing you can move
or it's the maximum amount of force you can produce one time.
It's not how many repetitions in a row you can do.
That's actually another one of our adaptations
called muscular endurance.
All right, so that is typically under the order of like,
say five to 25, maybe 50 repetitions.
Think of a classic, how many push-ups can you do in a row classic, how many pushups can you do in a row?
How many sit-ups can you do in a minute?
Like things like that are muscular endurance.
Muscular endurance tends to be localized.
So this is specific to just say your triceps
and your deltoids.
It's not a overall cardiovascular endurance marker
or anything like that.
So that's strength number four.
Number five is muscle hypertrophy.
And this is the first time now we're talking about
an appearance rather than a functional outcome.
So moving better, moving faster, moving heavier
are indicators of how well you can move.
This is the first one that's just simply
how big is your muscle,
and that's muscle hypertrophy or muscle size.
After that is muscle and endurance.
So this is how many repetitions you can typically do of a movement.
So think of how many pushups in a row you can do, how many setups in a minute you can
do, things that are typically in like five to 50 repetition sort of range, and it is
often, or it is almost always, local muscle.
So what I mean by that is, it is, I don't know,
push up tests is really how many reps
that your triceps and pecs and deltoids can do.
It is not a cardiovascular endurance,
it is not a global physiological endurance,
it's specific to typically one or a few muscle groups
at a time.
This is why you have to do multiple tests
for a sort of every group there.
After that, now we've moved into number seven, which is what I call anaerobic capacity.
This is more synonymous with maximum heart rate.
And now we're actually looking at rather than a single movement or muscle group,
it is a total physiological limitation.
So it is the maximum amount of work you can do in say 30 to 45 seconds, maybe even up to 120 seconds of all-out work.
Think of your classic interval type of stuff here. So how much work can you do at a maximum rate where you're gonna enter
tremendous amounts of global fatigue?
The next pass that is
maximum aerobic capacity and this is probably something like in the 8 to 15 minute range,
where you're going to reach probably both a maximum heart rate,
as well as a true VO2 max, which we'll talk a lot more about what that is later.
So that is different from the previous one where you can't reach this in a matter of seconds.
It simply takes multiple minutes to get to a position to where your VO2 Max is actually going to be
sufficiently challenged or an indicator there. And then the last one, number nine, is what I call
long duration. And this is just your ability to sustain sub-maximal work for a long period of
time with no breaks, no reduction whatsoever. This is often called steady state
training or a lot of people just think of this when they think of quote unquote cardio, but your
ability to continue movement without any breaks or change or drop is the last and final adaptation.
And for long distance steady state, I'm guessing it exceeds 15 minutes because the previous one was 8 to 15 minutes or so.
What sort of time ranges are we talking about in terms of this long duration?
Well, that's actually wonderful.
You're going to be anything past 15 minutes.
So really, if you look at a kind of a minimal number there, it's generally 20 minutes of
what we're looking for.
But a more typical would be 20 to 60 minutes.
But anything past that would still be limited by your long duration endurance. So your ability
to sustain work over time.
Okay, so given that there are nine different major adaptations
that can be induced with exercise of specific types. Is there
any one global test or assessment that people can take or do
that allows them to determine what level of ability, of fitness
they have in each and every one of these nine different categories.
There are probably dozens or more tests that you can do for each one of those nine categories.
And what I would actually like to do is walk you through my favorites for each and giving
you both the scientific gold standards.
So if you had the ability on limited resources, what should you go do?
As well as some that are equipment free,
that are cost free, things that anyone can do
across the world.
In addition to that, I want to walk you through
what those numbers should be.
How do you identify if you're really poor in something
or if you're great?
And then if you aren't as good, maybe in a category,
and you want to get better at it, exactly what to do
in terms of protocols for how to achieve optimal results in each of those steps.
So I noticed in your list of the nine different adaptations to exercise, that you did not mention fat loss or health promoting benefits, which are two reasons that a lot of people exercise.
Was there a specific reason that you did not mention those? Absolutely. It's because those things are actually not specific training styles.
They are byproducts of these nine.
So what I mean by that is if you understand how fat loss occurs, which we can certainly
talk about, you'll realize some of these nine protocols are effective for fat loss and
some are not.
General health is the same thing.
When we understand what it actually means
to be healthy from a physiological perspective,
then the rationale for what to train for
is going to determine itself.
So what I mean is, looking at things like
in order to be healthy, you have to have sufficient strength,
you have to have cardiovascular fitness,
you have to have sufficient muscle,
etc. Therefore, training for one's health is determined by those restrictions. So for you, Andrew, you may need to do more strength training to be healthy. Where me, because I'm strong,
already way stronger than you, I may not need to do as much strength training. So our quote-unquote
health-based protocols are based on our current
status or limitations in physical fitness among these nine areas. So what I would like
to do today is to cover a brief history of exercise science. And the reason is it's
going to explain a lot about why people are not getting the goals in their exercise programs
that they want, as well as give you very specific direction
about what to do instead.
I can't wait to hear all the things
that I'm doing incorrectly
and to have you help me remedy that.
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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First of all, as I mentioned,
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If you'd like to try the various supplements mentioned on the Hubertman Lab podcast,
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the history of exercise science informs the mistakes that we are all making and how to remedy those mistakes, I'm curious as to whether or not you have any
favorite one or two studies that point to a sort of naturally occurring example of how
people can become very fit in one area and not another.
You know, I'm familiar with seeing endurance athletes that apparently have terrific endurance,
but at least to my eye,
don't look like they are particularly strong.
I'm also familiar with seeing individuals
that are very, very strong, particularly on social media,
but that don't look like they could walk up a flight of stairs
much less run a mile.
Do you have any examples of studies in or outside the laboratory
that point to that in a concrete way?
There's a lot to have to discuss here, but I'll answer it really clear.
If you look across the literature, and this is actually back to as early as the mid-1950s,
in fact, it actually goes back to previous to that, to the Harvard fatigue lab,
1927 to 1947 area. People actually were advocating at that point a combination of strength training and endurance.
In the 1920s.
Way back then.
In fact, it actually goes prior to that, the late 1880s, there's scientific evidence back that.
It became more well developed in the mid-1950s and 60s.
In fact, there was the initial stages of what's called the exercise as medicine movement,
which is the movement now, but the initial stages of that actually root back
to the 1950s.
And I could actually go into that whole discussion
and the story of how that all came about.
But that's the health as wealth.
Monter, that came from the 1950s,
from the scientific community then.
All those data points are going to suggest
you need a combination of some sort of broad strength
training and broad endurance. Now, if you have a specific goal five months from now, you want to compete in a race or hit a
certain physique thing, that's fine to focus on one area of training. Certainly, if you're an athlete,
that's different. But if you want to maximize health and overall functionality throughout time,
it needs to be a combination. And to really, really highlight this, like I can actually talk about
a couple of studies that I've done. One of them we actually did in Stockholm, Sweden. So I did this
at the Careless Institute, which you probably are aware of. It's actually one of the founding
places of all of exercise physiology. Generally, it started there. It was called something different
back then, but really our entire field came out of Stockholm in the Careless Institute. And we worked
with a whole bunch of cross-country skiers that were in their 80s and 90s.
And so they were competitive skiers in the 1940s and 50s, and they had been skiing competitively for that entire duration.
So you're talking 50 to 60 consecutive years of competing.
So there's 80 to 90-year-olds living alone and healthy, and we compared them to a group of individuals here in America
who are the same age, but we're not exercising.
And what we wanted to do is to see and kind of look at
what are these lifelong endurance individuals?
What do they look like?
When we brought them in the lab,
which is, by the way, amazing to do a VO2 max test
on a 92-year-old, especially in a language
that they don't speak, you can imagine you're doing this in the hospital, right?
And you're running people through, this is a cycling test.
And so for a VO2 max test, you have a mask on your face,
you hooked up to a metabolic cart, so we can collect all the gases
that are coming out of your mouth.
And you're chanting these people on, and basically every minute
the workload gets harder and harder and harder until you can't complete it.
And we're doing this in a cardiology center, and the cardiologists are usually waiting for
their heart rate to get slightly elevated and they stop them because they're 85, 86
years old.
And not only are we not stopping them, but we are screaming in their ears just like, go,
go, go.
And Swedish or English?
In English, right?
And then the translator, but it doesn't take a lot of translation when
someone's screaming at your face like go go go so we ran them through a whole bunch of VO2 max test
and we did the same thing for those folks back here in America and what was incredibly clear from
that study was the VO2 max you can think about these numbers and this is what's called relative so
in the relative terms our milliliters per kilogram per minute.
And so a standard number is about 18, is what we call the line of independence.
So if your VO2 max is below 18 milliliters per kilogram per minute, it's very hard for
you to live by yourself.
So your fitness is so low, you probably are going to have somebody living with you, or
you'll need to be in some sort of assisted living home.
So if you are in like VO2 max of 20, or or 21 or 22, you're not below that line of independence, but you're
on that threshold. And so what we found was our folks here in America, the group average
was right around that number. So they were living at home by definition. We picked them to
be people living by themselves in their 80s and not in a living room. But they didn't
have any bandwidth. So if they got a cold or they had anything pop up
where they lost a little bit of fitness,
they were gonna drop below that line
and would probably have to go
to some sort of assisted living situation.
The folks in Stockholm, the cross-country skiers,
the group average was most closer to like 35 to 38,
middle-leaders per kilogram per minute.
Now that number is about the VO2 max you would find
for a normal college male.
And so these folks that were literally 80 or 90,
if the joke, if a saber tooth tiger ran in the room,
or whatever, and it chased it down,
and we all had to run at the sea who didn't get eaten alive,
the college men would probably have
gotten eaten before the 90-year-olds.
In one case, we had a 92-year-old individual, and I think his view to Max was 38, which
was in our estimation, a world record, the highest view to Max for somebody over the age
of 90.
I'm going to ask, what is the typical resting heart rate for somebody very fit like these
older Swedish cross-country skiers.
They have somebody has a, let's say their number is
35 million years per kilogram in this VO2 max test,
but since most of us don't have access
to that kind of equipment,
but we can measure our pulse rate.
What was a typical resting heart rate,
resting pulse rate?
Sub 60.
Sub 60. Yeah, I mean, typically that's a good number to go off of for anybody regardless of age.
Anytime I see somebody above that, I'm going to start asking questions.
Certainly above, you know, you'll see in the literature people will say 60 to 80 is normal
and I don't agree with that at all.
If you're up, if you're resting heart rate is 75 beats per minute, there's either something
going on or you're not fit.
How much cross-country skiing were they doing
on average in the previous, let's say,
if we take the previous 20 years,
since they'd been long-term cross-country skiers,
divide that by 20 years.
On average, are these people cross-country skiing
five hours a day, two hours a day, and hour a day?
Yeah, that's actually a good question.
I don't remember.
It's been many years, but they were not doing it
every single day and that the volume would not have shocked you.
It was the consistency over 50 years that got them there.
Now, obviously, these people were, again, world champions
in Olympic gold medalists in 1940s and 50s.
So they were elite.
They just continued consistently over time.
But it wasn't a shocking amount of physical fitness. They also didn't
go out either way to train hard. They were busy chopping wood, they were busy doing
number of other things, and then they just happened to do some of these races and ski
a long way. But it wasn't a crazy amount to where you're like, oh, that's great, but
I could never hit that number. It was something much more reasonable.
So is the takeaway to be consistent about getting cardiovascular exercise and we can define
what consistent means in terms of days per week a little bit later, and I know we will.
What are some other examples? I love these examples of from the real world.
So here's the downside though. So I only told you about the VO2 max.
What I didn't tell you about is their like strength and functionality.
And that part was no more superior than it was their counterparts who were not
exercisers.
So what that showed really, really clearly, and many other studies have been done since
then, that look at the classic what we call life, long endurance exercises.
You will see in general their VO2 max,
their cardiovascular function, their resting heart rate,
their blood pressure.
It will be markedly healthier than folks who don't exercise.
It is extraordinarily clear that type of exercise
is very important for chronic disease management.
No doubt about it.
However, it is not sufficient for overall global health
because it does almost nothing for leg strength
for any other marker of health which we can talk about what are the things that are actually
going to predict mortality, morbidity of the most. So that was a big smashing
indication that it's like, hey, this is great. However, you're leaving things on the table for
your overall health. Now, one could argue they're 80 and they're doing pretty well, but they weren't doing as
well in these areas.
And so a study we did later actually as a follow-up was looking at monosigas twins.
So this is actually interesting being a scientist.
This is a classic example of one of my graduate students who had been in my lab for probably
three or four years.
And she was in our single fiber physiology lab
and you imagine she's isolating individual muscle fibers
from an athlete, one by one with the tweezers.
And she's going to do several thousand individual cells.
So you're down there for hours and things happen down there.
You kind of lose your mind.
And she was just kind of going on one day
with one of my colleagues and just talking. And she's like, oh, yeah, my uncle is really really fit and something or other and then oh, yeah
He's a twin and it's like oh, he's a monosigus and she's like, yeah for those that don't know monosigus or identical twin
Yeah, what's interesting? So you basically have what I'm setting up here is this is the perfect exercise scientific experiment
Monosigus identical twins mean
perfect exercise scientific experiment. Monos like this identical twins mean,
they have the exact same DNA.
So an egg was fertilized split,
and then two humans grew out of that
with the exact same DNA.
And so now we can start to answer the question of,
well, yeah, okay, what about maybe these cross-country skiers?
Maybe they were just genetic freaks.
Maybe it didn't matter.
It's like some people have,
well, genetics are always a component to it,
but how much? Well, now we have a scenario lining up where it's like, wait a minute, you have monosigus
twin.
So we have a replica of a human being, exact same DNA.
The only differences that we would see in their physiology now would be due to lifestyle
circumstances.
Interesting.
So, monosigus twin, dad and uncle, right?
Huh?
Great.
Do they exercise?
Well, one of them does.
He's a lifelong endurance exercise.
Runner, cyclist, swimmer, iron man, all these things.
What about the other one?
Nope, he doesn't exercise at all.
And at that point, like, I wanted to kill my graduate student
because I'm like, you've been in my lab for three years.
Or more, probably.
And you've never told me that in your household is the
perfect scientific experiment for exercise you could ever create. And like
Jesus, the look on her face when my colleague and I were staring at her, she's
just like, oh my God. So I'm like, call them right now. They are coming in the
lab to fly them in from Chicago. I don't care what we have to do like we're
getting them. And so I wanted to actually going back to the model that was first developed by the Harvard
fatigue lab.
One thing that's interesting about that committee is they started off with the concept of
trying to examine human performance through a holistic lens.
And so it was the antithesis of looking at either organ by organ.
So we're going to only look at the cardiovascular system or only going to look at skeleton muscle
and then we're saying we're looking at this entire picture.
And so that model we wanted to carry through
when these twins, and I said, all right,
I want to bring them in the lab.
But I'm not just going to look at one system.
I want to do everything.
So we took stool samples, we took blood,
we did vertical jump tests, we did maximum strength tests,
we did MRIs of muscle mass, we did VO2 max tests,
we did efficiency stuff, we did genetic testing, we did an IQ test, we did psychological battery, we wanted to look at everything
to figure out all of these things, what differ between the twins.
And if so, the second key question there is, by how much?
So can I improve my VO2 max?
Sure, everyone knows that, but how much?
Can it change by 5%, 80%, like,
where's the number? And so putting some quantification on this was very important. And so, again, we
had another example of a classic endurance only training paradigm compared to a non-actual.
So this is a person who's, I think, is a truck driver by vocation, which is, I think,
you actually drove for a potato chip company, which was even funnier.
The endurance act that he actually was great, because like any endurance people, he had a, he had physical books of all of his training mileage for the last 35 years. And we could,
we just went through them. And we calculated a total amount of miles he ran, his averages, his
heart rates per time. We had this unbelievable thing, like what race this he was in, he had the
documentation. It was just totally nuts, right? Like, something that this unbelievable thing like what racist he was in, he had the documentation, it was just totally nuts, right?
Like, something that endurance people are like shaking their head right now going, oh
yeah, I got that too.
And I was like, I'm sure.
Endurance folks are pretty nerdy.
Yeah, super nerdy, right?
So it was great because now we could validate as close as one could to actually how much
you ran and things like that.
So they had about a 35 year discord.
They both exercised up through high school, about 18, they stopped doing it,
and by the time they read them in the lab there
in their mid-50s, so it was about 35 years' difference.
And when we ran them through the testing,
if you look at the measures that were similar
to the Sweden study, it was almost identical.
The exercising twin was significantly better
at things like a lipid panel, resting heart rate,
blood pressure, VO2 max.
Any of those markers, as predicted,
were much better.
What was very interesting, though,
was the things that were in the middle.
First of all, their total amount of muscle mass
was almost identical, like to the gram,
within the margin of error of a dexascant,
could possibly ever be.
The non-exerciser, though though was a little bit fatter.
So the difference in actual body weight
was explained almost entirely by body fat,
or non-leant tissue, really.
Same story to you.
So, okay, like no one surprised there
that the excerciser was a little bit leaner,
even though it didn't change
the whole amount of muscle mass at all.
When we looked at some of the more functional tests,
and we looked at things like muscle quality. So this is a metric you can get from an ultrasound.
You can kind of think about this as how much fat is inside the tissue, which is
sometimes an advantage for endurance athlete to have a little bit more of an
what are called intramuscular dysploris because it's a fuel directly in the
tissue. But in general the exercise or the muscle quality was not in favor of the exercise.
If you looked at the performance testing,
and if you looked at strength, it favored
the non-exerciser.
And so now, again, we have the same finding
we saw in our Sweden study, but in identical twins.
And so it really, really highlighted
the fact that if you want to move forward with optimal
health, simply picking one silo is not going to get you there.
One silo, meaning just running, just cycling.
Right.
Does this mean that the twin that did not exercise could jump higher or win an arm wrestling competition?
Not that that's a vital thing to be able to do.
But just in terms of measuring
strength, you know, it's our isometric strength, was the non-exercising twin stronger, or
at least as strong as their exercising?
Yeah, particularly in grip strength.
Yep.
And any of the measures like the vertical jump, like extension power, and a number of things,
they often favored the non-exerciser, which you're still a little bit of a chicken
and egg.
You don't know necessarily the endurance training reduced that other twins strength or it
doesn't even really matter per se.
I think the highlight of it is, can you change some of these metrics of the Oedimax?
Yeah, not even close.
These things are very responsive regardless of your genetics.
Your genetics will give you a starting place very clearly.
Even the non-exerciser was a pretty healthy guy.
So they weren't a good spot.
In mid-50s, doesn't exercise, doesn't really pay attention
to his diet at all.
And he was in a pretty good shape.
However, if you want to actually move progress
and move for high functionality,
you have to do something besides just run,
just distance run.
Now, I could say the same thing for strength training.
That alone, because I don't want to make this thing
like I'm saying under insecticides, it worked.
In both case, in both these studies,
those folks were much better off in metrics
that are incredibly important to mortality,
how long you're going to live,
Vio2max, et cetera.
It's just not gonna get there in terms of strength.
We took a look at muscle fiber physiology as well,
which is very interesting.
So what I mean is, there's generally two types of muscle fibers,
fast twitch and slow twitch.
And one of the things that is a hallmark of aging
is a selective reduction in fast twitch fibers. And that's because it's difficult
to activate them unless you're doing high force activities. You're going to activate slow twitch
fibers doing almost any activity of daily living. And so they stay around. Fast twitch fibers,
unless you're doing something of high force, are going not to be used and they're not going to be
kept around. And that's a problem because when you look at things like the need for like strength through aging, the ability to catch yourself from a fall. These things
are incredibly important. If you don't have fast-rich fibers, you don't have the speed
to get your foot out in front of you on time and you don't have the eccentric strength
to stop the fall from happening. And so if you look at crossing and the aging literature,
they're very clear about the importance of maintaining strength and fast-rich fibers over time.
So, we know that this is an important distinction here of rule.
And people will often talk about, okay, how much of that is genetically determined? Can I change my fiber type?
And the answer there is resoundingly yes.
And can I change it with exercise?
And the answer is absolutely you can.
And the next question is how much?
So now, again, we're going to see an order of magnitude.
In general, without going too far down an area,
maybe we could say for later, each one of your muscles
in your body has a different percentage
of fast twitch and slow twitch.
For example, your calf.
If you look at your soleus, which is kind of the smaller one
that goes in the back, that's generally mostly slow twitch.
Typically 80% or so slow twitch.
The gas drop, which is the other one right next to it.
So if you were to point your toe next to your face in that part that kind of flexes out in the middle, pops out.
That's your gas drop. That is almost the inverse.
So it's generally 80% fast twitch, maybe 20% slow twitch.
Generally anything antipostero or postural rather anti-gravity, spinal directors, things that are meant to keep you up or moving all day are going to be slow twitch and things like your hamstrings which are for explosion are going to be fast twitch.
Well, we biopsy the quad in these individuals.
And in that muscle, it's generally about 50-50, fast, slow twitch, as a really broad number.
Well, one of the things that we found was in the non-actressizer, it was almost textbook
what you would predict. It was about 50% or so slow twitch, a little bit of percentage of fast
twitch, and then about 20% of what are these called hybrid fibers, which are a hallmark of that
activity. All right, great. In the exerciseerciser, it was about 95% slow twitch.
And so it's extremely clear, again,
I don't know if maybe their set point
was a little bit higher towards that
and the non-exerciser devolved down to his place
or the other one, but it doesn't matter.
I mean, you're going from 40% slow twitch in one case
to 95% slow twitch in another case.
It shows you that the limits of physiological adaptation are darn near boundless, given
enough exposure.
In this case, 35 years of extremely consistent training, and his muscle morphology was completely
different than his identical twin with the exact same DNA.
Those are two beautiful examples of people doing endurance work for a number of years, and
what that gives them in terms of benefits and functionality.
Has the opposite experiment been done or observed where somebody just wait lifted or just
sprinted for a number of years?
I don't know that there's a identical twin control.
That's a little.
I wish we had a third twin.
Too much Shasr, right?
Triplets.
Okay.
So triplets out there, if you're exercising in different ways, or people who have triplets,
maybe you assign one kid to be a runner, one kid to be a weightlifter, and the other one
to be said, and Terry, please don't do experiments like that.
But the expectation, as I understand it would be that the person that sprints or that
does heavy squats, explosive work, would then have more fast twitch muscle fibers in their
quad, and their non-exercising counterpart would have fewer.
That would make sense.
But what happens if you assess the endurance level in somebody who has just done strength
training or just sprinted?
Yeah, so we don't have those data specifically.
We're actually just starting to have studies come out on lifelong strength trainers.
And there's actually a very good reason for this, which is a whole story we can get into.
But the quick answer is, we don't have a lot of people who've been lifting weights for 30 or plus years.
We have a whole swath of people
who've been doing endurance training for that long.
Is that because fewer people have been weight training
or weight trainers all dead?
You gotta go back to the 1953, 1954.
You had two major things happen that change
the entire course of exercise physiology
and exercise science and really exercise as we know it.
It's important to understand the history of our field. A
lot of the questions I get are based on false assumptions of what
exercise can and can't do. As an example, questions like momentum. Should I use
momentum or that's cheating, right? Or it doesn't work, it compromises my
results. It's actually totally untrue.
There are excellent reasons
when you should use momentum when you lift.
There are reasons when you should not.
It is sometimes very beneficial to go fast
with the exercise repetitions,
sometimes very slow and controlled is better.
Any question I get, in fact,
I'm very infamous for always responding with it depends.
The reason I say it depends is it
depends on the goal. When you're training for speed or power or muscular endurance,
the answer to some of these very common question differs. What people fail to
realize is they think they're asking the right question because they don't
understand this history, what's being planted in your brain subconsciously, is
driving that question. It's not necessarily the right one.
So if we walk through that a little bit, you'll see what that field has led you.
Why you think certain things matter when they actually don't, or maybe your assumptions are incorrect,
and then exactly what to do about them.
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to claim the special offer. So in 1953, 1954, you had Roger
Bannister breaking the four-minute mile, so sub-four-minute file, and then you also had Sir Edmund
Hillary and then his trip in Norge, some at Everest, and the same basically two-year span.
That exact same year after that was a formation of what's called the American College of Sports
Medicine.
Now, that is still around today.
It is a preeminent group for this exercise as medicine.
So if you're interested in things like exercise for obesity prevention, for cancer treatment,
for things like that, it's not really sports medicine.
It's more for clinical exercise. That's the place to go, American College of Sports Medicine.
So we have this launching of both a ton of people wanting
to start doing endurance exercise,
to start swimming and cycling and running.
And then you have a launch of people coming off
of the back of the Harvard fatigue lab.
So the fatigue lab actually shut down in 1947.
So you have these people interested in physical fitness,
but nowhere to go.
Well, all those people left the Harvard fatigue lab
and started their own labs, and other places.
So you've launched the careers of people like Dave Costel
and John Halazi and some of these very famous
exercise physiologists, and they start building laboratories.
And we start for the first time ever studying
the science of exercise. So years go by, and we start for the first time ever studying the science of exercise.
So years go by, and these people happen in the 1960s and 1970s, what we call the runner's
boom. So people start, if you, in fact, if you look at the numbers of people who are doing
marathons, it explodes through these two decades spans, right? Because it's like them, we
could do these endurance feats. Notice both those feats were endurance, right? Running short
term as well as going over there. No one has thought anything about strength training.
And here's why. In the late 1880s, there was a very famous physician, a Georgia wind ship, I think was his name,
who was a big proponent of strength training. Well, he died in like in the age of 50 something of a heart attack.
And that terrified people of strength training for 70 years because they're like,
whoa, whoa, whoa, that stuff will kill you.
Because he was a doctor, he was trying,
he was running around the country,
doing his exhibitions and purporting it,
and then he died.
It's sort of like Atkins, 100%.
Dying, some people say he died of a heart attack.
Other people said he fell through the ice
into cold water that's debated,
but the fact that a heavy proponent
of a given nutrition plan dies
suddenly, not good for business.
So now, the little storm is brewing.
1940s, and I'm going back a little bit, but bear with me for a second.
There's a guy named Peter Carpovich, and he's a scientist out of Springfield, like the
Decorative Physical Education PE, that's a legendary out of Springfield, like the Decorative Physical Education PE,
like that's a legendary place for Springfield College.
And he is anti-strength training for a lot of the same reasons.
And his entire career talked about, no, do this.
He's the one that launched these ideas
that strength training will make you lose flexibility.
It will be bad for kids.
Like all these things that we know now are clearly not true.
He's proponent of these things.
And there's a show that happened in his
at Springfield College and Guy name Bob York.
And if you York Barbell, that's still around today,
is going around the country and putting on these exhibitions,
they come to Springfield.
And it's sort of like a new aged,
like social media thing where it's like,
the students know what's about to happen.
Carpuffitch shows up to this event and everyone knows he hates strength training.
Everyone is waiting for it to end just to see what he's going to say.
This whole exhibition goes on and these people are doing, you've got to remember back in the
time bodybuilding, weightlifting, powerlifting, strength, strong man.
It's all the same thing. There's no differentiation yet.
It finishes and Carpuffitch up and like the crowd goes silent. And he just asks one question. He just
points to one of the guys and says, scratch your back. And now he's just
assuming and waiting for the guy to be like, ah, and not be able to put his hand
behind his head. And I think you pointed to John Gimic who's like a famous body
builder. And he reached back and scratched his back no problem. And then they
proceeded to grab two dumbbells.
I think they were 50 pound dumbbells and do a back flip,
standing back flip with both and he'd chant.
They started doing the splits on stage
and they started going performing all kinds
of physical function tests and carpavitches stunned.
He's like, holy shit, he has nothing to say.
He leaves there and his whole life has changed.
All these things he was claiming were shown in his face
to be false.
He does a 180 on his career.
He starts running study after study on strength training
and starts finding immediately there are no
detriments to strength training in terms of like
global health, right?
Of course you can do it wrong and things like that.
And in fact, here comes a whole bunch of benefits.
So through the 1950s, while this thing's going on
with the endurance folks, no one's still strength training because there's no record to see. There's no American
college of sports medicine. There's no societies. There's no science. We're not sure it's safe.
And meanwhile, Carpvitch is just hammering study after study after study showing you. It's safe,
it's safe, it's safe, but it hasn't picked up yet. And then everything changed in 1977.
Thank you, Arnold Schwarzenegger. He came
out with the trifold. He hits you with pumping iron, which I know you know that movie, right?
Pumping. Interesting movie, even for those not interested in bodybuilding. It's a very
interesting movie because it really gives a window into not just him, but the way in which
weight training started to show up as a regular practice.
When I was growing up, the only people weight trained
were people preparing for football.
Bodybuilders who basically didn't exist
in the time where I grew up.
And the only people who did yoga,
we were like, yogis doing bichram.
But now you drive through any major American city
or European city, and they're yoga studios,
there's gyms with free weights.
Yep.
Arnold Schwarzenegger is largely responsible,
I think, for initiating that shift.
Yep, he could see, think about it.
He hit us with pumping iron, Conan, and then the terminator,
almost in back-to-back, like very close within years.
So you've got this whole cascade of the 70s
of people running, cycling and swimming.
Now science is starting to come out that it's not dangerous and maybe actually some benefit
and then bone.
Not only is it not bad for you, it can make you into a real world superhero.
I mean, think about the psychology of a child growing up watching somebody like Conan.
Think about what Batman looked like in the 1950s or 60s, right?
And then boom, I can look like that.
Not everyone wants to look like Arnold, but you see the power that can land and people
know what I've ever seen or thought, you can make your body transform like that.
You could maybe be born like that, but no chance.
That's within the grasp of all of you.
When I was a kid growing up, one of my favorite books was the Guinness Book of Worlds records.
Yeah.
I still have images in my mind of the coldest animal,
you know, the longest lifespan, et cetera, you know.
And there was a picture in there of Arnold Schwarzenegger
and you know what his record was.
It said, perfectly developed man.
Yeah, yeah, yeah.
Which is, as you point out,
that isn't the physique that most people aspire to.
It's a dude, though.
But it really, I did inspire this shift.
The other thing about resistance training
that I think has a certain allure for some people,
men and women, is that it's one of the few forms
of exercise that because of the enhanced blood flow
to the muscle that occurs during the training,
the so-called pump, it gives you a transient but somewhat real window into what your results
will be.
When you run and you're gasping for air, you aren't experiencing what it's like to be
faster than you are that day.
But when you wait train, you get an aesthetic picture into how your functionality and aesthetic
will change.
It disappears a few hours later, as the so-called pumps have subsides.
But it's a very interesting form of exercise in that way.
It's almost as if you go into learning a language and during the process of learning,
for brief moments, you're actually fluent and then it gets taken away.
It sort of puts the dopamine carrot out in front of you.
This is just me hypothesizing as to why weight training might have taken off the way that it did.
Yeah, I mean, it's like if you got paid
every hour on the hour when you're working.
And then at the end of the day,
like they take the money back,
but you still like, as the time clock is going on in your day,
you're looking up and you're just seeing
while you're watching your bank account grow in real life.
You can see why it's so addicting to those folks.
So to finish the story here,
going back to your actual question to answer it,
this is happening in the late 70s, early 80s.
And so now Joe Weeter, all these gyms,
they're exploding because people wanna look like that,
or they realize they have the chance
to change how they physically look.
That had never been a reality before.
You could get-
Mostly men at that point, I'm not guessing.
Almost exclusively.
Yep, for a large number of reasons,
cultural acceptance, et cetera.
Even with endurance stuff, you could get fitter and run faster and that's better, but
it wasn't going to change how you looked unless you were losing fat.
Now you can change how you look, which is so incredibly dicking.
In fact, there's a very famous quote.
I think it was actually Joe Weeter who said, show me one man who wants to be strong and
I'll show you 10 who want to look strong.
It's like, that's very, very powerful, right? who said, show me one man who wants to be strong, and I'll show you 10 who want to look strong.
Right, it's like, that's very, very powerful, right? There's a whole, like, there's tons of this history
I can go into, which is sort of explaining to you.
But now you're in the mid 80s,
and you have what I call my generation.
So you have my generation who fall in love
with strength training in the 1980s and 90s,
but there's really no scientific field for it.
It's not really come about
yet. The science of endurance and exercise physiology is now homing along at a massive rate because
these people came up in the 70s and 80s and they're five, 10, 15 years in their career, they're producing,
they're generating graduate students, they're starting their own labs, and the exercise physiology
is still to this day is 80% endurance, steady state stuff, almost exclusively.
Well now, my generation, you love sports, you love lifting, you all of all these things.
And now what we see happen is the Chicago Bulls.
Michael Jordan starts picking up strength training.
Ooh, that's on TV.
He's on sports center in the mid 1990s lifting weights.
And we go back actually to the late 1970s and I'm not sure if you're a football fan,
but any football fan will recognize the Nebraska cornhousekers in the 1970s and 80s change how
footballs played. Well, the reason is because they started strength training and they started doing
it with a guy named Boyd Epley, who was the founder of the NSCA. So the National Strength and
Inition Association is formed in late 1970s as well. So just like ACSM was developed the year after those two events happened, 1978, the year
after Arnold comes out, boom, NFCAA is formed, and now you have a scientific organization
dedicated to strength and conditioning.
You've got NFL strength and conditioning coaches that are starting to come on board.
You've got scientists that are starting to come into labs and strength and conditioning
becomes a scientific field.
Well, everything swings now from an exercise perspective into bodybuilding.
And so almost all of the things, in fact, we were sort of talking before, I could run
a whole bunch of tricks on you.
And I could ask you a whole bunch of questions about things that you think are absolute
standards or guarantees about training.
I'm supposed to do this.
I'm never supposed to do that.
For instance, is it okay to train a muscle group
on back-to-back days?
Most people are at home thinking,
no, you're not supposed to train a muscle group.
It needs to recover.
And that's total nonsense.
Other things like body part split training,
training one muscle group per day.
Other things like cardio split training, right? Training one muscle group per day. Other things like cardio, endurance training,
influencing, will it ruin my gains from my lift?
All of these things are on a base of assumptions
that come from bodybuilding.
Now that's a fantastic world,
but because everything started in the late 1970s
as bodybuilding in terms of basically strength training
was that weightlifting and powerlifting
were not at all around, they were but nobody cared again show
me someone who wants to be strong I'll show you 10 and want to look strong.
The physique thing just dominated and we're not getting out of that yet.
We're not all the way out of it.
We're starting to though because here's why people started to realize this this bodybuilding
thing is fantastic.
I can change my physique. I'm getting better.
But damn these workouts take an hour and a half
two hours and I'm gonna spend that whole time on one or two body parts, which means I'm gonna have to live six days a week
And I'm gonna have to do that consistently
right now. I said boom two hours on my on my elbow flexors. Damn, my elbow's starting to hurt.
And yet, my understanding is that it doesn't really require two hours a day of training
in order to get benefits, even just for hypertrophy.
Totally.
But a lot of the times you're going to have to get some amount of time in because you're
spending so much isolation.
So we've gone away from training movement.
Running is a movement, cycling as a movement,
training my biceps as a muscle or muscle group, training my hamstrings or muscle group,
that's not a human movement.
So, we've done a 180 in terms of selecting the exercises from movement-based prescription
to now muscle group-based training.
So, when you're isolating muscle groups, that means a whole chunk of your body is really
not doing much throughout the day. So what happens if you're doing say
legs on Monday and you miss Monday because you're on a flight? Now your legs have to wait a whole
another week, right? That's, there's social that bit. So this has become problematic. People
start getting beat up. People start realizing, actually don't feel that great. I'm not super fit. I'm sweating,
just walking up the stairs. I'm out of breath. Why? Because all that training you've done nothing
for your cardiovascular fitness, you've done nothing to improve heart rate, oxygenation, blood flow.
And so that paradigm swing way too hard into the exercising, especially lifting weights, is
single joint, often machine, often slow, often high volume
isolation stuff.
And that left a giant opening of people going, well, wait a minute, what if you could get
in the gym, I could promise you the same or better result in under 30 minutes.
And in fact, you also feel better.
You'll lose more weight.
And that opened up group exercise classes, kettlebell stuff, crossfit type of stuff,
circuit training, because you can come in, you won't get so beat up because of volume
slower. The time is much lower. You get multiple adaptations at the same time. Great. The
problem with that, though, fast forward 10 years, is it started burying people because
you've now de-emphasized movement quality
and you've overemphasized scores.
Right, so this is a classic example.
If you go and you watch pumping iron,
you'll see or anybody build it.
You'll see if they're doing a bicep crew.
They don't even really pay attention to the rep range.
They don't really pay attention to the load.
They are looking at their muscle.
They're trying to figure out how do I get that thing to fire.
They're squeezing, they're flexing, they're posing.
At the end of every set, they're trying to figure out, do I get that thing to fire? They're squeezing, they're flexing, they're posing. At the end of every set, they're trying to figure out,
am I getting enough pump?
It is exclusively founded on exercise quality.
The rep range, the numbers, almost irrelevant.
When you go to the other model, exercise technique,
it doesn't matter.
Just get the most amount of weight up
or the amount of reps or the fastest time, et cetera, et cetera.
High intensity.
I should be crossfit.
I've walked past some cross fits.
You has had done two crossfit classes.
I don't want to get too, so you said it's crossfit I didn't.
Oh, I don't know.
I enjoyed them.
I definitely felt like I was working hard.
I observed a lot of people in very close proximity doing Olympic lifts and doing kipping.
That's where you kick your legs folks.
Say, you know, sort of like bucking and kipping type pull ups.
No, I enjoyed it. It wasn't
for me for the long term, but it did seem that there was a lot of ballistic movement in close
proximity to other people. So the hazard to me seemed more about that than the actual movement.
Well, again, the point I'm setting up here is that was actually a really brilliant solution
for a lot of the problems the classic bodybuilding hypertrophy
Introduced so it got away from isolation movements and got people doing big movements, which are more effective generally better
Got people doing things fast and explosive. That's more athletic. That is more important for longevity
It's solved a lot of the problems
Joint health wasn't getting crashed the issue they went with is
a lot of the problems. Joint health wasn't getting crashed.
The issue they went with is they just pushed the pace on score rather than quality.
They pushed the pace on how many people can be in here at the same time.
So now you're doing higher risk movements, higher intensity, higher fatigue, and with a total,
not that they don't care about technique, but it's not the thing that they're most concerned
about.
It's getting the number and the thing done. They solve the time issue, though, you can get tremendous results in
three days a week under 45 minutes, each session, et cetera. Burn people out, though, way too
much high intensity, way too often, and the other problem, safety concerns, all kinds of orthopedic
issues and all their stuff.
Can I interrupt you for a moment and just ask a question as we go through this arc of the history of why endurance
training predominated or strength training
or bodybuilding type training or crossfit type training,
because I think this is fascinating.
I know we're about to arrive at where we are today
and what the future looks like for people
and what they should focus on and do.
At what point, if any, do you think resistance training
started to become adopted by women?
There was no equivalent of Arnold Schwarzenegger.
There was Linda Hamilton in the Terminator.
There are some impressive physiques, certainly
on female actresses and athletes, the Williams sisters, very impressive musculature
and physique, and of course,
their tennis playing speaks for itself.
Has that happened yet?
I mean, what I mean is,
do you think, since you work with both men and women,
do you think that most women understand
that weight training done properly is going to be extremely
beneficial for them, maybe even especially for them in terms of offsetting bone density loss
and things of that sort? Or are we still waiting for the popular stimulus for getting 80%
of young women thinking, I want to lift weights. Yeah, hard for me to answer,
because I'm not a woman, right?
Now I have a daughter, she's four, so we'll see.
What I can say is I've probably worked with,
I don't know how many professional athletes in total,
a lot.
I've worked with them probably 14 professional sports.
I've worked with Sai Young winners, MVP,
like the whole, all the credentials, right? I bet 35, 40% of the athletes I've worked with Sai Young winners, MVP, the whole, all the
credentials, right?
I bet 35, 40% of the athletes I've worked with are female.
So I've worked with Olympic gold medalists, I've worked with bronze medalists, and multiple
sports I've worked with the most decorated powerlifter of all time.
So in a number of these areas, fighters, world championship, all these things.
From me, I feel like that versus already happened.
My students, if you look at my classroom,
I don't know what the numbers are,
but there is no small number of females
in exercise science and exercise physiology.
If you look at our laboratories,
that's one thing you will see.
There are very few female exercise sciences.
There are very few female stringed
conditioning coaches, but that number is coming down at an
astronomical rate. You have people that are being hired
in every sport. You pick the NFL, you pick Major League Baseball,
every few months we're hearing first female hired for this,
first female hired for that. The Yankees Rachel, Rachel Belkovich, fantastic. You know, yeah,
she's been out to my lab. She's terrific. Yeah, yeah, yeah, that's, that's, she's fantastic.
I mean, she's now being hired as the, I think she's a hitting coach now, actual sport coach.
She's going to be a GM, right? That's, that's her goal. She's a terminator. So that, that's
already happening. And my students that are coming through our program are getting placed
in these roles. They haven't gotten through yet a lot in terms of being an
actual scientist, but they're getting there.
Some more scientists in the NBA bring hired females in terms
like big data collection and some more science and tech
will cover another discussion.
But I think it's happening whether or not the cultural
and social, I can't speak to that, any of the equation.
What I can speak to though is,
one of the things I think is most fun coming forward
scientifically is, you know, a number of years ago
and I came back, came through with their mandates
of saying it's no longer acceptable to exclude women
from scientific research, right?
Cause we just did that for decades.
Well, what happened, I just to fill this in because I think it's worth noting is that
for many years, studies even on rodents were mainly carried out on male rodents because the
assumption, and the assumption turned out to be wrong, but the assumption was that the physiology
of female rodents, because they don't have a menstrual cycle, it's not 28 days, they have an
ester cycle, it's four days, a different type of cycle, that that would somehow disrupt the data.
Turns out that's entirely wrong.
Now it's actually required when you sit on a grant study panel, which are the people who
evaluate grants, they ask.
They literally say, did they meet the criteria for sex as a biological variable?
Here we're not sure about sex as the verb or term sex, it's a biological sex.
And if you don't say yes, that's a strong hit
against the grant.
And if you say yes, then it checks off that box.
So it's now required that both male and female rodents
and humans be studied in a given study.
Unless the study is specifically geared toward understanding
that only exists in one or the other population.
We've read on studies.
Menopause, for instance. Yeah. other population, such as menopause,
for instance, menstrual cycle, andropause, for instance.
But this is extremely important.
I'm excited to hear that.
So where I was going to go with that is actually, so that was step one, which is cool.
You got to include it.
Where we haven't gotten to yet, but I've seen more and more grant applications come through
for this.
It's just the funding hasn't yet, which is it's one thing to let women be in the same studies. That's great.
It's another thing though to start performing high performance research specifically for
female questions. That has not happened yet. That's just like a funding issue, right?
We haven't gotten money yet. People aren't supporting that. We don't get a lot of financial
support for sports science, but we can't track down the money yet
if someone go me going,
I wanna do a study in female athletes,
that answers female athlete questions.
These won't help men.
These are questions specific to the female.
That's the next step, right?
That's where we gotta get to so we can say,
maybe we should do things differently
around training or recovery,
or we shouldn't or it doesn't matter.
There's some, there's a handful of
Not lower quality, but like some studies
I don't love them yet. There's just needs to be a ton of work. Birth control is a very good example
Right, the the information for women at female athletes or even just like hard exercises
You don't have to be competitive athlete around Around what is birth control doing, what types,
how should I manage that, what conversations should I
be having with my doctor, almost nothing.
Like women have nothing to go on for high performance stuff.
So what if I'm trying to compete in an event or run a race,
how, like all of these types of questions should be answered,
normative value, normative data, performance testing,
like it's just not there on the female.
So that's an area I think,
like if somebody really wanted to make a change,
that the scientists wanna do it.
I know, I've talked to so many in our field
that would really love to explore it
because it's getting there.
Like I said, the coaching side is getting there.
They're seeing that they're hiring these people.
I'm seeing it in my students.
My following is not all men.
Like it's a very large percentage of females
and all I do is post about exercise, science,
and like this is all I do.
So.
Well, this podcast is very,
we know very clearly the audience is 50% women,
50% men, which is great.
So just to jump back in our history discussion
and to finish that point of where we're at now
and where I think we're going to go or should go.
So we walk through the bodybuilding kind of running everything and people walking into
a gym anytime they lift weights, they're making all of their choices based in the assumption
that maximizing muscle size is the goal.
And clearly that's not the case or other adaptations you may be after.
So we talked about how that had problems and then we talked about how some of these other
forms of exercise filled those gaps and then what problems those things introduced.
Well, I think we're actually at a point where that pendulum is kind of slowly shifting into
the middle.
What I mean, but that is, if you want to maximize muscle strength, we look towards the power
lifting community.
If you want to maximize muscle power, we're going to look to the weight lifting community. If you want to look for muscular endurance,
well, rowing this, maybe we look into the crossfit communities and some of these obstacle course races
or functionality things. So what we can do now is generate protocols that get us the exact
adaptations we want and not ones we don't want because we can look back at each of these different styles
of training and pick and choose optimal protocols or combinations for them.
So somebody simply wants to get healthy.
Like we talked about when we listed the nine adaptations and I mentioned health wasn't
one of them.
That's because what determines your health versus what determines my optimal health differs.
So if I need more hypertrophy, I can look towards bodybuilding concepts.
But if I have enough,
or maybe for personal reasons, I decide I have too much,
or I don't wanna add any more,
then I can say, hey, how can I get stronger
without getting bigger,
and blow my look towards powerlifting concepts?
How can I get more powerful?
How can I get faster?
But I don't, you know, again, wanna lose fat.
Okay, great.
Or if I want physique changes.
So we have all these different areas we can pick and choose from that have expertise
in specific adaptations and develop ourselves perfect protocols based on that information.
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So with the understanding in mind as to how we all, myself included, arrived at such lopsided fitness, too much endurance, not enough
strength, too much strength, not enough endurance. That's really hard to imagine that anyone's
perfect in this regard. Can you walk us through the nine different adaptations that you mentioned
earlier and give us a way to assess our level of ability or our level of adaptation in each of those nine.
All right. The very first one we want to talk about is movement skill. Now, set aside sport,
specific to I'm not going to give you an assessment for optimal golf technique swing.
It's really about human movements so that you stay injury free and you can continue to train
for as long as possible. So what are the minimum requirements? Now, if you can have access to a highly qualified
physical therapist or movement specialist,
that's the best route, right?
Go to them, have them identify all of your movement patterns,
overhead pressing, squatting, running, all these things.
That's your gold standard.
If you wanna do it yourself though,
here's a very simple four step solution.
So the way that I teach is I go joint by joint.
And so I think of this just as the major ones,
your shoulder, your elbow, your low back, hip, knee,
and ankle.
Okay, now what you can do is do a representative movement
for you.
So if you bench a lot, use the bench.
If you do pull-ups, use the pull-up.
If you squat, do that.
I would recommend doing an upper body press,
an upper body pull, a lower body press,
and lower body pull.
An example would be a push up, a pull up, or a bent row,
a squat, and then a deadlift.
That would be a very, very well-rounded approach.
What you're going to do is do that movement,
and I would record it for yourself, and record
a frontal view and a side view.
Probably do three to ten repetitions per angle, okay?
Slow and controlled, you don't need any body weight.
What you want to do is move, and you want to look for four key things at every joint, all
right?
So, I can, again, imagine I'm doing a squat.
I'm going to do a squat, and I'm going to focus on just my ankle.
And I'm going to look for these four things of the ankle.
And then I'm going to go back and watch my knee and look for these same four things of
the knee through the hip, et cetera.
All right?
So, what are these four things?
Number one is you want to look for symmetry.
So symmetry is front to back, left to right, and your right limb and your left limb.
And so what we want to look for are,
if they aren't moving perfectly, that's fine.
But you want to see is one moving further ahead
than the other one, is one turning to the side,
one's not, is one fidgeting and twitching around differently.
So you want to look just to check to see
and make sure that they're stable, that's one.
Number two, you want to look for stability. So key indicators here are things like if you can't can through a squat,
a controlled squat where your knees don't start shaking. Like that would be an instability
issue. So can you do the movement slow? Can you pause at the bottom? Maybe three seconds,
maybe five seconds or ten. You should have complete control of that movement at all of these joints.
Are your hips sliding to one side when you stand up?
Is one elbow closer to your body
when you're benching and the other ones more flaring out?
These are the things I'm talking about, right?
I'm not worried about what angle they should be at
or not, you're simply looking for asymmetries or instabilities.
All right, so again, as you're pushing up,
does one elbow start flipping and twitching
and going all over the place?
The third one is what I call awareness.
So there are a lot of movement technique issues
that are simply people don't know.
And so you'll watch them squat.
I do this on my classes all the time.
I'll have a hundred kids out there squatting
and you'll see some horrible squat technique.
And then when you just tell them,
hey, did you realize your heels
are supposed to be on the ground
all times in your squat?
They're like, oh, okay.
And they can correct it.
It's not actually a movement flaw.
It was just simply an awareness.
I didn't know.
And then I actually didn't realize that that was happening
in that position.
So we want all of our joints to be going through a general
full range of motion, which is number four.
So the ankles during like a squat, your knee
should be able to go as far over your toes possible,
while maintaining good position,
your feet flat on the floor,
your three points of contact, your whole foot foot,
and you're not compromising another joint.
So that's all you're going to look for, those four things.
Symmetry, stability, awareness, and range of motion
through each joint, through each movement.
It sounds difficult and time consuming, it's really not.
You can generally kind of clear these things
in one or two repetitions in a couple of seconds.
And what you're really going to look for,
there's lots of scoring schemes,
you can test the physical therapist to sort of you.
I just look for absolutely terrible.
Like can't do it at all, Minor flaw or pretty close to good.
That's really all I'm looking for.
So my scoring system is 0, 1, 3, 0 is like
you're not going to do this exercise
because you're at a very high acute risk.
You might get hurt on rep one tomorrow.
Number one, score of one is like,
there's a minor flaw here.
We can probably do it, but we need to be cautious of load
and volume.
The other one is, maybe it's perfect, maybe it's not,
but go ahead and sort of do it on a reasonable protocol.
You'll be fine.
So that's generally what you would need to do
is a cost-free method of identifying good movement technique
within any of the things that you would do.
What about speed?
I actually don't think this is one most people should test.
If you're a high-performance athlete,
we can run a 40-yard dash or we can do some different things with a velocity transducer on a
barbell. If you're a weight lifter or something, for most people pure speed is really maximum velocity
or acceleration or kind of the two ways we break it down. It's not just doing not that necessary to
test. What about number three power, which I believe before you told me was speed times force?
So the reason why I don't worry too much about speed is because you can infer a lot of it
from a power test.
And a power test is easier to do as well as easier to train for for most people.
So the cost free version here is a simple broad jump.
So this is a stand with normal position, jump out as far in front of you
should possibly can, and measure the distance between where you started and the back of your heel
where it lands. A super basic number to look for there is your height. So you should be able to
broad jump how tall you are. If you're 5'5", you should have 5'5", 6'5", etc. It's not perfect.
That's going to ratchet down a little bit, about 15%
for females. They just simply don't have the power in general that men have. And so you
can want to bring that down a little bit. But that's a very crude number. If you were
to look at like a high performance NFL player, if they're 6 feet tall, they're going to be
jumping like 9 to 10 to 11 feet. If you can jump your body height, we're not looking
for optimization in this particular test. What you are looking for red flags, if you can
jump your body height, you're going to be just fine.
That's incredibly straightforward. And yet I have one question. Yeah. I'm assuming that
I can squat down as low as I need to before I jump. I can swing my arms from back to front as hard or with as much momentum
as I can muster. And when I land, you said I'm going to take the measure from where the
back my heels. You want to measure the distance you actually covered. So to clarify, there's
no running approach here. There's no steps into it. You're going to stand at a stilly
how you can swing bounce as much as you'd like to do. You're going to project out a lot.
So you're going to measure the You're going to project all off.
So you're going to measure the distance from the tip of your toe.
So basically, stand behind the line.
And then the furthest point back where you land.
So basically the worst possible score, not the best possible, because your feet won't
land symmetrically.
One's probably going to be a little bit farther.
Now technically, if you fall backwards and your hand touches the ground, we mark that
number. And now technically, if you fall backwards and your hand touches the ground, we mark that number, but in this case, just use the, for this point, back of your back heel and go
from there.
I'll be drawing it tomorrow morning.
Now if you have access to a little bit more technology or you just really want to know
a better number, a classic vertical jump is a good starting place.
So you can actually do this in a simple, cost-free way.
You can just measure two of your hands,
put them together so that both of your middle fingers
are touching, overlap them and put them directly
over your head.
And then you kind of want to reach up as high as you can get.
And you mark that on the wall.
My brother and I used to do this all the time.
We would take a highlighter, the yellow ones,
and color as much as we can on our fingertips,
touch the wall so that the highlighter would stain the wall.
If you actually go back to my house and for my childhood,
you'll see these markers all over our house.
I'm sure your parents were thrilled.
Yeah, my dad didn't care.
He's single, he didn't care.
He's just like, whatever you guys do it everyone.
So you want to measure that.
And then of course, you're going to jump
with those two hands and touch as high as you can up.
And you're going to measure the distance
between your standing reach and the actual height that you jump there.
Now the reason you're doing it to handed by the way is because if you do one handed,
you can actually reach pretty high by offsetting your shoulders. And now you're getting into
differences of, you know, who has more shoulder mobility, who has ability to kind of get up
there. A two foot stand or a two handed standard approach. Is there a same thing, no running
approach here.
You can dip, you can drive, you can do all those things,
you can swing your arms,
but you're gonna be a two-handed touch
as a general way to do that.
And you wanna look for a number of something like 24 inches
or higher.
If you're past the age of 50,
that number can come down a little bit to closer to 20.
And again, for females, it's gonna be ratcheted down
about 15%.
Everybody go ahead and go,
if you're a middle aged female
and you're jumping 20 inches,
you're in a pretty good spot.
You're gonna be looking really nice there.
So now, if you can do that on a force plate,
that's even better.
So these are very, basically scales
that will go out to multiple digits,
sometimes five to nine digits,
past zero.
And you're gonna stand on these things
and you do the exact same test.
And these are very interesting because they'll tell you,
not only how high you jump, but they'll tell you
how much force you put in the ground.
They can also tell you how long it took you.
This is called your rate of force development,
as well as impulse and speed and a bunch of other stuff,
which are important to help you understand
where on the power spectrum you need to be.
So you would do that in addition to using some sort of velocity transducer on a barbell.
So a very classic thing to do would be, let's say you're going to do a squat and you're
going to put this device on the barbell and that's going to measure the speed which the
barbell moves.
And you're going to do that at 40% of your one-way petition max, 50%, 60%, 70%,
89 new up to 100.
And that allows you to create what's called
a force velocity curve.
And you can start to see at what point
when you start loading things heavy,
you start slowing down too much.
And that'll tell you what part of the force velocity curve
that you want to train to optimize your power.
Why that's important? A lot of people will do things like when I'm training for power, how heavy should
I lift. Well, the general answer people say is 30% of your one-run max, but that's actually
not true at all. What's most optimal for power development, which we'll discuss more
much later, is depending on where you're flawed in the force velocity curve. So if you have
access to technology like that,
that can give you a lot more insight and information.
If not, do the broad jump test,
or the highlighter on your fingertips
and jump it, that's the wall test.
At Andy Yalpin's house.
Hey, just, you know what, come along.
There's already, the walls are already messed up.
Just go ahead and come up to the Washington
and we'll do it.
Fantastic.
What about strength?
Right, so strength is really important.
You need to measure this in multiple areas
and we'll start off with grip strength.
Okay, so you can do this in two ways.
You can buy a hand grip dynamometer.
Now these are anywhere between $20 to $100 anywhere.
These actually used to be like when I was in school,
like hundreds of dollars.
And now you can literally buy them
on any website for $25.
So my honest recommendation is technically,
that's not cost-free.
I know your whole thing about the cost-free protocols,
but 25 bucks, I'm calling that basically cost-free.
You can bring that in a test set,
and that's just a little device where you're gonna squeeze,
and you're gonna do,
and I would do your right hand and your left hand.
You wanna look for asymmetries there,
but you wanna look for something like,
typically those are,
they're gonna give you a value in kilograms. And you want to look for something like a minimum
score here of 40 kilograms. Ideally, you're up past 60 would be a really good spot to
be in. You want to make sure that there's no less than 10% variation between your left
and right hand. Your non-dominant hand actually shouldn't be that much weaker in this test.
So what you'll actually see a lot of times is the non-dominant can be oftentimes stronger
because the dominant hand is more for movement precision and writing, things like that. So
you want them to be close. If you are a male and you are under 40 kilograms on a hand-grip
dynamometer, we're going to need to train that. If you're a female, it's not that much lower, but about 35 kilograms is the cutoff point.
If you're above 55, we can add up to your training,
but I'm not worried about leaving it out of your training.
If you're a female, if it's about 50,
that's my sort of cutoff of where we want to go.
So that's a fairly cheap one.
Another one that you can actually do is just a dead hang.
So you can hold onto any bar, ideally one that is thin enough to where you can wrap your
whole hand around it.
So you don't want to be using a giant fat grip.
You're going to have a false reading here.
So something like going to the gym and jumping on any pull-up bar or pull-up rack.
And you want to hang, and this is a simple time test.
So in general, we should be able to hang for a minimum of 30 seconds, as
what we're looking for. 30 to kind of 50 seconds is my like, good, but we could probably
get better here. If you're cruising above 60 seconds, I'm generally pretty happy. This
is actually a good example of when females tend to be better. Gripschranked on women
tends to be strong and they can hang for quite a long time.
So those standards don't really change that much for women.
Now, if you are exceptionally large,
this thing doesn't scale perfectly.
If you're 240 pounds and even if you're lean,
it's just hard to hang and hold 240 pounds.
Conversely, if you're 140 pounds, even if you're unhealthy, you're going to be able to
hang for a long time.
That's just not that much weight to carry.
So, just rough numbers to start off with.
So, that's grip strength.
What about strength elsewhere in the body?
The primary ones, you can do an upper body strength test if you would like, although it's
not technically something we do very often.
Happy to do it.
One of our max bench press or something like that, that's great.
The more one
I'm generally more interested in is a leg extension test. And the reason I like this is a back squat
is better. A barbell back squat is, look, that's my, like, that's my jam. That's my life, right?
It's just very technically demanding. And it's challenging. You need spotters, you need comfort.
A lot goes into this. So for the average person, a leg extension test
is fairly standardized.
You don't have to worry about technique
and people can just get into it and go.
And so what you wanna look for there
is a couple of standards you wanna hit.
Again, a very simple answer here is body weight.
Can you do a leg extension with your body weight?
How one repetition?
One repetition.
I can answer that right now.
Can you?
No.
You can?
No, I can hack squat a reasonable amount of weight,
but I was on the leg extension this morning,
and I was a nautilus machine,
and I certainly could not leg extension my body weight.
Let me, let me clarify,
are you doing a single leg?
No.
So, bilateral, you can't leg extension your body weight.
No, but I certainly can hamstring
curl my body weight. Okay. So, we maybe have some deficiencies in our quads that we need to go after
here. But that's a pretty good number you want to be at. If you go up an age past age 40, every
decade, that can come down about 10%. And you'll still be in a pretty good slot. So, if you're 50 years
old and you're 170 pounds, if you can do 160, you're in a pretty good spot. So if you're 50 years old and you're 170 pounds, if you can
do 160, you're in a pretty good sort of spot. And then you could just again, take it down
about 10% every decade after 40. But prior to 40, there's really no change in strength.
But certainly somebody in their 40s to 50s should be able to like extension their body weight.
No, did. I look forward to our discussion a bit later, talking about how to build strength.
Any of these strengths tests, they don't have to be done to a technical, true one rep max.
You can use what are called repetition conversion equation.
So put on a load that you think is kind of close to your maximum and just do it for as many
reps as you can.
As long as it's under five reps total, you can then actually go online and enter that
into any number of calculators anywhere and it will tell you, okay, you did three repetitions
at 200 pounds.
Your one rep max is probably 215.
Whatever.
So there's estimate equations.
So if you don't want to spend the time or you're not truly comfortable like absolutely
going to your true one rep max, just get to a number that's fairly close and do as many as you can and then go in line,
again, one-run max estimator equations are everywhere.
If you get past five repetitions or so, the accuracy of those equations starts going down.
So don't put on something and go out and do 12 reps of it and then try to figure out your
one-run max.
It'll get close.
You start moving past that, you're just getting worse and worse and worse accuracy.
So I want to make sure whether you're doing the leg extension test or a front squat test.
You don't technically have to do it an absolute one right max.
If neither of those are an option, another one I like a lot here is simply a front squat
or a goblet squat hold.
So you're going to hold away in front of your chest, whether a kettlebell is great here,
a dumbbell is fine here,
and you wanna hold about half of your body weight,
go all the way to the bottom position
and try to hold that for about 45 seconds.
So it's a pretty good indicator of number one,
your position.
It's hard to be in a bad position for that long at that load,
as well as core strength and low back stability.
So it's a very different indicator than say the extension test, but it's a really nice one.
So it doesn't require many moving parts.
It's more difficult than the leg extension, but it's quite a bit more functional and it's
going to give you insight into a lot more areas than just the quadriceps.
So 45 seconds down at the bottom of the squat and then returning to a standing position.
Yep. And if you can't do the return, I actually, I'm not that worried, but as long as you can hold
that good position without a technical breakdown in that 45 seconds, that's a really good spot.
As an intro, I want a third of your body weight for 30 seconds. Terrific. I plan to attempt all of
those strength tests very soon. What about hypertrophy?
Sure. Actually, before we get into that, I want to jump back really quickly. It's important to add
a couple of caveats to the strength training stuff. So there's two that I want to do. Number one,
these are assuming you are technically proficient. So I don't want you to do any exercise
to exhaustion or to maximum strength if you're not comfortable
with your technique.
So adjust these accordingly.
If you're not comfortable with the front squat, do the leg extension.
If you're not uncomfortable with that, do something different.
So we never want to utilize maximum testing if it's going to come with a consequence of
serious, secured injury.
So that's the most important flag.
The second one is your warm up protocol will have a huge effect on your actual results.
So whenever you do these tests, especially if you're going to do a test and then a test
again down the line, you want to make sure that that warmup protocol is standardized.
Now again, the NSCA and I can give you resources has specific guides for exactly what to do
for your warmup protocol prior to one of our max testing.
So we can go there and you can look that stuff up.
We can add that to show notes or something.
Yeah, and I think when we get into a deeper discussion about strength and hypertrophy
and resistance training in general, if we get touch into the best warm up protocol, I
know I have mine and I'm certain it's going to be suboptimal based on everything.
Maybe that's causing a problem.
Based on every conversation we've ever had where I learned all the things I'm doing incorrectly
But I do make changes on the basis of what you tell me. It's not incorrectly so much as it is like
Suboptimal. That's a very kind way of telling me it's incorrect. Thank you
What about hypertrophy? So the thing you want to pay attention to here is
You have the aesthetic
portion of hypertrophy that's entirely I mentioned here is, you have the aesthetic portion of hypertrophy.
That's entirely up to you.
There is no rationale.
You can decide what you feel like looks good
or doesn't look good.
That's irrelevant.
There is a sufficient amount you need to have
where below that is detrimental to your health,
regardless of your outcomes.
And so the best way to do this is a couple of ways.
Any sort of body composition test can do this.
So whether this is a couple of ways. Any sort of body composition test can do this. So whether this is a scan,
they're like a Dexascan, which is a gold standard,
or other ways of biological,
biological impedance or other ways.
So there's a ton of different tests
you can get that are pretty close.
Okay, so what you wanna pay attention to
when you get like a Dexascant is a number called FFMI.
And so that stands for fat free mass index.
So you can look at again,
any number of online calculators, these are all standard.
So it doesn't actually matter where you pull them up.
You don't have to worry about looking it up
and whether or not it's right or not or something.
And so that's gonna actually tell you
if you have sufficient muscle mass.
And so a number you wanna look for in general
is something like if you're a man,
your FFMI should be something like 20 or higher. If you're a woman, you want to look for something
like 18. So that is the targets. If you get past like 24, 25 for a man, that's a lot of muscle mass
assuming you're reasonably lean. Now, if your FFMI is like 24, 25, but your body fat is like 40%,
you're actually just a very, very large individual.
You're not in a gray spot.
So when we say these sort of numbers,
it's the assumption that you're probably sub 30% body fat
for a man in sub 35 for a woman.
So those are the numbers, there are online calculators.
All you really need to know is your total body weight,
your body fat percentage, and then your height. You can enter those three numbers, and then they to know is your total body weight, your body fat percentage,
and then your height. You can enter those three numbers, and then they'll tell you your
FFMI scoring, it'll correct for an adjusted value. And most of those will actually tell
you the grading rubric, and then it's a good average bad, et cetera. But those are the numbers
we look at. If you are as a man, sub-17, as a woman sub-15. Now we're in an area of pretty severe physiological detriment for insufficient muscle.
And some of our later discussions will talk about why that matters.
So that's not sub-17% body fat.
That's specifically the FFMI.
That's the correct, yeah.
What about muscular endurance?
Is this where you're going to tell me I need to do wall sits?
So this is really nice. You can do any number of tests here.
A standard plank is a good testament of of musk and endurance.
So can you hold a front plank for 60 seconds?
Can you hold a side plank for 45 seconds?
Pretty easy. If you're able to do a pushup.
So if you can't, that sort of tells you loan. It's actually interesting.
If you can't do a single pushup, so if you can't, that sort of tells you loan. It's actually interesting. If you can't do a single push-up, that's not a most-guarante issue. That's actually now a strength issue,
because that's a one-hour max problem. So we want to be able to do for, again,
for a general male. We should have no problem doing 25 plus consecutive push-ups.
I apologize for interrupting you, but as long as we're talking about push-ups,
you just mentioned form.
Are we talking chest touching the ground?
Elbows breaking right angles.
What is a proper pushup according to your laboratory?
Unless you have a very specific reason
to limit range of motion,
I want all my testing done through a full joint range of motion.
This is different for the person.
So it's individualized to them.
But in general, for a pushup,
this would be a full, complete lockout
of the elbows on the top,
and a full chest, touch, or close to it at the ground.
You can do it different, it doesn't really matter,
but just keep it standard from your pre-test,
your post-test, if you're trying to mark progress.
But for us, unless we have a very specific reason,
we're going full range of motion for all of these tests.
Okay, so 25 push-ups for a male.
25 push-ups for a male is a standard.
And even something like 10 is a number
we're looking for again,
it's kind of minimum categories
for an upper body muscular endurance.
And not to get too down in the weeds,
but I have observed other people,
of course, never myself, no I'm kidding,
but observed other people pausing it,
maybe at repetition 15, catching their breath, and then continuing, or you, um, that would
be a, like a, like a piston. That would be a failed test. So no pauses. Correct. Just up,
down, up, down, and trying to hit at least 10, but ideally 25. I learned this lesson in one
of our studies, uh, probably nine years ago, where we didn't clarify that. And so we actually
had an individual.
He wasn't, he wasn't being nefarious.
He just figured out if I do a couple,
take a quick break and do a cup,
he like quadrupled his post test results
from his pre-test result,
because he figured out that little hack in there.
So you wanna standardize it.
It's not that I'm against or have some sort of strong belief,
it's just trying to keep protocol standardized, which means any break failed test.
So 10 to 25 pushups, minimum for males, what about for females?
Yeah, so also if I, if it's sub 10 for a man, that's again, and you're like very severe red flag
problem. We really, really like to see a number above 25. Okay, that's where we're anchoring. Anything between 10 and 25 is like, yeah, but not severe.
It means they have work to do.
We have work to do.
And for females.
For a female, you're gonna scale that sort of back.
So a female, the answer could be as little as zero.
So you're gonna see that, can you do a full position?
If they're in that position, we're generally not going
to do a muscular endurance test from the knees. We already know the answer is you're zero. We'll actually default to another test, which I'll
talk about in a second here. So for those folks, anything that's going to scale down a little bit,
right? So basically, you're looking at 15, is that marker? Like 25 was for the mail, where I want to see
above 15. And if I do, we're good. Anything between five to 15 is a number of like, okay, if you're sub five,
like we generally have some problems,
and if that is different between one and zero,
then like now zero is a problem.
So we should be able to do that.
So if a female cannot do 10 full push ups.
Yeah, 10 full push ups is hard for a female
depending on size. Okay, let's say a female can't do five full pushups. Yeah. 10 full pushups is hard for a female depending on size.
Okay, let's say a female can't do five full pushups.
You said rather than go to a knees down version,
what would you do to assess their muscular endurance?
And would you then also encourage them to work on their strength?
Well, absolutely.
So again, if they can't do anything less than three, you're going to be strength.
In fact, if you want to look at Muscle and Dress in General, so this is a bit of an off-topic
but I promise I'll keep it short and I'll come right back.
When I was a doctoral student, I had two lab mates.
One of them was a runner, a female, 120 pounds, something like that.
Small.
The other one was a male.
And he was basically like a straight bro.
Like he lifts weights, doesn't do any other sort of training.
It does like a very classic, not training program,
but kind of training.
And they were sort of band-drying back and forth for a while.
And basically she was saying, you're so unfit.
You can't run it all.
And he's saying, you're so weak, you can't do a pull-up.
And so they challenged each other to a competition.
They said at the end of the year,
the girl is going to do 26 pull ups
and the guy had to run a marathon, so 26 miles.
So that was the thing.
And then there was some sort of consequence
for whoever sort of failed it.
So the guy quickly tried to figure out
how the hell am I gonna run 26 miles
when I have not run a mile in like many, many, many years.
So he just started running, three miles, four miles,
or whatever.
She, well, of course, they both of them ran immediately to me.
And then she was like, how the hell, I can't do a pull-up.
And I was like, great.
And I gave her a very specific,
maximal strength protocol.
And she was like, whoa, I want to go to the assisted pull-up
machine and work on doing sets of 25.
Because I've got to get my mascara endurance up.
And I try to explain to her, your mascara endurance
is irrelevant if you can't do one.
It's never going to matter.
She did the muscular endurance protocol,
the entire thing, didn't listen to me.
The end of the year came and she still produced
exactly zero, bullops.
So point is, if you look at muscular endurance,
where is it strength and where is it actually
muscular endurance, the general sort of number
that you're looking for is under like 80%.
All right, that's going to tell you is this a Muscat endurance problem or is this an absolute
strength problem?
Under 80% of the one repetition maximum.
Yep.
So what I mean by that is this.
In fact, this is actually these are your questions.
The other way to assess Muscat endurance is take the exact strength test you did from
the talk five minutes ago.
What what did you do load that to 75% and then do that for as many repetitions as you can.
And that is a tremendous barometer of muscular endurance.
So if you were able to do 200 pounds in your leg extension test, put 75% on that and do
that as many repetitions you can, you want to look for more than eight repetitions.
If you are below eight repetitions,
then we have a muscular endurance problem. If it is higher than that, if you've got 15 or 20,
then we know we have probably some problems in your peak strength or the test itself. So that is a good
8 to 12 sort of number is where you want to be looking at for there. What about anaerobic capacity?
This one's more challenging.
You either have to go to a laboratory and do something like a WINGAIT test.
So this is a 30-second maximal test where you're going to see how much work can you possibly
do in that 30 seconds.
If you don't have a loud assist to a laboratory, you can do this on any protocol you want.
This could be sprinting, this can be on an air bike,
this could be on a roller, anything like that,
anything where you can exert maximum effort
and you don't have to worry about technical problems.
So I generally don't like to do things like
a kettlebell swing or something like that.
There's just too many other variables.
You need to be able to go as hard as you possibly can,
knowing you're going to get to a place of tremendous fatigue.
Now, in the lab, we often use what's called a Bosco protocol,
and you're gonna stand on a force plate,
and you're gonna do as many vertical jumps
as fast as you can, as high as you can for 60 seconds,
and you're absolutely destroyed by like second 45.
So we either use that wind gate protocol or that Bosco protocol.
If you want though, again, take any of those other places.
30 seconds or so, up to 45 seconds, up to minute if you want.
It doesn't really matter.
And you just mark down the distance you cover.
That's all you're, we don't really have standards for these things because it's going
to be different.
How far you can travel in 30 seconds on a treadmill.
It is just going to be so different than sprinting in the field or on the
assault bike or whatever.
So what you really want to worry about there is can you complete it?
And then how awful do you feel afterwards?
So what you really want to think about here is not those protocols, but
this. You want to think about, can you get want to think about here is not those protocols, but this.
You want to think about, can you get close to your predicted maximum heart rate?
So the number we throw out is 220 minus your age.
So if you're 50 years old, 220 minus 50, you should be able to get to a maximum heart rate
of around 170 beats per minute.
Now that number is extremely generic. If you don't
get there, that doesn't have any indication of your fitness. If you get higher, that doesn't mean
you're any more fit. It's just a rough number. So here's what I want you to do. In this case, your
heart rate recovery is the better metric. So I want you to get up to a maximum heart rate
and then test your heart rate recovery. And what you should be looking for there
is about a half a beat recovery per second.
So you're gonna get up to a place
where you reach like absolute terrible exhaustion, right?
Maximum fatigue, test your heart rate,
and then count, right?
Have a time or go.
Within 60 seconds, you should have again,
that half a beat per second.
You should have a heart rate recovery of 30 beats per minute within the next, the next
minute, so two minute recovery, it should begin half that, so 60 beats.
Those are rough numbers to go by and your three minute recovery is again half of that
again.
So that is the closest way.
If your heart rate recovery is worse than that, then we know we have a problem in your anaerobic capacity or your cardiovascular capacity.
I love it.
What about number eight, maximal heart rate?
Because what you just described sounds a lot like maximal heart rate.
So this is your VO2 max.
So the goal standard here is to actually go into a laboratory and get this thing done.
So we can actually run a VO2 max test where you put a mask on, collect all your gases
and run you to there.
And there's a very specific protocol for completion of a true maximum test.
And any of the scientists will know that.
If you don't have access to that, you can do a couple of tests.
One of them is called a 12-minute Cooper test.
So this is simply time.
You're going to run for 12 minutes as far as you can.
And you're going to record the distance you covered.
Again, you can go online to any number of calculators, enter that distance in, and that will tell
you your estimated VL2 max.
So that's a 12-minute sprint?
12-minute sprint.
Maximum distance you can cover in 12 minutes.
Keeping a steady pace the whole time or going.
Do whatever you want.
The goal is to get maximum distance covered in 12 minutes.
So that's anywhere between a mile to two plus miles,
depending on how fat you are.
But you just do that Cooper 12 minute test.
Got it.
I told you.
So if you remember, aerobic capacity
is eight to 12 sort of minutes where you're
going to see a real truth test of that VL2 max.
You simply can't get that in under a few minutes.
So it is a, if you want, you can do a little gentler version of that.
So there are a number of sub-maximal tests.
There in fact there is a one-mile walk test you can do.
So again, all you're going to do is, in this case, you have to have some sort of either
a stopwatch or ideally a heart rate monitor. And all you have to do is this is a rock
board one mile sub maximal test. So you're going to walk a mile, record the time, record
your heart rate at the end, enter those in and those will give you again estimates of your
views to max. So that's the like, oh my gosh, I can't run for 12 minutes as hard as I possibly can or
I don't want to do it.
Or we have a lot of these in our executive program.
It's like, my knee hurts too bad.
I've got back pain when I run or whatever.
Okay, and you do the walk this.
And it's pretty accurate if you do it correctly.
So technically, all you have to actually do is measure your heart rate on your, you know,
you can count 60 seconds, but it's just easier to work with everyone's watches and stuff
now. Just wear a heart rate monitor
Plug in those numbers
And again, those are all standard
Calculations so anywhere you find those you don't have to worry about the source so you just enter your stuff and they're gonna be running out the same equation
I like the idea of the 12 minute run. I'm gonna give it a shot
So we did for years we did a one mile version of this and there's just a lot
more science on the Cooper to open a Cooper test. So we did that. It's pretty good.
And it is not even remotely close to fun.
It sounds like fun for other reasons. Yeah, yeah. Well, it is.
It fun in the sense that it reveals a lot. Yeah, powerful, potent.
Super.
There's no hiding.
You can hide with a legacy sentence test.
It doesn't hurt that pad, but you, you cannot feel anything, but the 12 minute run as far as you can test.
So these are really actually psych psychiatric diagnostic tests.
The, they are of sorts.
Number nine, long duration steady state exercise.
I think of this as a K a endurance, but as you mentioned before,
there are other forms of endurance.
So long duration steady state exercise.
Yep. So you really want to think about this as not a standard number.
This is you should maintain consistent work output for over 20 plus
minutes. Okay. And this one, I want you to just pick something that it was in your lifestyle.
So is there a loop around your house that you can do? Is there some protocol that you
like to use before? And you're simply going to test your ability, can you maintain work
without stopping? That's all it needs to be. Now, ideally, I personally like to throw a little twist in here,
which is, can you do this with nasal breathing only?
That's when I feel really good.
If you can go 30 straight minutes without needing to take a break,
walking doesn't really cut it unless you're very, very unfit,
in which case, if walking 30 minutes without a break
is a challenge, okay, like there.
But if you can, I want you moving at a non-walking
pace. I don't care what zone this is. Two, three, four, five. I don't care. Show me you can maintain
minimum of 20 minutes of work with no breaks. No intervals, no downtime. And again, ideally,
breathing through your nose only. I love this list, but it worries me a bit. Not because any one of these tests is necessarily that overwhelming, but because I'm unclear
about how to arrange performance of these different tests.
For instance, do I separate them?
So I'm doing one test, like long duration output on one day, and I'm doing strength on
another day.
Those seem pretty obvious to me, but are there ones that one can combine on different days?
How much time should one give oneself in between these tests
and how often should one do an assessment?
Just as we don't want to necessarily evaluate body weight changes
by getting on the scale three times a day,
maybe once a day at the same time, each day is more practical.
How often should we be assessing our fitness for each and every one of
these? Well, the way that I would say this is you want to pick the one that is the worst
and do that more frequently. So if for example, you do the upper body strength test and you are
fantastic. If you can bench press double your body weight, I don't need to test your bench very
often for the average person.
You're not a power left here, maybe once a year or so. Maybe not even that.
We just don't need to get there. However, if we then test your VO2 max
and in your 12 minutes, you cover a total of a half a mile,
then we might want to test that every month.
And so we're going to let our priorities emphasize which one we're going to do more often.
I would recommend doing this full battery once a year.
Full battery mean the entire list on one day.
No, not on one day, but within a week.
So you could take a week.
Now you could do these technically all in two days.
Three days split here is probably best.
So if you were to just say, hey, this is like testing week.
I actually love this for the beginning of the year.
Or whenever it is you sort of change your
training, but I think once a year, just like once a year, you should probably go to a physician and
get full blood work, a full, you know, heart scan and everything like that. And then if maybe you
had a hard issue, you'd come back and test you more frequently, whatever the case is, right? You
should probably run through this. And you're going to be thinking, yeah, but I don't want to like
give up on my exercise routine that week. Well, I run through this and you're going to be thinking, yeah, but I don't want to give up
on my exercise routine that week.
Well, I promise you you're not going to finish this week
and think I didn't do very much work this week.
It's gonna feel great.
And then you're gonna have a very nice barometer
of exactly where you need to change
and prioritize your training for the next quarter,
half a year, or wherever you want to go.
If you want to actually do this every six months,
that's really, we end up actually doing this
quite honestly like more like every six months
as a general test.
That's a really good way to do.
But if minimum if you're arguing with me,
give me one a year, you want to do this.
So which order to do them in?
The non-fanticking tests you can do whenever.
So this is the body composition scan,
the FFMI, the body fat composition,
all this stuff can be done wherever.
I generally like to do that though, as you're very first activity.
The reason is we know that acute exercise can heavily influence things like body composition
measurements because of inflammation, water storage, etc. So it's easiest to just sort of get
that off of a 48 hour rest. You want to make sure you don't do any hard exercise the day before a body composition test
and probably 48 hours before that.
So just start yourself off with that.
Your movement test can be the same thing.
You don't want to try to do an assessment
of how well you're squatting
if you're incredibly sore from your brutal squatting test.
So tend to do those things when you're the most fresh.
Then what you want to do is any skill
or maximum strength or power goes at the very beginning
of the day, any fatiguing thing happens at the end.
And so you could easily do this.
All right, I'm going to do my power test, my broad jump.
Great, you're not gonna be fatigued at all from that.
And on the same day since I'm already pretty warmed up,
now I'm gonna roll right into my leg strength test same day since I'm already pretty warmed up, now I'm going to roll right into my leg
strength test. And since I'm really warmed up, I'm going to do my leg muscular endurance test right there.
So this is a very common strategy we use. We do our one-route max leg extension,
five minutes, seven minutes, whatever we need to do, come back, load it to 75%
do as many reps as you can. Boom. You could roll right into then your upper body test
or your grip strength test
or anything else that you want to do there.
Is there a little bit of influence?
Yeah, but really for most people,
it's not that bad.
What I'm influenced, I mean,
if you do a leg strength test,
coming back and doing that upper body strength test afterwards,
it's not that big a deal.
Give yourself 15, give yourself 20 minutes. Keep it plenty of time.
So you can knock out your strength testing and your muscular endurance testing all on one day. That
could be you could do your performance, your skill, diagnostic, your power jump test, your strength
and your muscle endurance and all that stuff is knocked out. You're going to have to come back on a
separate day and do your anaerobic test. This is 30 seconds, maximum endurance, things like that.
You could though if you wanted, do that after your long duration test.
Your long duration test is again, as it's going to function as like a big warmup.
Or you could flip those things, or you could do them on separate days.
You're going to have to do your Vio2 max test on its own day for the most part, unless
you wanted to do
again your movement or your body composition before those things.
So you really have the ability to mix and match.
Ideally, this most realistically probably takes three days.
If you want to separate them into four or five, the more separation you do, the better
data you're going to get.
It's just a question of how pedantic are you really trying to get? And are you willing to lose 5% to then save a whole day? Then you can do
sort of these things in multiple stacks. So that's how I would break it up.
So what I'm hearing is better to do it than to not do it.
Most definitely. And be rational. Don't try and do your strength output late in the day
when you're fatigued. You know, if you're going to combine some of the steady state endurance and
maximal heart rate, fine, understand there might be a slight deficit there, but
test it the same way each time and what you're really looking for is improvement.
Yep, and you could also do the heart rate recovery under any modality.
So you could do the heart rate recovery after you're able to max as well.
So you finish that thing and then just, you know, again, do the heart rate recovery after you're able to max as well. So you finish that thing and then just, you know,
again, do the same test for up to three minutes.
These are fantastic tools.
I'm almost tempted to say that I'm willing to post
my numbers, but that actually violates the core principle
that I think we're getting at here, which is that it's highly
unlikely that anybody is going to be phenomenal across the
board. I mean, certainly there will be individuals that are,
but based on everything we talked about earlier,
specificity of training and how extensively
somebody's been training a certain way,
will without question,
lopsided them, if you will,
toward being better in some of these assessments
and less good in others.
And that's just simply the way that these adaptations work.
And it's not, you don't need to be optimal in all these areas to be, quote,
unquote, optimal health from this perspective. You just want to make sure, again,
there's no severe performance anchors. This is what we call them, right? We
want to want any of these severe constraints, because you're going to get limited by that thing.
And so what you want to do is move that up to just sufficient or concerning.
Right. And get it away from that.
If you do that, that thing's not going to catch you.
You're going to be able to continue to pursue, pursue optimization in any of the
one things that you have a specific passion for.
Which is generally what moves people, right?
You train so that you feel better.
You train because you know there are all these benefits to it and
Jesus audience probably could list hundreds of them.
But you also train because you generally like to get better at something.
A lot of us have something.
And so you want to make sure that you're not going, hey, I know you're good at endurance,
but you really shouldn't train anymore.
We don't want that message, not at all.
I want you to love your training.
We just want to make sure that you're not loving that so much that you're not taking some blinders off and missing another
area, which would actually, again, you pull that performance anchor, this whole ship
sails faster with less effort and less friction.
What I love about this is also that as you've described it, it's not just for athletes or people that
are super into fitness. It's also for people that just want to be healthy and want aesthetic
changes, and that's why they're exercising, which I think accounts for a really large percentage
of people out there. So I think what you described is it incredibly well structured, incredibly
clear and incredibly actionable. So I want to thank you for that. I'm serious about my willingness
to do this and at least share those numbers with you. And I think for most people that are seeking
what you listed off before, aesthetic changes, functionality and longevity, it's clear that all
nine of these are going to be important in some regard or another. So before we close out, I want to go back and finish off the metrics for Vio2Max
because I don't actually think I gave you numbers on that.
So in general, for men, a minimum number we want to look at here is 35 milliliters per
kilogram per minute and for women, that'd be about 30.
So we can actually push a lot higher on those things in reality.
I want to see men above 50.
If I could just interrupt you for a second,
when you say 40 milliliers per kilogram,
milliliers of what specifically?
Yeah, so what actually those metrics mean is
the first one milliliters is oxygen,
so it's a amount of oxygen.
Kilograms is body weight,
so it's how much oxygen can you bring in
per kilogram of body weight per minute.
So it is a volume of oxygen per your size
in a time duration.
In fact, the way that you calculate it
is you multiply your cardiac output
by what's called your AVO2 difference.
Your cardiac output is your heart rate
times your stroke volume.
So how much blood you're pumping out per pump
is your stroke volume. How many times blood you're pumping out per pump is your stroke volume?
How many times you're pumping or you're beating? You multiply that by your AV02 difference.
Your AV02 difference is artery minus vein difference. So it's the amount of oxygen in your arteries,
minus the amount of oxygen in your vein, which is going to tell you how much you took up
in your capillaries in your muscles. So you take those two factors and multiply them together,
and there's your AV02 max. You know, as you were describing that, I imagine you getting to an FM capillaries and your muscles. So you take those two factors and multiply them together and there's your VO2 max.
You know, as you were describing that,
I imagine you getting to an FMRI machine
and seeing that equation lighting up in your brain
because clearly it's committed to memory very well.
Thank you for that clear description.
Yeah, so to finish those numbers,
I really truly wanna see some a man above 50
and I'm not even really stoked until I get above 55.
In fact, it's sort
of funny Dave Costell, whose lab I did my PhD and he was retired by the time, but he's
again, one of these legendary figures in exercise physiology started in the 70s. He would always
say, there's no human excuse to be below 60, which I was always like, damn, like that's
really actually pretty hard to get to. Was he, was he, oh yeah, he's still actually setting world records
like in these last couple of years.
And it's like all the masters records for swimming
and cycling and stuff.
So he was a super, super fit guy.
So he was always above 60s.
He's probably like 50s something now,
even though he's 80 or whatever.
80 years old.
Yeah, with a VO2 max of 50s.
He's probably really not 50. He's probably,
but he's probably going to remember that earlier in that we talked about. I had the 92-year-old
by the view of 2 max of 38. Dave's probably going to break that record when he gets there. I'm sure,
I'm sure. In fact, I guarantee you he has that number in his brain. I haven't talked to him in 15
years, but I guarantee you that number is in his brain and he's probably training for it. I love it. And I love it because it proves that exercise pays off.
Oh, yeah.
It's one of the few things in life where there's a direct relationship between work and outcome.
Yeah.
That's as Henry Rollins described in his wonderful essay.
If you're familiar with that.
Oh, my gosh.
Well, you're a punk rock guy.
You know, Henry, I'm sure.
I mean, I certainly know who he is and I know his work.
An incredible one page paper and sort of something to do with the iron.
Any basically describes that as like, this is the one thing where it's truth.
Like, it is the most true thing you'll ever do.
Which is, I love for that.
It's almost like a principle of nature.
100%.
Yeah.
So with the women, I really want to see the women.
If I want to see men above 55, I really want to see women above 50 as the target.
And if you're like, you're there, I'm pretty good.
So you can do the math on then the middle ground of what's like, okay, but we need to work
on it.
In fact, if you look across a literature at different athletes, you're going to see
like the really high level endurance folks.
You know, they may pass 70 or 80.
In fact, there was talk a few years ago
of a guy breaking 100,
that's like an 18 or 19 year old,
but I actually don't think it was ever fully confirmed
or repeated, but certainly you'll see plenty of people
like 95 in those extremes.
If you look at other sports like football or basketball,
they're probably going to be in the 55, 65 sort of range.
So if you as an average person are 55,
that's a really good marker to be in.
If you get even close to that, you're in a good spot.
I'm sorry if I let you down, Dave.
I just love how you're describing this average person.
You're looking at me with just a little bit of sympathy.
Like if you reach the standard of average, Andrew, listen, you're giving me prompts all
over the place to try and improve my metrics, whatever they happen to be.
And I think that's one of the great values of getting objective numbers, even if they
have to be measured by some of these back of the envelope techniques that, you know, I
guess we always teach people in the laboratory that a tool can be not extremely precise,
but as long as it's reliable,
there is still value there.
I mean, of course, you'd love to have the most precise
and most reliable tool, but if you can't,
then at least go for a reliable tool
and measure for consistency.
Yeah, for the real world reliability, beast validity.
As much as we can, for a lot of things we're talking about, especially if we're
using it as a metric of, did I get better?
As long as that tool is reliable, body composition, just all of these things have inherent error
in them.
Some of them are smaller, some of them are larger, but as you mentioned, having standardization
within the testing protocol is going to allow you to measure progress, and that's going
to tell you, so we're here at.
Now that we've sort of covered all of these areas
of adaptation, we walk through the history
and we walk through a bunch of the explanations
for why people are maybe not getting the results
that they wanna get through their training.
The way I would like to go with the rest
of our conversations would be to just go through
each of those adaptations step-by-step
and make sure I cover very specific protocols
for if you have run through this testing and identified an area of weakness.
So maybe you've sort of been lifting a lot because you like lifting and you maybe realize
that your cardiovascular fitness or your heart rate or your recovery is not where it
really should be or the opposite like we've talked about.
Maybe you're doing a lot of that type of work and your strength isn't there.
You're moving the quality is not there.
So you've identified a problem.
How do I specifically solve it?
What are the evidence-based and most effective protocols
that I can put myself in for each one of these categories?
And I think that would give people a lot of take home value,
but it's going to take us some time to cover.
So it's going to have to come across
over multiple conversations between you and I.
Great. Well, I'm looking forward to each and all of those conversations. And I want to add
just one more metric to our discussion today, which is really just my way of saying thank
you because if there were a metric for amount of useful information, percentage spoke, you
would be at the upper level of that metric.
You have this amazing ability to provide so much knowledge
in a clear and concise and today listed out format
that is both interesting, grounded in science
and actionable.
So on behalf of everyone listening
and certainly for myself as well,
I just wanna say thank you.
Well, I appreciate the compliments.
And I'm looking forward to the next conversation,
jumping right into speed, strength, and I perch to retraining
and what are the evidence-based and best practices for protocols in those areas.
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with Dr. Andy Galpin.
And as always, thank you for your interest in science.
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